Search

Your search keyword '"Korn, K"' showing total 480 results
Start Over Author "Korn, K"
480 results on '"Korn, K"'

5. Detection of asymptomatic SARS-CoV-2 infections in daycare centers, schools, and companies for regional pandemic containment by a PCR testing laboratory cooperative between July 2021 and June 2022

Author

Bertram, R, Grebenstein, L, Gualdi, S, Seibold, B, Birkmann, R, Korn, K, Bisping, J, and Schabik, R

Subjects
PCR test laboratory, ddc: 610, SARS-CoV-2, PCR-Testlabor, coronavirus, COVID-19, Corona, pool testing, Pooltestung
Abstract

As an important element in the regional containment of the COVID-19 pandemic a PCR testing laboratory with a cooperative character was founded in spring 2021 to screen for SARS-CoV-2 in the Nuremberg region, Germany. The aim was to detect asymptomatic infections in day care facilities for children, schools, and companies. The laboratory used an established RT-PCR protocol and analyzed approximately 18,500 pools of up to 25 pooled samples each from gargles or swabs ("lollipops") from up to 135 facilities between July 2021 and June 2022. Usually, the participating facilities were informed about positive pools within a few hours. Retention samples from positive pools were usually analyzed on the same day, and the results were reported to the facilities as well as the German Electronic Reporting and Information System (DEMIS). In the laboratory results, both the local incidences and the transition from the Delta- to the Omicron surge in early 2022 were well reflected. It is plausible that about 4,800 secondary infections could be prevented from the approximately 1,570 positive individual samples detected in conjunction with appropriate isolation measures. Such a PCR laboratory, which is characterized by short response times and high flexibility, can thus provide valuable services for regional surveillance of infection incidence. Als ein wichtiger Baustein zur regionalen Eindämmung der COVID-19 Pandemie wurde im Frühjahr 2021 ein PCR-Testlabor mit genossenschaftlichem Charakter zum Screening auf SARS-CoV-2 in der Region Nürnberger Land gegründet. Ziel war die Detektion asymptomatischer Infektionen in Kindertagesstätten, Schulen und Unternehmen. Das Labor nutzte ein etabliertes RT-PCR Verfahren und analysierte zwischen Juli 2021 und Juni 2022 aus bis zu 135 Einrichtungen rund 18.500 Pools mit je bis zu 25 vereinigten Proben aus Gurgelaten bzw. Abstrichtupfern ("Lollis"). In der Regel wurden die teilnehmenden Einrichtungen innerhalb weniger Stunden über positive Pools informiert, Rückstellproben positiver Pools wurden meist noch am selben Tag analysiert und die Ergebnisse an die Einrichtungen sowie das Deutsche Elektronische Melde- und Informationssystem (DEMIS) gemeldet. In den Laborergebnissen bildeten sich über den Zeitraum Juli 2021 bis Juni 2022 sowohl die lokalen Inzidenzen als auch der Übergang von der Delta- zur Omikron-Welle Anfang 2022 gut ab. Es ist plausibel, dass sich bei den ca. 1.570 detektierten positiven Einzelproben in Verbindung mit geeigneten Isolationsmaßnahmen etwa 4.800 Sekundärinfektionen verhindern ließen. Ein solches PCR-Labor, das sich durch kurze Antwortzeiten und hohe Flexibilität auszeichnet, kann somit wertvolle Dienste für die regionale Überwachung des Infektionsgeschehens leisten.

Published
2022

11. Prävention der nosokomialen Übertragung von humanem Immunschwächevirus (HIV) durch HIV-positive Mitarbeiterinnen und Mitarbeiter im Gesundheitswesen: Empfehlungen der Deutschen Vereinigung zur Bekämpfung der Viruskrankheiten (DVV) e.V. und der Gesellschaft für Virologie (GfV) e.V.

Author

Rabenau, H.F., Gottschalk, R., Gürtler, L., Haberl, A.E., Hamouda, O., Himmelreich, H., Korn, K., Mertens, T., Schmidt, K.W., Schmiedel, S., Spickhoff, A., Wirz, G., Wutzler, P., and Wicker, S.

Published
2012
Full Text
View/download PDF

14. SARS-CoV-2 N gene dropout and N gene Ct value shift as indicator for the presence of B.1.1.7 lineage in a widely used commercial multiplex PCR assay

Author

Wollschlaeger, P, primary, Gerlitz, N, additional, Todt, D, additional, Pfaender, S, additional, Bollinger, T, additional, Sing, A, additional, Dangel, A, additional, Ackermann, N, additional, Korn, K, additional, Ensser, A, additional, Steinmann, E, additional, Buhl, M, additional, and Steinmann, J, additional

Published
2021
Full Text
View/download PDF

26. Patterns of transmitted HIV drug resistance in Europe vary by risk group

Author

Frentz, D., Van De Vijver, D., Abecasis, A. B., Albert, Jan, Hamouda, O., Jørgensen, L., Kücherer, C., Struck, D., Schmit, J. -C, Vercauteren, J., Åsjö, Birgitta, Balotta, Claudia, Bergin, C., Beshkov, Danail, Camacho, Ricardo J., Clotet, B., Griskevicius, A., Grossman, Z., Horban, A., Kolupajeva, T., Korn, K., Kostrikis, Leontios G., Linka, K. L. M., Nielsen, C., Otelea, D., Paraskevis, Dimitrios N., Paredes, R., Poljak, M., Puchhammer-Stöckl, E., Sönnerborg, A., Stanekova, D., Stanojevic, M., Vandamme, A. -M, Boucher, C., Wensing, A., Kostrikis, Leontios G. [0000-0002-5340-7109], Paraskevis, Dimitrios [0000-0001-6167-7152], Frentz, D., van de Vijver, D., Abecasis, A., Albert, J., Hamouda, O., Jørgensen, L., Kücherer, C., Struck, D., Schmit, J., Vercauteren, J., Asjö, B., Balotta, C., Bergin, C., Beshkov, D., Camacho, R., Clotet, B., Griskevicius, A., Grossman, Z., Horban, A., Kolupajeva, T., Korn, K., Kostrikis, L., Linka, K., Nielsen, C., Otelea, D., Paraskevis, D., Paredes, R., Poljak, M., Puchhammer-Stöckl, E., Sönnerborg, A., Stanekova, D., Stanojevic, M., Vandamme, A., Wensing, A., and Tramuto, F. among SPREAD Programme investigators, Graduate School, Sluis-Cremer, Nicolas, Van Wijngaerden, Eric, Virology, and Erasmus MC other

Subjects
Male, Epidemiology, genotype, Human immunodeficiency virus 1, HIV Infections, RNA directed DNA polymerase inhibitor, high risk patient, Logistic regression, Settore MED/42 - Igiene Generale E Applicata, Men who have sex with men, 0302 clinical medicine, Immunodeficiency Viruses, middle aged, statistics and numerical data, 10. No inequality, Substance Abuse, Intravenous, 0303 health sciences, adult, transmission, virus diseases, virus transmission, highly active antiretroviral therapy, HIV immunopathogenesis, 3. Good health, Medical Microbiology, Viral Pathogens, high risk behavior, Medicine, Science & Technology - Other Topics, POPULATIONS, health program, anti human immunodeficiency virus agent, USERS, medicine.medical_specialty, Science, Sexual Behavior, Immunology, Sexually Transmitted Diseases, intravenous drug abuse, Microbiology, 03 medical and health sciences, Antibiotic resistance, SDG 3 - Good Health and Well-being, Human immunodeficiency virus infection, proteinase inhibitor, Humans, Protease Inhibitors, human, Heterosexuality, Microbial Pathogens, seroconversion, Medicine and health sciences, Science & Technology, Genitourinary Infections, MUTATIONS, Virology, major clinical study, Logistic Models, transmitted drug resistance mutation, HIV-1, Viral Diseases, Medical sciences: 700::Basic medical, dental and veterinary sciences: 710::Medical immunology: 716 [VDP], drug response, men who have sex with men, Drug resistance, Clinical immunology, geography, APPEARANCE, male homosexuality, Medizinische Fakultät, immune system diseases, INFECTION, Medicine and Health Sciences, substance abuse, 030212 general & internal medicine, risk, Multidisciplinary, ACTIVE ANTIRETROVIRAL THERAPY, Transmission (medicine), virus mutation, article, Obstetrics and Gynecology, HIV diagnosis and management, Middle Aged, virology, Multidisciplinary Sciences, Europe, Infectious Diseases, female, Medisinske fag: 700::Basale medisinske, odontologiske og veterinærmedisinske fag: 710::Medisinsk immunologi: 716 [VDP], Reverse Transcriptase Inhibitors, HIV clinical manifestations, Female, epidemiology, blood sampling, HIV drug resistance, Research Article, Adult, Risk, risk-group, Anti-HIV Agents, Urology, prevalence, Infectious Disease Epidemiology, sexual behavior, Risk-Taking, male, antiviral resistance, Internal medicine, Drug Resistance, Viral, medicine, controlled study, ddc:610, Homosexuality, Male, 030304 developmental biology, drug resistance, Biology and life sciences, business.industry, statistical model, HIV, CD4 lymphocyte count, heterosexuality, nonnucleoside reverse transcriptase inhibitor, Human immunodeficiency virus 1 infection, Diagnostic medicine, INDIVIDUALS, drug effects, Women's Health, business, trend study
Abstract

BACKGROUND: In Europe, a continuous programme (SPREAD) has been in place for ten years to study transmission of drug resistant HIV. We analysed time trends of transmitted drug resistance mutations (TDRM) in relation to the risk behaviour reported. METHODS: HIV-1 patients newly diagnosed in 27 countries from 2002 through 2007 were included. Inclusion was representative for risk group and geographical distribution in the participating countries in Europe. Trends over time were calculated by logistic regression. RESULTS: From the 4317 patients included, the majority was men-having-sex-with-men -MSM (2084, 48%), followed by heterosexuals (1501, 35%) and injection drug users (IDU) (355, 8%). MSM were more often from Western Europe origin, infected with subtype B virus, and recently infected (

Published
2014

27. Increase in transmitted resistance to non-nucleoside reverse transcriptase inhibitors among newly diagnosed HIV-1 infections in Europe

Author

Frentz, D. Van de Vijver, D.A.M.C. Abecasis, A.B. Albert, J. Hamouda, O. Jørgensen, L.B. Kücherer, C. Struck, D. Schmit, J.-C. Vercauteren, J. Åsjö, B. Balotta, C. Beshkov, D. Camacho, R.J. Clotet, B. Coughlan, S. Griskevicius, A. Grossman, Z. Horban, A. Kolupajeva, T. Korn, K. Kostrikis, L.G. Liitsola, K. Linka, M. Nielsen, C. Otelea, D. Paraskevis, D. Paredes, R. Poljak, M. Puchhammer-Stöckl, E. Sönnerborg, A. Stanekova, D. Stanojevic, M. Van Wijngaerden, E. Wensing, A.M.J. Boucher, C.A.B. Puchhammer-Stockl, E. Sarcletti, M. Schmied, B. Geit, M. Balluch, G. Vandamme, A.-M. Vercauteren, J. Derdelinckx, I. Sasse, A. Bogaert, M. Ceunen, H. De Roo, A. De Wit, S. Echahidi, F. Fransen, K. Goffard, J.-C. Goubau, P. Goudeseune, E. Yombi, J.-C. Lacor, P. Liesnard, C. Moutschen, M. Pierard, D. Rens, R. Schrooten, Y. Vaira, D. Vandekerckhove, L.P.R. Van den Heuvel, A. Van Der Gucht, B. Van Ranst, M. Vandercam, B. Vekemans, M. Verhofstede, C. Clumeck, N. Van Laethem, K. Demetriades, I. Kousiappa, I. Demetriou, V. Hezka, J. Bruckova, M. Linka, M. Machala, L. Nielsen, C. Jørgensen, L.B. Gerstoft, J. Mathiesen, L. Pedersen, C. Nielsen, H. Laursen, A. Kvinesdal, B. Salminen, M. Ristola, M. Liitsola, K. Suni, J. Sutinen, J. Korn, K. Kücherer, C. Berg, T. Braun, P. Poggensee, G. Däumer, M. Eberle, J. Heiken, H. Kaiser, R. Knechten, H. Müller, H. Neifer, S. Schmidt, B. Walter, H. Gunsenheimer-Bartmeyer, B. Harrer, T. Paraskevis, D. Hatzakis, A. Magiorkinis, E. Hatzitheodorou, E. Haida, C. Zavitsanou, A. Magiorkinis, G. Lazanas, M. Chini, M. Magafas, N. Tsogas, N. Paparizos, V. Kourkounti, S. Antoniadou, A. Papadopoulos, A. Panagopoulos, P. Poulakou, G. Sakka, V. Chryssos, G. Drimis, S. Gargalianos, P. Lelekis, M. Chilomenos, G. Psichogiou, M. Daikos, G.L. Panos, G. Haratsis, G. Kordossis, T. Kontos, A. Koratzanis, G. Theodoridou, M. Mostrou, G. Spoulou, V. Coughlan, S. De Gascun, C. Byrne, C. Duffy, M. Bergin, C. Reidy, D. Farrell, G. Lambert, J. O'Connor, E. Rochford, A. Low, J. Coakely, P. O'Dea, S. Hall, W. Grossman, Z. Levi, I. Chemtob, D. Balotta, C. Riva, C. Mussini, C. Caramma, I. Capetti, A. Colombo, M.C. Rossi, C. Prati, F. Tramuto, F. Vitale, F. Ciccozzi, M. Angarano, G. Rezza, G. Schmit, J.C. Struck, D. Hemmer, R. Arendt, V. Staub, T. Schneider, F. Roman, F. Wensing, A.M.J. Boucher, C.A.B. van Kessel, A. van Bentum, P.H.M. Brinkman, K. op de Coul, E.L. van der Ende, M.E. Hoepelman, I. van Kasteren, M. Juttmann, J. Kuipers, M. Langebeek, N. Richter, C. Santegoets, R. Schrijnders-Gudde, L. Schuurman, R. van de Ven, B.J.M. Åsjö, B. Ormaasen, V. Aavitsland, P. Horban, A. Stanczak, J.J. Stanczak, G.P. Firlag-Burkacka, E. Wiercinska-Drapalo, A. Jablonowska, E. Malolepsza, E. Leszczyszyn-Pynka, M. Szata, W. Camacho, R. Palma, C. Borges, F. Paixão, T. Duque, V. Araújo, F. Jevtovic, D. Salemovic, D. Stanekova, D. Habekova, M. Mokras, M. Truska, P. Poljak, M. Lunar, M. Babic, D. Tomazic, J. Vidmar, L. Vovko, T. Karner, P. Clotet, B. Domingo, P. Galindo, M.J. Miralles, C. del Pozo, M.A. Ribera, E. Iribarren, J.A. Ruiz, L. de la Torre, J. Vidal, F. Garcia, F. Paredes, R. Albert, J. Heidarian, A. Aperia-Peipke, K. Axelsson, M. Mild, M. Karlsson, A. Sönnerborg, A. Thalme, A. Navér, L. Bratt, G. Karlsson, A. Blaxhult, A. Gisslén, M. Svennerholm, B. Bergbrant, I. Björkman, P. Säll, C. Mellgren, Å. Lindholm, A. Kuylenstierna, N. Montelius, R. Azimi, F. Johansson, B. Carlsson, M. Johansson, E. Ljungberg, B. Ekvall, H. Strand, A. Mäkitalo, S. öberg, S. Holmblad, P. Höfer, M. Holmberg, H. Josefson, P. Ryding, U. on behalf of the SPREAD Programme

Abstract

Background: One out of ten newly diagnosed patients in Europe was infected with a virus carrying a drug resistant mutation. We analysed the patterns over time for transmitted drug resistance mutations (TDRM) using data from the European Spread program.Methods: Clinical, epidemiological and virological data from 4317 patients newly diagnosed with HIV-1 infection between 2002 and 2007 were analysed. Patients were enrolled using a pre-defined sampling strategy.Results: The overall prevalence of TDRM in this period was 8.9% (95% CI: 8.1-9.8). Interestingly, significant changes over time in TDRM caused by the different drug classes were found. Whereas nucleoside resistance mutations remained constant at 5%, a significant decline in protease inhibitors resistance mutations was observed, from 3.9% in 2002 to 1.6% in 2007 (p = 0.001). In contrast, resistance to non-nucleoside reverse transcriptase inhibitors (NNRTIs) doubled from 2.0% in 2002 to 4.1% in 2007 (p = 0.004) with 58% of viral strains carrying a K103N mutation. Phylogenetic analysis showed that these temporal changes could not be explained by large clusters of TDRM.Conclusion: During the years 2002 to 2007 transmitted resistance to NNRTI has doubled to 4% in Europe. The frequent use of NNRTI in first-line regimens and the clinical impact of NNRTI mutations warrants continued monitoring. © 2014 Frentz et al.; licensee BioMed Central Ltd.

Published
2014

28. Transmission of HIV drug resistance and the predicted effect on current first-line regimens in Europe

Author

Hofstra, L.M. Sauvageot, N. Albert, J. Alexiev, I. Garcia, F. Struck, D. Van De Vijver, D.A.M.C. Åsjö, B. Beshkov, D. Coughlan, S. Descamps, D. Griskevicius, A. Hamouda, O. Horban, A. Van Kasteren, M. Kolupajeva, T. Kostrikis, L.G. Liitsola, K. Linka, M. Mor, O. Nielsen, C. Otelea, D. Paraskevis, D. Paredes, R. Poljak, M. Puchhammer-Stöckl, E. Sönnerborg, A. Staneková, D. Stanojevic, M. Van Laethem, K. Zazzi, M. Lepej, S.Z. Boucher, C.A.B. Schmit, J.-C. Wensing, A.M.J. Puchhammer-Stockl, E. Sarcletti, M. Schmied, B. Geit, M. Balluch, G. Vandamme, A.-M. Vercauteren, J. Derdelinckx, I. Sasse, A. Bogaert, M. Ceunen, H. De Roo, A. De Wit, S. Echahidi, F. Fransen, K. Goffard, J.-C. Goubau, P. Goudeseune, E. Yombi, J.-C. Lacor, P. Liesnard, C. Moutschen, M. Pierard, D. Rens, R. Schrooten, Y. Vaira, D. Vandekerckhove, L.P.R. Van Den Heuvel, A. Van Der Gucht, B. Van Ranst, M. Van Wijngaerden, E. Vandercam, B. Vekemans, M. Verhofstede, C. Clumeck, N. Begovac, J. Demetriades, I. Kousiappa, I. Demetriou, V. Hezka, J. Maly, M. Machala, L. Jørgensen, L.B. Gerstoft, J. Mathiesen, L. Pedersen, C. Nielsen, H. Laursen, A. Kvinesdal, B. Ristola, M. Suni, J. Sutinen, J. Assoumou, L. Castor, G. Grude, M. Flandre, P. Storto, A. Kücherer, C. Berg, T. Braun, P. Poggensee, G. Däumer, M. Eberle, J. Heiken, H. Kaiser, R. Knechten, H. Korn, K. Müller, H. Neifer, S. Schmidt, B. Walter, H. Gunsenheimer-Bartmeyer, B. Harrer, T. Hatzakis, A. Zavitsanou, A. Vassilakis, A. Lazanas, M. Chini, M. Lioni, A. Sakka, V. Kourkounti, S. Paparizos, V. Antoniadou, A. Papadopoulos, A. Poulakou, G. Katsarolis, I. Protopapas, K. Chryssos, G. Drimis, S. Gargalianos, P. Xylomenos, G. Lourida, G. Psichogiou, M. Daikos, G.L. Sipsas, N.V. Kontos, A. Gamaletsou, M.N. Koratzanis, G. Sambatakou, E. Mariolis, H. Skoutelis, A. Papastamopoulos, V. Georgiou, O. Panagopoulos, P. Maltezos, E. De Gascun, C. Byrne, C. Duffy, M. Bergin, C. Reidy, D. Farrell, G. Lambert, J. O'Connor, E. Rochford, A. Low, J. Coakely, P. O'Dea, S. Hall, W. Levi, I. Chemtob, D. Grossman, Z. De Luca, A. Balotta, C. Riva, C. Mussini, C. Caramma, I. Capetti, A. Colombo, M.C. Rossi, C. Prati, F. Tramuto, F. Vitale, F. Ciccozzi, M. Angarano, G. Rezza, G. Vasins, O. Lipnickiene, V. Hemmer, R. Arendt, V. Michaux, C. Staub, T. Sequin-Devaux, C. Van Kessel, A. Van Bentum, P.H.M. Brinkman, K. Connell, B.J. Van Der Ende, M.E. Hoepelman, I.M. Kuipers, M. Langebeek, N. Richter, C. Santegoets, R.M.W.J. Schrijnders-Gudde, L. Schuurman, R. Van De Ven, B.J.M. Kran, A.-M.B. Ormaasen, V. Aavitsland, P. Stanczak, J.J. Stanczak, G.P. Firlag-Burkacka, E. Wiercinska-Drapalo, A. Jablonowska, E. Maolepsza, E. Leszczyszyn-Pynka, M. Szata, W. Camacho, R. Palma, C. Borges, F. Paixão, T. Duque, V. Araújo, F. Paraschiv, S. Tudor, A.M. Cernat, R. Chiriac, C. Dumitrescu, F. Prisecariu, L.J. Jevtovic, Dj. Salemovic, D. Stanekova, D. Habekova, M. Chabadová, Z. Drobkova, T. Bukovinova, P. Shunnar, A. Truska, P. Lunar, M. Babic, D. Tomazic, J. Vidmar, L. Vovko, T. Karner, P. Monge, S. Moreno, S. Del Amo, J. Asensi, V. Sirvent, J.L. De Mendoza, C. Delgado, R. Gutiérrez, F. Berenguer, J. Garcia-Bujalance, S. Stella, N. De Los Santos, I. Blanco, J.R. Dalmau, D. Rivero, M. Segura, F. Elías, M.J.P. Alvarez, M. Chueca, N. Rodríguez-Martín, C. Vidal, C. Palomares, J.C. Viciana, I. Viciana, P. Cordoba, J. Aguilera, A. Domingo, P. Galindo, M.J. Miralles, C. Del Pozo, M.A. Ribera, E. Iribarren, J.A. Ruiz, L. De La Torre, J. Vidal, F. Clotet, B. Heidarian, A. Aperia-Peipke, K. Axelsson, M. Mild, M. Karlsson, A. Thalme, A. Navér, L. Bratt, G. Blaxhult, A. Gisslén, M. Svennerholm, B. Björkman, P. Säll, C. Mellgren, Å. Lindholm, A. Kuylenstierna, N. Montelius, R. Azimi, F. Johansson, B. Carlsson, M. Johansson, E. Ljungberg, B. Ekvall, H. Strand, A. Mäkitalo, S. Öberg, S. Holmblad, P. Höfer, M. Holmberg, H. Josefson, P. Ryding, U. Bergbrant, I. SPREAD Program

Abstract

Background. Numerous studies have shown that baseline drug resistance patterns may influence the outcome of antiretroviral therapy. Therefore, guidelines recommend drug resistance testing to guide the choice of initial regimen. In addition to optimizing individual patient management, these baseline resistance data enable transmitted drug resistance (TDR) to be surveyed for public health purposes. The SPREAD program systematically collects data to gain insight into TDR occurring in Europe since 2001. Methods. Demographic, clinical, and virological data from 4140 antiretroviral-naive human immunodeficiency virus (HIV)-infected individuals from 26 countries who were newly diagnosed between 2008 and 2010 were analyzed. Evidence of TDR was defined using the WHO list for surveillance of drug resistance mutations. Prevalence of TDR was assessed over time by comparing the results to SPREAD data from 2002 to 2007. Baseline susceptibility to antiretroviral drugs was predicted using the Stanford HIVdb program version 7.0. Results. The overall prevalence of TDR did not change significantly over time and was 8.3% (95% confidence interval, 7.2%-9.5%) in 2008-2010. The most frequent indicators of TDR were nucleoside reverse transcriptase inhibitor (NRTI) mutations (4.5%), followed by nonnucleoside reverse transcriptase inhibitor (NNRTI) mutations (2.9%) and protease inhibitor mutations (2.0%). Baseline mutations were most predictive of reduced susceptibility to initial NNRTI-based regimens: 4.5% and 6.5% of patient isolates were predicted to have resistance to regimens containing efavirenz or rilpivirine, respectively, independent of current NRTI backbones. Conclusions. Although TDR was highest for NRTIs, the impact of baseline drug resistance patterns on susceptibility was largest for NNRTIs. The prevalence of TDR assessed by epidemiological surveys does not clearly indicate to what degree susceptibility to different drug classes is affected. © The Author 2015.

Published
2016

29. The global spread of HIV-1 subtype B epidemic

Author

Magiorkinis, G. Angelis, K. Mamais, I. Katzourakis, A. Hatzakis, A. Albert, J. Lawyer, G. Hamouda, O. Struck, D. Vercauteren, J. Wensing, A. Alexiev, I. Åsjö, B. Balotta, C. Gomes, P. Camacho, R.J. Coughlan, S. Griskevicius, A. Grossman, Z. Horban, A. Kostrikis, L.G. Lepej, S.J. Liitsola, K. Linka, M. Nielsen, C. Otelea, D. Paredes, R. Poljak, M. Puchhammer-Stöckl, E. Schmit, J.C. Sönnerborg, A. Staneková, D. Stanojevic, M. Stylianou, D.C. Boucher, C.A.B. Nikolopoulos, G. Vasylyeva, T. Friedman, S.R. van de Vijver, D. Angarano, G. Chaix, M.-L. de Luca, A. Korn, K. Loveday, C. Soriano, V. Yerly, S. Zazzi, M. Vandamme, A.-M. Paraskevis, D.

Abstract

Human immunodeficiency virus type 1 (HIV-1) was discovered in the early 1980s when the virus had already established a pandemic. For at least three decades the epidemic in the Western World has been dominated by subtype B infections, as part of a sub-epidemic that traveled from Africa through Haiti to United States. However, the pattern of the subsequent spread still remains poorly understood. Here we analyze a large dataset of globally representative HIV-1 subtype B strains to map their spread around the world over the last 50 years and describe significant spread patterns. We show that subtype B travelled from North America to Western Europe in different occasions, while Central/Eastern Europe remained isolated for the most part of the early epidemic. Looking with more detail in European countries we see that the United Kingdom, France and Switzerland exchanged viral isolates with non-European countries than with European ones. The observed pattern is likely to mirror geopolitical landmarks in the post-World War II era, namely the rise and the fall of the Iron Curtain and the European colonialism. In conclusion, HIV-1 spread through specific migration routes which are consistent with geopolitical factors that affected human activities during the last 50 years, such as migration, tourism and trade. Our findings support the argument that epidemic control policies should be global and incorporate political and socioeconomic factors. © 2016 The Authors

Published
2016

30. Transmission of HIV Drug Resistance and the Predicted Effect on Current First-line Regimens in Europe

Author

Moutschen, M., Hofstra, Laura Marije Arije, Sauvageot, Nicolas, Albert, Jan, Alexiev, Ivailo, Garcia, Federico, Struck, Daniel, Van, de Vijver, Åsjö, Birgitta, Beshkov, Danail, Coughlan, Suzie, Descamps, Diane, Griskevicius, Algirdas, Hamouda, Osamah, Horban, Andrzej, Van Kasteren, Marjo, Kolupajeva, Tatjana, Kostrikis, Leontios G., Liitsola, Kirsi, Linka, Marek, Mor, Orna, Nielsen, Claus, Otelea, Dan, Paraskevis, Dimitrios N., Paredes, Roger, Poljak, Mario, Puchhammer-Stöckl, Elisabeth, Sönnerborg, Anders, Staneková, Danica, Stanojevic, Maja, Van Laethem, Kristel, Zazzi, Maurizio, Zidovec Lepej, Snjezana, Boucher, Charles A. B., Schmit, Jean-Claude, Wensing, Annemarie M. J., Puchhammer-Stockl, E., Sarcletti, M., Schmied, B., Geit, M., Balluch, G., Vandamme, A. M., Vercauteren, J., Derdelinckx, I., Sasse, A., Bogaert, M., Ceunen, H., De Roo, A., De Wit, S., Echahidi, F., Fransen, K., Goffard, J. -C, Goubau, P., Goudeseune, E., Yombi, J. -C, Lacor, P., Liesnard, C., Pierard, D., Rens, R., Schrooten, Y., Vaira, D., Vandekerckhove, L. P. R., Van, den Heuvel, Van, Der Gucht, Van Ranst, M., Van Wijngaerden, E., Vandercam, B., Vekemans, M., Verhofstede, C., Clumeck, N., Van Laethem, K., Lepej, S. Z., Begovac, J., Demetriades, Ioannis, Kousiappa, Ioanna, Demetriou, Victoria L., Hezka, Johana, Linka, M., Maly, M., Machala, L., Nielsen, C., Jørgensen, L. B., Gerstoft, J., Mathiesen, L., Pedersen, C., Nielsen, H., Laursen, A., Kvinesdal, B., Liitsola, K., Ristola, M., Suni, J., Sutinen, J., Descamps, D., Assoumou, L., Castor, G., Grude, M., Flandre, P., Storto, A., Hamouda, O., Kücherer, C., Berg, T., Braun, P., Poggensee, G., Däumer, M., Eberle, J., Heiken, H., Kaiser, R., Knechten, H., Korn, K., Müller, H., Neifer, S., Schmidt, B., Walter, H., Gunsenheimer-Bartmeyer, B., Harrer, T., Hatzakis, Angelos E., Zavitsanou, Assimina, Vassilakis, A., Lazanas, Marios C., Chini, Maria C., Lioni, A., Sakka, V., Kourkounti, Sofia, Paparizos, Vassilios A., Antoniadou, Anastasia C., Papadopoulos, Antonios I., Poulakou, Garyphallia G., Katsarolis, I., Protopapas, K., Chryssos, Georgios, Drimis, Stylianos, Gargalianos, Panagiotis, Xylomenos, Georgios, Lourida, G., Psichogiou, Mina A., Daikos, George L., Sipsas, N. V., Kontos, Athanasios N., Gamaletsou, M. N., Koratzanis, Georgios, Sambatakou, H., Mariolis, H., Skoutelis, A., Papastamopoulos, V., Georgiou, O., Panagopoulos, Periklis, Maltezos, E., Coughlan, S., De Gascun, C., Byrne, C., Duffy, M., Bergin, C., Reidy, D., Farrell, G., Lambert, J., O'Connor, E., Rochford, A., Low, J., Coakely, P., O'Dea, S., Hall, W., Mor, O., Levi, I., Chemtob, D., Grossman, Z., Zazzi, M., de Luca, A., Balotta, Claudia, Riva, C., Mussini, C., Caramma, I., Capetti, A., Colombo, M. C., Rossi, C., Prati, F., Tramuto, F., Vitale, F., Ciccozzi, M., Angarano, G., Rezza, G., Kolupajeva, T., Vasins, O., Griskevicius, A., Lipnickiene, V., Schmit, J. C., Struck, D., Hemmer, R., Arendt, V., Michaux, C., Staub, T., Sequin-Devaux, C., Wensing, A. M. J., Boucher, C. A. B., van, de Vijver, van Kessel, A., van Bentum, P. H. M., Brinkman, K., Connell, B. J., van, der Ende, Hoepelman, I. M., van Kasteren, M., Kuipers, M., Langebeek, N., Richter, C., Santegoets, R. M. W. J., Schrijnders-Gudde, L., Schuurman, R., van, de Ven, Kran, A. -M B., Ormaasen, V., Aavitsland, P., Horban, A., Stanczak, J. J., Stanczak, G. P., Firlag-Burkacka, E., Wiercinska-Drapalo, A., Jablonowska, E., Maolepsza, E., Leszczyszyn-Pynka, M., Szata, W., Camacho, Ricardo J., Palma, C., Borges, F., Paixão, T., Duque, V., Araújo, F., Otelea, D., Paraschiv, S., Tudor, A. M., Cernat, R., Chiriac, C., Dumitrescu, F., Prisecariu, L. J., Stanojevic, M., Jevtovic, Dj, Salemovic, D., Stanekova, D., Habekova, M., Chabadová, Z., Drobkova, T., Bukovinova, P., Shunnar, A., Truska, P., Poljak, M., Lunar, M., Babic, Dunja Z., Tomazic, J., Vidmar, L., Vovko, T., Karner, P., Garcia, F., Paredes, R., Monge, S., Moreno, S., del Amo, J., Asensi, V., Sirvent, J. L., de Mendoza, C., Delgado, R., Gutiérrez, F., Berenguer, J., Garcia-Bujalance, S., Stella, Natalia C., de, los Santos, Blanco, J. R., Dalmau, D., Rivero, M., Segura, F., Elıás, Marıá Jesús Pérez, Alvarez, M., Chueca, N., Rodríguez-Martín, C., Vidal, C., Palomares, J. C., Viciana, I., Viciana, P., Cordoba, J., Aguilera, A., Domingo, P., Galindo, M. J., Miralles, C., del Pozo, M. A., Ribera, E., Iribarren, J. A., Ruiz, L., de, la Torre, Vidal, F., Clotet, B., Heidarian, A., Aperia-Peipke, K., Axelsson, M., Mild, M., Karlsson, A., Sönnerborg, A., Thalme, A., Navér, L., Bratt, G., Blaxhult, A., Gisslén, M., Svennerholm, B., Bergbrant, I., Björkman, Per, Säll, C., Mellgren, Å., Lindholm, A., Kuylenstierna, N., Montelius, R., Azimi, F., Johansson, B., Carlsson, M., Johansson, E., Ljungberg, B., Ekvall, H., Strand, A., Mäkitalo, S., Öberg, S., Holmblad, P., Höfer, M., Holmberg, H., Josefson, P., Ryding, U., Van Kessel, A., Clinical sciences, Microbiology and Infection Control, Supporting clinical sciences, Clinicum, Department of Medicine, Virology, Cohorte de Adultos de la Red de Investigación en SIDA, Spain., SPREAD Program, [Hofstra,LM, Sauvageot,N, Struck,D, Schmit,JC ] Luxembourg Institute of Health, Luxembourg. [Hofstra,LM, Wensing,AMJ] Department of Virology, University Medical Center Utrecht, The Netherlands. [Albert,J, Sönnerborg,A] Karolinska Institute, Solna. Karolinska University Hospital, Stockholm, Sweden. [Alexiev,I, Beshkov,D] National Center of Infectious and Parasitic Diseases, Sofia, Bulgaria. [Garcia,F] Complejo Hospitalario Universitario de Granada. Instituto de Investigación IBS Granada, Spain. [Van de Vijver,DAMC, Boucher,CAB] Erasmus MC, University Medical Center, Rotterdam, The Netherlands. [Åsjö,B] University of Bergen, Norway. [Coughlan,S] University College Dublin, Ireland. [Descamps,D] AP-HP Groupe hospitalier Bichat-Claude Bernard. IAME INSERM UMR 1137. Université Paris Diderot Sorbonne Paris Cité, Paris, France. [Griskevicius,A] Lithuanian AIDS Center, Vilnius, Lithuania. [Hamouda,O] Robert Koch Institute, Berlin, Germany. [Horban,A] Hospital of Infectious Diseases, Warsaw, Poland. [Van Kasteren,M] St Elisabeth Hospital, Tilburg, The Netherlands. [Kolupajeva,T] Infectiology Center of Latvia, Riga. [Kostrikis,LG] University of Cyprus, Nicosia. [Liitsola,K] Department of Infectious Diseases, National Institute for Health and Welfare, Helsinki, Finland. [Linka,M] National Reference Laboratory for HIV/AIDS, National Institute of Public Health, Prague, Czech Republic. [Mor,O] National HIV Reference Laboratory, Chaim Sheba Medical Center, Tel-Hashomer, Israel. [Nielsen,C] Statens Serum Institut, Copenhagen, Denmark. [Otelea,D] National Institute for Infectious Diseases 'Prof. dr. Matei Bals', Bucharest, Romania. [Paraskevis,D] National Retrovirus Reference Center, University of Athens, Greece. [Paredes,R] IrsiCaixa Foundation, Badalona, Spain. [Poljak,M] Faculty of Medicine, Slovenian HIV/AIDS Reference Centre, University of Ljubljana, Slovenia. [Puchhammer-Stöckl,E] Medical University Vienna, Austria. [Staneková,D] Slovak Medical University, Bratislava, Slovakia. [Stanojevic,M] Faculty of Medicine, University of Belgrade, Serbia. [Van Laethem,K] Rega Institute for Medical Research, KU Leuven, Belgium. [Zazzi,M] University of Siena, Italy. [Zidovec Lepej,S] University Hospital for Infectious Diseases 'Dr. Fran Mihaljevic', Zagreb, Croatia., This work was supported by a CORE grant of Fond National de la Recherche Luxembourg (grant number C12/BM/4011111–HIV molecular epidemiology in Europe). This work has been partially supported by the European Commission (fifth framework, grant number QLK2-CT-2001-01344, sixth framework, grant number LSHP-CT-2006-518211, DynaNets grant number 233847, seventh framework, CHAIN grant number 223131), Belgium: Belgian AIDS Reference Laboratory Fund, Belgian Fonds voor Wetenschappelijk Onderzoek (grant number G.0692.14), Cyprus: Cyprus Research Promotion Foundation (grant number Health/0104/22), Denmark: Danish AIDS Foundation, France: Agence Nationale de Recherches sur le SIDA et les Hepatites Virales, Germany: Ministry of Health (grant number 1502-686-18), Ministry of Education and Research (grant number 01KI501), Italy: Fifth National Program on HIV/AIDS, Instituto Superiore di Sanità (grant numbers 40F.56 and 20D.1.6), Luxembourg: Fondation Recherche sur le SiDA and Ministry of Health, Republic of Serbia: Ministry of Education and Science (grant number 175024), Slovakia: project 'Center of Excellence of Environmental Health,' ITMS number 26240120033, based on supporting operational research and development program financed from the European Regional Development Fund, and Sweden: Swedish Research Council and Swedish Civil Contingencies Agency., APH - Health Behaviors & Chronic Diseases, Graduate School, Hofstra, LM, Sauvageot, N, Albert, J, Alexiev, I, Garcia, F, Struck, D, Van de Vijver, DA, Åsjö, B, Beshkov, D, Coughlan, S, Descamps, D, Griskevicius, A, Hamouda, O, Horban, A, Van Kasteren, M, Kolupajeva, T, Kostrikis, LG, Liitsola, K, Linka, M, Mor, O, Nielsen, C, Otelea, D, Paraskevis, D, Paredes, R, Poljak, M, Puchhammer-Stöckl, E, Sönnerborg, A, Staneková, D, Stanojevic, M, Van Laethem, K, Zazzi, M, Lepej, SZ, Boucher, CA, Schmit, JC, Wensing, AM, SPREAD program investigators, including Vitale F and Tramuto, F, Vandamme, Annemie, Vercauteren, Jurgen, Schrooten, Yoeri, Van Ranst, Marc, Van Wijngaerden, Eric, Derdelinckx, Inge, Camacho, Ricardo Jorge, Kostrikis, Leontios G. [0000-0002-5340-7109], and Paraskevis, Dimitrios [0000-0001-6167-7152]

Subjects
Male, Human immunodeficiency virus 1, Etravirine, RNA directed DNA polymerase inhibitor, darunavir, HIV Infections, Settore MED/42 - Igiene Generale E Applicata, Disciplines and Occupations::Health Occupations::Medicine::Public Health [Medical Subject Headings], Organisms::Eukaryota::Animals::Chordata::Vertebrates::Mammals::Primates::Haplorhini::Catarrhini::Hominidae::Humans [Medical Subject Headings], Salud pública, genetics, Inhibidores de proteasas, Analytical, Diagnostic and Therapeutic Techniques and Equipment::Investigative Techniques::Epidemiologic Methods::Data Collection::Vital Statistics::Morbidity::Prevalence [Medical Subject Headings], atazanavir, media_common, transmission, Geographicals::Geographic Locations::Europe [Medical Subject Headings], 3. Good health, microbial sensitivity test, priority journal, Europe, HIV-1, antiretroviral therapy, drug resistance, HIV/AIDS, lamivudine, Reverse Transcriptase Inhibitors/pharmacology, anti human immunodeficiency virus agent, Drug, Microbiology (medical), medicine.medical_specialty, antiviral susceptibility, Phenomena and Processes::Genetic Phenomena::Genetic Variation::Mutation [Medical Subject Headings], media_common.quotation_subject, 030106 microbiology, HIV Infections/drug therapy, Chemicals and Drugs::Chemical Actions and Uses::Pharmacologic Actions::Therapeutic Uses::Anti-Infective Agents::Antiviral Agents::Anti-Retroviral Agents::Reverse Transcriptase Inhibitors [Medical Subject Headings], Microbial Sensitivity Tests, RILPIVIRINE, Article, EFAVIRENZ, 03 medical and health sciences, transmitted drug resistance, SDG 3 - Good Health and Well-being, Humans, Transmission, human, Phenomena and Processes::Physiological Phenomena::Pharmacological Phenomena::Drug Resistance [Medical Subject Headings], REVERSE-TRANSCRIPTASE INHIBITORS, Rilpivirina, INTEGRASE, MUTATIONS, abacavir, major clinical study, Virology, Infecciones por VIH, Regimen, Antiretroviral therapy, Drug resistance, Medicine (all), Infectious Diseases, chemistry, Chemicals and Drugs::Heterocyclic Compounds::Heterocyclic Compounds, 1-Ring::Oxazines::Benzoxazines [Medical Subject Headings], Mutation, 0301 basic medicine, nevirapine, Communicable diseases, Analytical, Diagnostic and Therapeutic Techniques and Equipment::Investigative Techniques::Epidemiologic Methods::Statistics as Topic::Confidence Intervals [Medical Subject Headings], chemistry.chemical_compound, antiviral therapy, INFECTION, Medicine and Health Sciences, Prevalence, Analytical, Diagnostic and Therapeutic Techniques and Equipment::Investigative Techniques::Epidemiologic Methods::Data Collection::Surveys and Questionnaires [Medical Subject Headings], Viral, Non-U.S. Gov't, Reverse-transcriptase inhibitor, antiretrovirus agent, Research Support, Non-U.S. Gov't, Human immunodeficiency virus infected patient, Middle Aged, virology, PREVALENCE, Encuestas y Cuestionarios, ANTIRETROVIRAL TREATMENT, HIV-1/drug effects, HIV Protease Inhibitors/pharmacology, Rilpivirine, Reverse Transcriptase Inhibitors, Diseases::Immune System Diseases::Immunologic Deficiency Syndromes::HIV Infections [Medical Subject Headings], Female, HIV drug resistance, medicine.drug, Adult, Human immunodeficiency virus proteinase inhibitor, Chemicals and Drugs::Organic Chemicals::Nitriles::Rilpivirine [Medical Subject Headings], Efavirenz, Anti-HIV Agents, Research Support, Resistencia a medicamentos, Settore MED/17 - MALATTIE INFETTIVE, antiviral resistance, Internal medicine, Anti-HIV Agents/pharmacology, Drug Resistance, Viral, Journal Article, medicine, Chemicals and Drugs::Chemical Actions and Uses::Pharmacologic Actions::Molecular Mechanisms of Pharmacological Action::Enzyme Inhibitors::Protease Inhibitors [Medical Subject Headings], abacavir plus lamivudine, Europa (Continente), HIV Protease Inhibitors, emtricitabine, nonhuman, Intervalos de confianza, Mutación, business.industry, HIV, prediction, Inhibidores de la transcriptasa inversa, Human immunodeficiency virus 1 infection, tenofovir, INDIVIDUALS, Drug Resistance, Viral/genetics, Benzoxazinas, ETRAVIRINE, drug effects, 3121 General medicine, internal medicine and other clinical medicine, Prevalencia, business
Abstract

Transmitted human immunodeficiency virus drug resistance in Europe is stable at around 8%. The impact of baseline mutation patterns on susceptibility to antiretroviral drugs should be addressed using clinical guidelines. The impact on baseline susceptibility is largest for nonnucleoside reverse transcriptase inhibitors., Background. Numerous studies have shown that baseline drug resistance patterns may influence the outcome of antiretroviral therapy. Therefore, guidelines recommend drug resistance testing to guide the choice of initial regimen. In addition to optimizing individual patient management, these baseline resistance data enable transmitted drug resistance (TDR) to be surveyed for public health purposes. The SPREAD program systematically collects data to gain insight into TDR occurring in Europe since 2001. Methods. Demographic, clinical, and virological data from 4140 antiretroviral-naive human immunodeficiency virus (HIV)–infected individuals from 26 countries who were newly diagnosed between 2008 and 2010 were analyzed. Evidence of TDR was defined using the WHO list for surveillance of drug resistance mutations. Prevalence of TDR was assessed over time by comparing the results to SPREAD data from 2002 to 2007. Baseline susceptibility to antiretroviral drugs was predicted using the Stanford HIVdb program version 7.0. Results. The overall prevalence of TDR did not change significantly over time and was 8.3% (95% confidence interval, 7.2%–9.5%) in 2008–2010. The most frequent indicators of TDR were nucleoside reverse transcriptase inhibitor (NRTI) mutations (4.5%), followed by nonnucleoside reverse transcriptase inhibitor (NNRTI) mutations (2.9%) and protease inhibitor mutations (2.0%). Baseline mutations were most predictive of reduced susceptibility to initial NNRTI-based regimens: 4.5% and 6.5% of patient isolates were predicted to have resistance to regimens containing efavirenz or rilpivirine, respectively, independent of current NRTI backbones. Conclusions. Although TDR was highest for NRTIs, the impact of baseline drug resistance patterns on susceptibility was largest for NNRTIs. The prevalence of TDR assessed by epidemiological surveys does not clearly indicate to what degree susceptibility to different drug classes is affected.

Published
2016

31. Limited cross-border infections in patients newly diagnosed with HIV in Europe

Author

Universitat Rovira i Virgili, Frentz D; Wensing AMJ; Albert J; Paraskevis D; Abecasis AB; Hamouda O; Jørgensen LB; Kücherer C; Struck D; Schmit JC; Åsjö B; Balotta C; Beshkov D; Camacho RJ; Clotet B; Coughlan S; De Wit S; Griskevicius A; Grossman Z; Horban A; Kolupajeva T; Korn K; Kostrikis LG; Liitsola K; Linka M; Nielsen C; Otelea D; Paredes R; Poljak M; Puchhammer-Stöckl E; Sönnerborg A; Stanekova D; Stanojevic M; Vandamme AM; Boucher CAB; Van de Vijver DAMC; Balluch G; Vercauteren J; Derdelinckx I; Sasse A; Frentz D; Wensing AMJ; Albert J; Paraskevis D; Abecasis AB; Hamouda O; Jørgensen LB; Kücherer C; Struck D; Schmit JC; Åsjö B; Balotta C; Beshkov D; Camacho RJ; Clotet B; Coughlan S; De Wit S; Griskevicius A; Grossman Z; Horban A; Kolupajeva T; Korn K; Kostrikis LG; Liitsola K; Linka M; Nielsen C; Otelea D; Paredes R; Poljak M; Puchhammer-Stöckl E; Sönnerborg A; Stanekova D; Stanojevic M; Vandamme AM; Boucher CAB; Van de Vijver DAMC; Balluch G; Vercauteren J; Derdelinckx I; Sasse A; Frentz D; Wensing AMJ; Albert J; Paraskevis D; Abecasis AB; Hamouda O; Jørgensen LB; Kücherer C; Struck D; Schmit JC; Åsjö B; Balotta C; Beshkov D; Camacho RJ, Universitat Rovira i Virgili, and Frentz D; Wensing AMJ; Albert J; Paraskevis D; Abecasis AB; Hamouda O; Jørgensen LB; Kücherer C; Struck D; Schmit JC; Åsjö B; Balotta C; Beshkov D; Camacho RJ; Clotet B; Coughlan S; De Wit S; Griskevicius A; Grossman Z; Horban A; Kolupajeva T; Korn K; Kostrikis LG; Liitsola K; Linka M; Nielsen C; Otelea D; Paredes R; Poljak M; Puchhammer-Stöckl E; Sönnerborg A; Stanekova D; Stanojevic M; Vandamme AM; Boucher CAB; Van de Vijver DAMC; Balluch G; Vercauteren J; Derdelinckx I; Sasse A; Frentz D; Wensing AMJ; Albert J; Paraskevis D; Abecasis AB; Hamouda O; Jørgensen LB; Kücherer C; Struck D; Schmit JC; Åsjö B; Balotta C; Beshkov D; Camacho RJ; Clotet B; Coughlan S; De Wit S; Griskevicius A; Grossman Z; Horban A; Kolupajeva T; Korn K; Kostrikis LG; Liitsola K; Linka M; Nielsen C; Otelea D; Paredes R; Poljak M; Puchhammer-Stöckl E; Sönnerborg A; Stanekova D; Stanojevic M; Vandamme AM; Boucher CAB; Van de Vijver DAMC; Balluch G; Vercauteren J; Derdelinckx I; Sasse A; Frentz D; Wensing AMJ; Albert J; Paraskevis D; Abecasis AB; Hamouda O; Jørgensen LB; Kücherer C; Struck D; Schmit JC; Åsjö B; Balotta C; Beshkov D; Camacho RJ

Abstract

Background: International travel plays a role in the spread of HIV-1 across Europe. It is, however, not known whether international travel is more important for spread of the epidemic as compared to endogenous infections within single countries. In this study, phylogenetic associations among HIV of newly diagnosed patients were determined across Europe.Results: Data came from the SPREAD programme which collects samples of newly diagnosed patients that are representative for national HIV epidemics. 4260 pol sequences from 25 European countries and Israel collected in 2002-2007 were included.We identified 457 clusters including 1330 persons (31.2% of all patients). The cluster size ranged between 2 and 28. A number of 987 patients (74.2%) were part of a cluster that consisted only of patients originating from the same country. In addition, 135 patients (10.2%) were in a cluster including only individuals from neighboring countries. Finally, 208 patients (15.6%) clustered with individuals from countries without a common border. Clustering with patients from the same country was less prevalent in patients being infected with B subtype (P-value <0.0001), in men who have sex with men (P-value <0.0001), and in recently infected patients (P-value =0.045).Conclusions: Our findings indicate that the transmission of HIV-1 in Europe is predominantly occurring between patients from the same country. This could have implications for HIV-1 transmission prevention programmes. Because infections through travelling between countries is not frequently observed it is important to have good surveillance of the national HIV-1 epidemics.

Published
2013

32. Study on the Impact of CMV-Encephalopathy on the Survival of Brain Cancer Patients Undergoing Radio(Chemo)therapy of the Brain

Author

Goerig, N.L., primary, Frey, B., additional, Korn, K., additional, Fleckenstein, B., additional, Ueberla, K., additional, Schmidt, M.A., additional, Engelhorn, T., additional, Doerfler, A., additional, Eyuepoglu, I., additional, Merkel, A., additional, Ruehle, P.F., additional, Putz, F., additional, Semrau, S., additional, Gaipl, U.S., additional, and Fietkau, R., additional

Published
2017
Full Text
View/download PDF

34. Limited cross-border infections in patients newly diagnosed with HIV in Europe

Author

Moutschen, M., Frentz, D., Wensing, A. M. J., Albert, Jan, Paraskevis, Dimitrios N., Abecasis, A. B., Hamouda, O., Jørgensen, L. B., Kücherer, C., Struck, D., Schmit, J. -C, Åsjö, Birgitta, Balotta, Claudia, Beshkov, Danail, Camacho, Ricardo J., Clotet, B., Coughlan, S., De Wit, S., Griskevicius, A., Grossman, Z., Horban, A., Kolupajeva, T., Korn, K., Kostrikis, Leontios G., Liitsola, K., Linka, M., Nielsen, C., Otelea, D., Paredes, R., Poljak, M., Puchhammer-Stöckl, E., Sönnerborg, A., Stanekova, D., Stanojevic, M., Vandamme, A. -M, Boucher, C. A. B., Van de Vijver, D. A. M. C., Balluch, G., Vercauteren, J., Derdelinckx, I., Sasse, A., Bogaert, M., Ceunen, H., De Roo, A., Echahidi, F., Fransen, K., Goffard, J. -C, Goubau, P., Goudeseune, E., Yombi, J. -C, Lacor, P., Liesnard, C., Pierard, D., Rens, R., Schrooten, Y., Vaira, D., Vandekerckhove, L. P. R., Van den Heuvel, A., Van Der Gucht, B., Van Ranst, M., Van Wijngaerden, E., Vandercam, B., Vekemans, M., Verhofstede, C., Clumeck, N., Van Laethem, K., Demetriades, Ioannis, Kousiappa, Ioanna, Demetriou, Victoria L., Hezka, Johana, Bruckova, M., Machala, L., Gerstoft, J., Mathiesen, L., Pedersen, C., Nielsen, H., Laursen, A., Kvinesdal, B., Salminen, M., Ristola, M., Suni, J., Sutinen, J., Berg, T., Braun, P., Poggensee, G., Däumer, M., Eberle, J., Heiken, H., Kaiser, R., Knechten, H., Müller, H., Neifer, S., Schmidt, B., Walter, H., Gunsenheimer-Bartmeyer, B., Harrer, T., Hatzakis, Angelos E., Magiorkinis, Emmanouil N., Hatzitheodorou, Eleni, Haida, Catherine, Zavitsanou, Assimina, Magiorkinis, Gkikas, Lazanas, Marios C., Chini, Maria C., Magafas, N., Tsogas, Nickolaos, Paparizos, Vassilios A., Kourkounti, Sofia, Antoniadou, Anastasia C., Papadopoulos, Antonios I., Panagopoulos, Periklis, Poulakou, Garyphallia G., Sakka, V., Chryssos, Georgios, Drimis, Stylianos, Gargalianos, Panagiotis, Lelekis, Moyssis I., Chilomenos, G., Psichogiou, Mina A., Daikos, George L., Panos, George, Haratsis, G., Kordossis, Theodore, Kontos, Athanasios N., Koratzanis, Georgios, Theodoridou, Maria C., Mostrou, Glykeria J., Spoulou, Vana I., De Gascun, C., Byrne, C., Duffy, M., Bergin, C., Reidy, D., Farrell, G., Lambert, J., O'Connor, E., Rochford, A., Low, J., Coakely, P., O'Dea, S., Hall, W., Levi, I., Chemtob, D., Franzetti, M., Lai, A., Binda, F., Tramuto, F., Ciccozzi, M., Mussini, C., Angarano, G., Rezza, G., Schmit, J. C., Hemmer, R., Arendt, V., Staub, T., Schneider, F., Roman, F., van Kessel, A., van Bentum, P. H. M., Brinkman, K., de Coul, E. L., van der Ende, M. E., Hoepelman, I. M., van Kasteren, M., Juttmann, J., Kuipers, M., Langebeek, N., Richter, C., Santegoets, R. M. W. J., Schrijnders-Gudde, L., Schuurman, R., van de Ven, B. J. M., Ormaasen, V., Aavitsland, P., Stanczak, J. J., Stanczak, G. P., Firlag-Burkacka, E., Wiercinska-Drapalo, A., Jablonowska, E., Malolepsza, E., Leszczyszyn-Pynka, M., Szata, W., Palma, C., Borges, F., Paixão, T., Duque, V., Araújo, F., Jevtovic, D., Salemovic, D., Habekova, M., Mokráš, Miloš, Truska, P., Lunar, M., Babic, Dunja Z., Tomazic, J., Vidmar, L., Vovko, T., Karner, P., Domingo, P., Galindo, M. J., Miralles, C., del Pozo, M. A., Ribera, E., Iribarren, J. A., Ruiz, L., de la Torre, J., Vidal, F., Garcia, F., Heidarian, A., Aperia-Peipke, K., Axelsson, M., Mild, M., Karlsson, A., Thalme, A., Navér, L., Bratt, G., Blaxhult, A., Gisslén, M., Svennerholm, B., Bergbrant, I., Björkman, Per, Säll, C., Mellgren, Å., Lindholm, A., Kuylenstierna, N., Montelius, R., Azimi, F., Johansson, B., Carlsson, M., Johansson, E., Ljungberg, B., Ekvall, H., Strand, A., Mäkitalo, S., öberg, S., Holmblad, P., Höfer, M., Holmberg, H., Josefson, P., Ryding, U., Van Kessel, A., Instituto de Higiene e Medicina Tropical (IHMT), Centro de Malária e outras Doenças Tropicais (CMDT), Clinicum, Department of Medicine, Infektiosairauksien yksikkö, Frentz, D, Wensing, AMJ, Albert, J, Paraskevis, D, Abecasis, AB, Hamouda, O, Jørgensen, LB, Kücherer, C, Struck, D, Schmit, JC, Åsjö, B, Balotta, C, Beshkov, D, Camacho, RJ, Clotet, B, Coughlan, S, De Wit, S, Griskevicius, A, Grossman, Z, Horban, A, Kolupajeva, T, Korn, K, Kostrikis, LG, Liitsola, K, Linka, M, Nielsen, C, Otelea, D, Paredes, R, Poljak, M, Puchhammer-Stöckl, E, Sönnerborg, A, Stanekova, D, Stanojevic, M, Vandamme, AM, Boucher, CAB, Van de Vijver, DAMC, Tramuto, F, Van Wijngaerden, Eric, Van Ranst, Marc, Van Laethem, Kristel, Derdelinckx, Inge, Kostrikis, Leontios G. [0000-0002-5340-7109], Paraskevis, Dimitrios [0000-0001-6167-7152], Virology, and Graduate School

Subjects
Male, Epidemiology, Human immunodeficiency virus (HIV), Human immunodeficiency virus 1, HIV Infections, medicine.disease_cause, Virologie générale, phylogeny, Settore MED/42 - Igiene Generale E Applicata, Men who have sex with men, EMERGENCE, 0302 clinical medicine, Medicine and Health Sciences, Medicine, Infection control, Cluster Analysis, 030212 general & internal medicine, Israel, Pathologie maladies infectieuses, travel, Phylogeny, 0303 health sciences, Molecular Epidemiology, Travel, Transmission (medicine), article, virus transmission, IMMUNODEFICIENCY-VIRUS TYPE-1, 3. Good health, Europe, female, Infectious Diseases, SUBTYPE B, DRUG-RESISTANT HIV-1, RNA, Viral, male homosexual, Adult, structural gene, Molecular Sequence Data, Newly diagnosed, Clusters, 03 medical and health sciences, male, SDG 3 - Good Health and Well-being, MOLECULAR EPIDEMIOLOGY, SWITZERLAND, Virology, geographic distribution, Humans, Transmission, In patient, human, 030304 developmental biology, nonhuman, Molecular epidemiology, business.industry, Research, high risk population, Virologie médicale, nucleotide sequence, Sequence Analysis, DNA, Human immunodeficiency virus 1 infection, major clinical study, unindexed sequence, 3121 General medicine, internal medicine and other clinical medicine, HIV-1, business, Europe, HIV-1, Transmission, Clusters, Demography, cluster analysis
Abstract

Background: International travel plays a role in the spread of HIV-1 across Europe. It is, however, not known whether international travel is more important for spread of the epidemic as compared to endogenous infections within single countries. In this study, phylogenetic associations among HIV of newly diagnosed patients were determined across Europe.Results: Data came from the SPREAD programme which collects samples of newly diagnosed patients that are representative for national HIV epidemics. 4260 pol sequences from 25 European countries and Israel collected in 2002-2007 were included.We identified 457 clusters including 1330 persons (31.2% of all patients). The cluster size ranged between 2 and 28. A number of 987 patients (74.2%) were part of a cluster that consisted only of patients originating from the same country. In addition, 135 patients (10.2%) were in a cluster including only individuals from neighboring countries. Finally, 208 patients (15.6%) clustered with individuals from countries without a common border. Clustering with patients from the same country was less prevalent in patients being infected with B subtype (P-value, SCOPUS: ar.j, info:eu-repo/semantics/published

Published
2013

35. Primary resistance to integrase strand-transfer inhibitors in Europe

Author

Casadellà, M. van Ham, P.M. Noguera-Julian, M. van Kessel, A. Pou, C. Hofstra, L.M. Santos, J.R. Garcia, F. Struck, D. Alexiev, I. Bakken Kran, A.M. Hoepelman, A.I. Kostrikis, L.G. Somogyi, S. Liitsola, K. Linka, M. Nielsen, C. Otelea, D. Paraskevis, D. Poljak, M. Puchhammer-Stöckl, E. Staneková, D. Stanojevic, M. Van Laethem, K. Zidovec Lepej, S. Clotet, B. Boucher, C.A.B. Paredes, R. Wensing, A.M.J. Puchhammer-Stöckl, E. Sarcletti, M. Schmied, B. Geit, M. Balluch, G. Vandamme, A.M. Vercauteren, J. Derdelinckx, I. Sasse, A. Bogaert, M. Ceunen, H. De Roo, A. De Wit, S. Echahidi, F. Fransen, K. Goffard, J.C. Goubau, P. Goudeseune, E. Yombi, J.C. Lacor, P. Liesnard, C. Moutschen, M. Pierard, D. Rens, R. Schrooten, Y. Vaira, D. Vandekerckhove, L.P. Van den Heuvel, A. Van Der Gucht, B. Van Ranst, M. Van Wijngaerden, E. Vandercam, B. Vekemans, M. Verhofstede, C. Clumeck, N. Van Laethem, K. Beshkov, D. Alexiev, I. Zidovec Lepej, S. Begovac, J. Demetriades, I. Kousiappa, I. Demetriou, V. Hezka, J. Linka, M. Machala, L. Maly, M. Nielsen, C. Jørgensen, L.B. Gerstoft, J. Mathiesen, L. Pedersen, C. Nielsen, H. Laursen, A. Kvinesdal, B. Liitsola, K. Ristola, M. Suni, J. Sutinen, J. Hamouda, O. Kücherer, C. Berg, T. Braun, P. Poggensee, G. Däumer, M. Eberle, J. Heiken, H. Kaiser, R. Knechten, H. Korn, K. Müller, H. Neifer, S. Schmidt, B. Walter, H. Gunsenheimer-Bartmeyer, B. Harrer, T. Paraskevis, D. Hatzakis, A. Magiorkinis, E. Hatzitheodorou, E. Haida, C. Zavitsanou, A. Magiorkinis, G. Lazanas, M. Chini, M. Magafas, N. Tsogas, N. Paparizos, V. Kourkounti, S. Antoniadou, A. Papadopoulos, A. Panagopoulos, P. Poulakou, G. Sakka, V. Chryssos, G. Drimis, S. Gargalianos, P. Lelekis, M. Chilomenos, G. Psichogiou, M. Daikos, G.L. Sabatakou, H. Panos, G. Haratsis, G. Kordossis, T. Kontos, A. Koratzanis, G. Theodoridou, M. Mostrou, G. Spoulou, V. Schmit, J.C. Struck, D. Hemmer, R. Arendt, V. Staub, T. Schneider, F. Roman, F. Wensing, A.M. Boucher, C.A. van de Vijver, D.A. van Kessel, A. van, P.H. Brinkman, K. Op de, E.L. van der Ende, M.E. Hoepelman, I.M. van Kasteren, M. Juttmann, J. Kuipers, M. Langebeek, N. Richter, C. Santegoets, R.M. Schrijnders-Gudde, L. Schuurman, R. van de Ven, B.J. Åsjö, B. Bakken, A.M. Ormaasen, V. Aavitsland, P. Otelea, D. Paraschiv, S. Tudor, A.M. Jevtovic, D. Salemovic, D. Stanekova, D. Habekova, M. Mokras, M. Truska, P. Poljak, M. Lunar, M. Babic, D. Tomazic, J. Vidmar, L. Vovko, T. Karner, P. Clotet, B. Garcia, F. Domingo, P. Galindo, M.J. Miralles, C. Del, M.A. Ribera, E. Iribarren, J.A. Ruiz, L. de la Torre, J. Vidal, F. Garcia, F. Paredes, R. on behalf of the SPREAD programme

Abstract

Objectives: The objective of this study was to define the natural genotypic variation of the HIV-1 integrase gene across Europe for epidemiological surveillance of integrase strand-transfer inhibitor (InSTI) resistance. Methods: This was a multicentre, cross-sectional study within the European SPREAD HIV resistance surveillance programme. A representative set of 300 samples was selected from 1950 naive HIV-positive subjects newly diagnosed in 2006-07. The prevalence of InSTI resistance was evaluated using quality-controlled baseline population sequencing of integrase. Signature raltegravir, elvitegravir and dolutegravir resistance mutations were defined according to the IAS-USA 2014 list. In addition, all integrase substitutions relative to HXB2 were identified, including those with a Stanford HIVdb score=10 to at least one InSTI. To rule out circulation of minority InSTIresistant HIV, 65 samples were selected for 454 integrase sequencing. Results: For the population sequencing analysis, 278 samples were retrieved and successfully analysed. No signature resistance mutations to any of the InSTIswere detected. Eleven (4%) subjects hadmutations at resistance-associated positions with an HIVdb score =10. Of the 56 samples successfully analysed with 454 sequencing, no InSTI signature mutationsweredetected, whereas integrase substitutionswithanHIVdbscore=10were found in8(14.3%) individuals. Conclusions:No signature InSTI-resistant variantswere circulating in Europe before the introduction of InSTIs. However, polymorphisms contributing to InSTI resistancewere not rare. As InSTI use becomes more widespread, continuous surveillance of primary InSTI resistance is warranted. These data will be key to modelling the kinetics of InSTI resistance transmission in Europe in the coming years. © The Author 2015. Published by Oxford University Press on behalf of the British Society for Antimicrobial Chemotherapy. All rights reserved.

Published
2015

36. Primary resistance to integrase strand-transfer inhibitors in Europe

Author

Moutschen, M., Casadellà, M., van Ham, P. M., Noguera-Julian, M., van Kessel, A., Pou, C., Hofstra, Laura Marije Arije, Santos, J. R., Garcia, F., Struck, D., Alexiev, Ivailo, Bakken Kran, A. M., Hoepelman, A. I., Kostrikis, Leontios G., Somogyi, Sybille, Liitsola, K., Linka, M., Nielsen, C., Otelea, D., Paraskevis, Dimitrios N., Poljak, M., Puchhammer-Stöckl, E., Staneková, D., Stanojevic, M., Van Laethem, K., Zidovec Lepej, S., Clotet, B., Boucher, C. A. B., Paredes, R., Wensing, A. M. J., Sarcletti, M., Schmied, B., Geit, M., Balluch, G., Vandamme, A. M., Vercauteren, J., Derdelinckx, I., Sasse, A., Bogaert, M., Ceunen, H., De Roo, A., De Wit, S., Echahidi, F., Fransen, K., Goffard, J. C., Goubau, P., Goudeseune, E., Yombi, J. C., Lacor, P., Liesnard, C., Pierard, D., Rens, R., Schrooten, Y., Vaira, D., Vandekerckhove, L. P., Van den Heuvel, A., Van Der Gucht, B., Van Ranst, M., Van Wijngaerden, E., Vandercam, B., Vekemans, M., Verhofstede, C., Clumeck, N., Beshkov, Danail, Begovac, J., Demetriades, Ioannis, Kousiappa, Ioanna, Demetriou, Victoria L., Hezka, Johana, Machala, L., Maly, M., Jørgensen, L. B., Gerstoft, J., Mathiesen, L., Pedersen, C., Nielsen, H., Laursen, A., Kvinesdal, B., Ristola, M., Suni, J., Sutinen, J., Hamouda, O., Kücherer, C., Berg, T., Braun, P., Poggensee, G., Däumer, M., Eberle, J., Heiken, H., Kaiser, R., Knechten, H., Korn, K., Müller, H., Neifer, S., Schmidt, B., Walter, H., Gunsenheimer-Bartmeyer, B., Harrer, T., Hatzakis, Angelos E., Magiorkinis, Emmanouil N., Hatzitheodorou, Eleni, Haida, Catherine, Zavitsanou, Assimina, Magiorkinis, Gkikas, Lazanas, Marios C., Chini, Maria C., Magafas, N., Tsogas, Nickolaos, Paparizos, Vassilios A., Kourkounti, Sofia, Antoniadou, Anastasia C., Papadopoulos, Antonios I., Panagopoulos, Periklis, Poulakou, Garyphallia G., Sakka, V., Chryssos, Georgios, Drimis, Stylianos, Gargalianos, Panagiotis, Lelekis, Moyssis I., Chilomenos, G., Psichogiou, Mina A., Daikos, George L., Sabatakou, H., Panos, George, Haratsis, G., Kordossis, Theodore, Kontos, Athanasios N., Koratzanis, Georgios, Theodoridou, Maria C., Mostrou, Glykeria J., Spoulou, Vana I., Schmit, J. C., Hemmer, R., Arendt, V., Staub, T., Schneider, F., Roman, F., Wensing, A. M., Boucher, C. A., van de Vijver, D. A., van, P. H., Brinkman, K., Op de, E. L., van der Ende, M. E., Hoepelman, I. M., van Kasteren, M., Juttmann, J., Kuipers, M., Langebeek, N., Richter, C., Santegoets, R. M., Schrijnders-Gudde, L., Schuurman, R., van de Ven, B. J., Åsjö, Birgitta, Bakken, A. M., Ormaasen, V., Aavitsland, P., Paraschiv, S., Tudor, A. M., Jevtovic, D., Salemovic, D., Stanekova, D., Habekova, M., Mokráš, Miloš, Truska, P., Lunar, M., Babic, Dunja Z., Tomazic, J., Vidmar, L., Vovko, T., Karner, P., Domingo, P., Galindo, M. J., Miralles, C., Del, M. A., Ribera, E., Iribarren, J. A., Ruiz, L., de la Torre, J., Vidal, F., Kostrikis, Leontios G. [0000-0002-5340-7109], and Paraskevis, Dimitrios [0000-0001-6167-7152]

Subjects
sequence analysis, genotype, Human immunodeficiency virus 1, HIV Infections, RNA directed DNA polymerase inhibitor, integrase strand transfer inhibitor, HIV Integrase, molecular epidemiology, Human immunodeficiency virus prevalence, Risk Factors, Antiretroviral Therapy, Highly Active, genetic variability, genetics, Stanford HIVdb score, clinical trial, Human immunodeficiency virus infected patient, highly active antiretroviral therapy, Viral Load, unclassified drug, virology, health survey, dolutegravir, Europe, female, risk factor, Population Surveillance, virus gene, raltegravir, amino acid substitution, p31 integrase protein, Human immunodeficiency virus 1, DNA sequence, gene sequence, Article, male, antiviral resistance, Drug Resistance, Viral, proteinase inhibitor, Humans, cross-sectional study, controlled study, human, HIV Integrase Inhibitors, quality control, scoring system, CD4 lymphocyte count, integrase inhibitor, Sequence Analysis, DNA, virus load, nonnucleoside reverse transcriptase inhibitor, Human immunodeficiency virus 1 infection, major clinical study, drug efficacy, Cross-Sectional Studies, multicenter study, drug effects, genetic variation, HIV-1, integrase
Abstract

Objectives: The objective of this study was to define the natural genotypic variation of the HIV-1 integrase gene across Europe for epidemiological surveillance of integrase strand-transfer inhibitor (InSTI) resistance. Methods: This was a multicentre, cross-sectional study within the European SPREAD HIV resistance surveillance programme. A representative set of 300 samples was selected from 1950 naive HIV-positive subjects newly diagnosed in 2006-07. The prevalence of InSTI resistance was evaluated using quality-controlled baseline population sequencing of integrase. Signature raltegravir, elvitegravir and dolutegravir resistance mutations were defined according to the IAS-USA 2014 list. In addition, all integrase substitutions relative to HXB2 were identified, including those with a Stanford HIVdb score=10 to at least one InSTI. To rule out circulation of minority InSTIresistant HIV, 65 samples were selected for 454 integrase sequencing. Results: For the population sequencing analysis, 278 samples were retrieved and successfully analysed. No signature resistance mutations to any of the InSTIswere detected. Eleven (4%) subjects hadmutations at resistance-associated positions with an HIVdb score =10. Of the 56 samples successfully analysed with 454 sequencing, no InSTI signature mutationsweredetected, whereas integrase substitutionswithanHIVdbscore=10were found in8(14.3%) individuals. Conclusions:No signature InSTI-resistant variantswere circulating in Europe before the introduction of InSTIs. However, polymorphisms contributing to InSTI resistancewere not rare. As InSTI use becomes more widespread, continuous surveillance of primary InSTI resistance is warranted. These data will be key to modelling the kinetics of InSTI resistance transmission in Europe in the coming years. © The Author 2015. Published by Oxford University Press on behalf of the British Society for Antimicrobial Chemotherapy. All rights reserved. 70 2885 2888 Cited By :15

Published
2015

37. Treatment-associated polymorphisms in protease are significantly associated with higher viral load and lower CD4 count in newly diagnosed drug-naive HIV-1 infected patients

Author

Moutschen, M., Theys, K., Deforche, K., Vercauteren, J., Libin, P., van de Vijver, D. A. M. C., Albert, Jan, Åsjö, Birgitta, Balotta, Claudia, Bruckova, M., Camacho, Ricardo J., Clotet, B., Coughlan, S., Grossman, Z., Hamouda, O., Horban, A., Korn, K., Kostrikis, Leontios G., Kücherer, C., Nielsen, C., Paraskevis, Dimitrios N., Poljak, M., Puchhammer-Stockl, E., Riva, C., Ruiz, L., Liitsola, K., Schmit, J. -C, Schuurman, R., Sönnerborg, A., Stanekova, D., Stanojevic, M., Struck, D., Van Laethem, K., Wensing, A. M. J., Boucher, C. A. B., Vandamme, A. M., Sarcletti, M., Schmied, B., Geit, M., Balluch, G., Derdelinckx, I., Sasse, A., Bogaert, M., Ceunen, H., De Roo, A., De Wit, S., Echahidi, F., Fransen, K., Goffard, J. -C, Goubau, P., Goudeseune, E., Yombi, J. -C, Lacor, P., Liesnard, C., Pierard, D., Rens, R., Schrooten, Y., Vaira, D., Van den Heuvel, A., Van Der Gucht, B., Van Ranst, M., Van Wijngaerden, E., Vandercam, B., Vekemans, M., Verhofstede, C., Clumeck, N., Demetriades, Ioannis, Kousiappa, Ioanna, Demetriou, Victoria L., Hezka, Johana, Linka, M., Machala, L., Jrgensen, L. B., Gerstoft, J., Mathiesen, L., Pedersen, C., Nielsen, H., Laursen, A., Kvinesdal, B., Ristola, M., Suni, J., Sutinen, J., K̈ucherer, C., Berg, T., Braun, P., Poggensee, G., Däumer, M., Eberle, J., Heiken, H., Kaiser, R., Knechten, H., Müller, H., Neifer, S., Schmidt, B., Walter, H., Gunsenheimer-Bartmeyer, B., Harrer, T., Hatzakis, Angelos E., Magiorkinis, Emmanouil N., Hatzitheodorou, Eleni, Issaris, C., Haida, Catherine, Zavitsanou, Assimina, Magiorkinis, Gkikas, Lazanas, Marios C., Chini, Maria C., Magafas, N., Tsogas, Nickolaos, Paparizos, Vassilios A., Kourkounti, Sofia, Antoniadou, Anastasia C., Papadopoulos, Antonios I., Panagopoulos, Periklis, Poulakou, Garyphallia G., Sakka, V., Chryssos, Georgios, Drimis, Stylianos, Gargalianos, Panagiotis, Lelekis, Moyssis I., Xilomenos, G., Psichogiou, Mina A., Daikos, George L., Panos, George, Haratsis, G., Kordossis, Theodore, Kontos, Athanasios N., Koratzanis, Georgios, Theodoridou, Maria C., Mostrou, Glykeria J., Spoulou, Vana I., Hall, W., De Gascun, C., Byrne, C., Duffy, M., Bergin, C., Reidy, D., Farrell, G., Lambert, J., O'Connor, E., Rochford, A., Low, J., Coakely, P., Levi, I., Chemtob, D., Mussini, C., Caramma, I., Capetti, A., Colombo, M. C., Rossi, C., Prati, F., Tramuto, F., Vitale, F., Ciccozzi, M., Angarano, G., Rezza, G., Schmit, J. C., Hemmer, R., Arendt, V., Staub, T., Schneider, F., Roman, F., van Bentum, P. H. M., Brinkman, K., op de Coul, E. L., van der Ende, M. E., Hoepelman, I. M., van Kasteren, M., Juttmann, J., Kuipers, M., Langebeek, N., Richter, C., Santegoets, R. M. W. J., Schrijnders-Gudde, L., van de Ven, B. J. M., Ormaasen, V., Aavitsland, P., Stanczak, J. J., Stanczak, G. P., Firlag-Burkacka, E., Wiercinska-Drapalo, A., Jablonowska, E., Malolepsza, E., Leszczyszyn-Pynka, M., Szata, W., Palma, C., Borges, F., Paix̃ao, T., Duque, V., Araújo, F., Jevtovic, D. J., Salemovic, D., Habekova, M., Mokráš, Miloš, Truska, P., Babic, Dunja Z., Tomazic, J., Vidmar, L., Karner, P., Gutíerrez, C., deMendoza, C., Erkicia, I., Domingo, P., Camino, X., Galindo, M. J., Blanco, J. L., Leal, M., Masabeu, A., Guelar, A., Llibre, J. M., Margall, N., Iribarren, J. A., Gutierrez, S., Baldov́i, J. F., Pedreira, J. D., Gatell, J. M., Moreno, S., de Mendoza, C., Soriano, V., Blaxhult, A., Heidarian, A., Karlsson, A., Aperia-Peipke, K., Bergbrant, I. -M, Gissĺen, M., Svennerholm, M., Björkman, Per, Bratt, G., Carlsson, M., Ekvall, H., Ericsson, M., Ḧofer, M., Johansson, B., Sonnerb̈org, A., Kuylenstierna, N., Ljungberg, B., Mäkitalo, S., Strand, A., Öberg, S., Virology, Erasmus MC other, Van Wijngaerden, Eric, Clinicum, Department of Medicine, Infektiosairauksien yksikkö, Centro de Malária e outras Doenças Tropicais (CMDT), Graduate School, Kostrikis, Leontios G. [0000-0002-5340-7109], Paraskevis, Dimitrios [0000-0001-6167-7152], UCL - SSS/IREC/MBLG - Pôle de Microbiologie médicale, UCL - (SLuc) Service de microbiologie, UCL - (SLuc) Service de médecine interne générale, Theys, K, Deforche, K, Vercauteren, J, Libin, P, van de Vijver, DA, Albert, J, Asjö, B, Balotta, C, Bruckova, M, Camacho, RJ, Clotet, B, Coughlan, S, Grossman, Z, Hamouda, O, Horban, A, Korn, K, Kostrikis, LG, Kücherer, C, Nielsen, C, Paraskevis, D, Poljak, M, Puchhammer Stockl, E, Riva, C, Ruiz, L, Liitsola, K, Schmit, JC, Schuurman, R, Sönnerborg, A, Stanekova, D, Stanojevic, M, Struck, D, Van Laethem, K, Wensing, AM, Boucher, CA, Vandamme, AM, Tramuto, F, and Vitale, F

Subjects
Adult, Male, lcsh:Immunologic diseases. Allergy, Anti-HIV Agents, education, Virulence, HIV Infections, Drug resistance, Biology, Settore MED/42 - Igiene Generale E Applicata, Virus, polymorphism, 03 medical and health sciences, Viral Proteins, SDG 3 - Good Health and Well-being, Virology, Genotype, Drug Resistance, Viral, drug-naive, medicine, Humans, Prospective Studies, 030304 developmental biology, 0303 health sciences, Polymorphism, Genetic, 030306 microbiology, Research, protease, Viral Load, Reverse transcriptase, 3. Good health, CD4 Lymphocyte Count, Drug-naïve, Infectious Diseases, 3121 General medicine, internal medicine and other clinical medicine, Immunology, biology.protein, HIV-1, Female, Antibody, lcsh:RC581-607, Viral load, HIV-1 infected patient, medicine.drug, Peptide Hydrolases
Abstract

Background: The effect of drug resistance transmission on disease progression in the newly infected patient is not well understood. Major drug resistance mutations severely impair viral fitness in a drug free environment, and therefore expected to revert quickly. Compensatory mutations, often already polymorphic in wild-type viruses, do not tend to revert after transmission. While compensatory mutations increase fitness during treatment, their presence may also modulate viral fitness and virulence in absence of therapy and major resistance mutations. We previously designed a modeling technique that quantifies genotypic footprints of in vivo treatment selective pressure, including both drug resistance mutations and polymorphic compensatory mutations, through the quantitative description of a fitness landscape from virus genetic sequences. Results: Genotypic correlates of viral load and CD4 cell count were evaluated in subtype B sequences from recently diagnosed treatment-naive patients enrolled in the SPREAD programme. The association of surveillance drug resistance mutations, reported compensatory mutations and fitness estimated from drug selective pressure fitness landscapes with baseline viral load and CD4 cell count was evaluated using regression techniques. Protease genotypic variability estimated to increase fitness during treatment was associated with higher viral load and lower CD4 cell counts also in treatment-naive patients, which could primarily be attributed to well-known compensatory mutations at highly polymorphic positions. By contrast, treatment-related mutations in reverse transcriptase could not explain viral load or CD4 cell count variability. Conclusions: These results suggest that polymorphic compensatory mutations in protease, reported to be selected during treatment, may improve the replicative capacity of HIV-1 even in absence of drug selective pressure or major resistance mutations. The presence of this polymorphic variation may either reflect a history of drug selective pressure, i.e. transmission from a treated patient, or merely be a result of diversity in wild-type virus. Our findings suggest that transmitted drug resistance has the potential to contribute to faster disease progression in the newly infected host and to shape the HIV-1 epidemic at a population level. ispartof: Retrovirology vol:9 issue:1 ispartof: location:England status: published

Published
2012

38. Transmission of HIV drug resistance and the predicted effect on current first-line regimens in Europe

Author

Hofstra, L. Marije, Sauvageot, Nicolas, Albert, Jan, Alexiev, Ivailo, Garcia, Federico, Struck, Daniel, Van De Vijver, David A M C, Åsjö, Birgitta, Beshkov, Danail, Coughlan, Suzie, Descamps, Diane, Griskevicius, Algirdas, Hamouda, Osamah, Horban, Andrzej, Van Kasteren, Marjo, Kolupajeva, Tatjana, Kostrikis, Leontios G., Liitsola, Kirsi, Linka, Marek, Mor, Orna, Nielsen, Claus, Otelea, Dan, Paraskevis, Dimitrios, Paredes, Roger, Poljak, Mario, Puchhammer-Stöckl, Elisabeth, Sönnerborg, Anders, Staneková, Danica, Stanojevic, Maja, Van Laethem, Kristel, Zazzi, Maurizio, Lepej, Snjezana Zidovec, Boucher, Charles A B, Schmit, Jean Claude, Wensing, Annemarie M J, Puchhammer-Stockl, E., Sarcletti, M., Schmied, B., Geit, M., Balluch, G., Vandamme, A. M., Vercauteren, J., Derdelinckx, I., Sasse, A., Bogaert, M., Ceunen, H., De Roo, A., De Wit, S., Echahidi, F., Fransen, K., Goffard, J. C., Goubau, P., Goudeseune, E., Yombi, J. C., Lacor, P., Liesnard, C., Moutschen, M., Pierard, D., Rens, R., Schrooten, Y., Vaira, D., Vandekerckhove, L. P R, Van Den Heuvel, A., Van Der Gucht, B., Van Ranst, M., Van Wijngaerden, E., Vandercam, B., Vekemans, M., Verhofstede, C., Clumeck, N., Van Laethem, K., Beshkov, D., Alexiev, I., Lepej, S. Zidovec, Begovac, J., Demetriades, I., Kousiappa, I., Demetriou, V., Hezka, J., Linka, M., Maly, M., Machala, L., Nielsen, C., Jørgensen, L. B., Gerstoft, J., Mathiesen, L., Pedersen, C., Nielsen, H., Laursen, A., Kvinesdal, B., Liitsola, K., Ristola, M., Suni, J., Sutinen, J., Descamps, D., Assoumou, L., Castor, G., Grude, M., Flandre, P., Storto, A., Hamouda, O., Kücherer, C., Berg, T., Braun, P., Poggensee, G., Däumer, M., Eberle, J., Heiken, H., Kaiser, R., Knechten, H., Korn, K., Müller, H., Neifer, S., Schmidt, B., Walter, H., Gunsenheimer-Bartmeyer, B., Harrer, T., Paraskevis, D., Hatzakis, A., Zavitsanou, A., Vassilakis, A., Lazanas, M., Chini, M., Lioni, A., Sakka, V., Kourkounti, S., Paparizos, V., Antoniadou, A., Papadopoulos, A., Poulakou, G., Katsarolis, I., Protopapas, K., Chryssos, G., Drimis, S., Gargalianos, P., Xylomenos, G., Lourida, G., Psichogiou, M., Daikos, G. L., Sipsas, N. V., Kontos, A., Gamaletsou, M. N., Koratzanis, G., Sambatakou, E., Mariolis, H., Skoutelis, A., Papastamopoulos, V., Georgiou, O., Panagopoulos, P., Maltezos, E., Coughlan, S., De Gascun, C., Byrne, C., Duffy, M., Bergin, C., Reidy, D., Farrell, G., Lambert, J., O'Connor, E., Rochford, A., Low, J., Coakely, P., O'Dea, S., Hall, W., Mor, O., Levi, I., Chemtob, D., Grossman, Z., Zazzi, M., De Luca, A., Balotta, C., Riva, C., Mussini, C., Caramma, I., Capetti, A., Colombo, M. C., Rossi, C., Prati, F., Tramuto, F., Vitale, F., Ciccozzi, M., Angarano, G., Rezza, G., Kolupajeva, T., Vasins, O., Griskevicius, A., Lipnickiene, V., Schmit, J. C., Struck, D., Sauvageot, N., Hemmer, R., Arendt, V., Michaux, C., Staub, T., Sequin-Devaux, C., Wensing, A. M J, Boucher, C. A B, Van Kessel, A., Van Bentum, P. H M, Brinkman, K., Connell, B. J., Van Der Ende, M. E., Hoepelman, I. M., Van Kasteren, M., Kuipers, M., Langebeek, N., Richter, C., Santegoets, R. M W J, Schrijnders-Gudde, L., Schuurman, R., Van De Ven, B. J M, Åsjö, B., Kran, A. M Bakken, Ormaasen, V., Aavitsland, P., Horban, A., Stanczak, J. J., Stanczak, G. P., Firlag-Burkacka, E., Wiercinska-Drapalo, A., Jablonowska, E., Maolepsza, E., Leszczyszyn-Pynka, M., Szata, W., Camacho, R., Palma, C., Borges, F., Paixão, T., Duque, V., Araújo, F., Otelea, D., Paraschiv, S., Tudor, A. M., Cernat, R., Chiriac, C., Dumitrescu, F., Prisecariu, L. J., Stanojevic, M., Jevtovic, Dj, Salemovic, D., Stanekova, D., Habekova, M., Chabadová, Z., Drobkova, T., Bukovinova, P., Shunnar, A., Truska, P., Poljak, M., Lunar, M., Babic, D., Tomazic, J., Vidmar, L., Vovko, T., Karner, P., Garcia, F., Paredes, R., Monge, S., Moreno, S., Del Amo, J., Asensi, V., Sirvent, J. L., De Mendoza, C., Delgado, R., Gutiérrez, F., Berenguer, J., Garcia-Bujalance, S., Stella, N., De Los Santos, I., Blanco, J. R., Dalmau, D., Rivero, M., Segura, F., Elías, M. J Pérez, Alvarez, M., Chueca, N., Rodríguez-Martín, C., Vidal, C., Palomares, J. C., Viciana, I., Viciana, P., Cordoba, J., Aguilera, A., Domingo, P., Galindo, M. J., Miralles, C., Del Pozo, M. A., Ribera, E., Iribarren, J. A., Ruiz, L., De La Torre, J., Vidal, F., Clotet, B., Albert, J., Heidarian, A., Aperia-Peipke, K., Axelsson, M., Mild, M., Karlsson, A., Sönnerborg, A., Thalme, A., Navér, L., Bratt, G., Blaxhult, A., Gisslén, M., Svennerholm, B., Bergbrant, I., Björkman, P., Säll, C., Mellgren, Lindholm, A., Kuylenstierna, N., Montelius, R., Azimi, F., Johansson, B., Carlsson, M., Johansson, E., Ljungberg, B., Ekvall, H., Strand, A., Mäkitalo, S., Öberg, S., Holmblad, P., Höfer, M., Holmberg, H., Josefson, P., Ryding, U., Hofstra, L. Marije, Sauvageot, Nicolas, Albert, Jan, Alexiev, Ivailo, Garcia, Federico, Struck, Daniel, Van De Vijver, David A M C, Åsjö, Birgitta, Beshkov, Danail, Coughlan, Suzie, Descamps, Diane, Griskevicius, Algirdas, Hamouda, Osamah, Horban, Andrzej, Van Kasteren, Marjo, Kolupajeva, Tatjana, Kostrikis, Leontios G., Liitsola, Kirsi, Linka, Marek, Mor, Orna, Nielsen, Claus, Otelea, Dan, Paraskevis, Dimitrios, Paredes, Roger, Poljak, Mario, Puchhammer-Stöckl, Elisabeth, Sönnerborg, Anders, Staneková, Danica, Stanojevic, Maja, Van Laethem, Kristel, Zazzi, Maurizio, Lepej, Snjezana Zidovec, Boucher, Charles A B, Schmit, Jean Claude, Wensing, Annemarie M J, Puchhammer-Stockl, E., Sarcletti, M., Schmied, B., Geit, M., Balluch, G., Vandamme, A. M., Vercauteren, J., Derdelinckx, I., Sasse, A., Bogaert, M., Ceunen, H., De Roo, A., De Wit, S., Echahidi, F., Fransen, K., Goffard, J. C., Goubau, P., Goudeseune, E., Yombi, J. C., Lacor, P., Liesnard, C., Moutschen, M., Pierard, D., Rens, R., Schrooten, Y., Vaira, D., Vandekerckhove, L. P R, Van Den Heuvel, A., Van Der Gucht, B., Van Ranst, M., Van Wijngaerden, E., Vandercam, B., Vekemans, M., Verhofstede, C., Clumeck, N., Van Laethem, K., Beshkov, D., Alexiev, I., Lepej, S. Zidovec, Begovac, J., Demetriades, I., Kousiappa, I., Demetriou, V., Hezka, J., Linka, M., Maly, M., Machala, L., Nielsen, C., Jørgensen, L. B., Gerstoft, J., Mathiesen, L., Pedersen, C., Nielsen, H., Laursen, A., Kvinesdal, B., Liitsola, K., Ristola, M., Suni, J., Sutinen, J., Descamps, D., Assoumou, L., Castor, G., Grude, M., Flandre, P., Storto, A., Hamouda, O., Kücherer, C., Berg, T., Braun, P., Poggensee, G., Däumer, M., Eberle, J., Heiken, H., Kaiser, R., Knechten, H., Korn, K., Müller, H., Neifer, S., Schmidt, B., Walter, H., Gunsenheimer-Bartmeyer, B., Harrer, T., Paraskevis, D., Hatzakis, A., Zavitsanou, A., Vassilakis, A., Lazanas, M., Chini, M., Lioni, A., Sakka, V., Kourkounti, S., Paparizos, V., Antoniadou, A., Papadopoulos, A., Poulakou, G., Katsarolis, I., Protopapas, K., Chryssos, G., Drimis, S., Gargalianos, P., Xylomenos, G., Lourida, G., Psichogiou, M., Daikos, G. L., Sipsas, N. V., Kontos, A., Gamaletsou, M. N., Koratzanis, G., Sambatakou, E., Mariolis, H., Skoutelis, A., Papastamopoulos, V., Georgiou, O., Panagopoulos, P., Maltezos, E., Coughlan, S., De Gascun, C., Byrne, C., Duffy, M., Bergin, C., Reidy, D., Farrell, G., Lambert, J., O'Connor, E., Rochford, A., Low, J., Coakely, P., O'Dea, S., Hall, W., Mor, O., Levi, I., Chemtob, D., Grossman, Z., Zazzi, M., De Luca, A., Balotta, C., Riva, C., Mussini, C., Caramma, I., Capetti, A., Colombo, M. C., Rossi, C., Prati, F., Tramuto, F., Vitale, F., Ciccozzi, M., Angarano, G., Rezza, G., Kolupajeva, T., Vasins, O., Griskevicius, A., Lipnickiene, V., Schmit, J. C., Struck, D., Sauvageot, N., Hemmer, R., Arendt, V., Michaux, C., Staub, T., Sequin-Devaux, C., Wensing, A. M J, Boucher, C. A B, Van Kessel, A., Van Bentum, P. H M, Brinkman, K., Connell, B. J., Van Der Ende, M. E., Hoepelman, I. M., Van Kasteren, M., Kuipers, M., Langebeek, N., Richter, C., Santegoets, R. M W J, Schrijnders-Gudde, L., Schuurman, R., Van De Ven, B. J M, Åsjö, B., Kran, A. M Bakken, Ormaasen, V., Aavitsland, P., Horban, A., Stanczak, J. J., Stanczak, G. P., Firlag-Burkacka, E., Wiercinska-Drapalo, A., Jablonowska, E., Maolepsza, E., Leszczyszyn-Pynka, M., Szata, W., Camacho, R., Palma, C., Borges, F., Paixão, T., Duque, V., Araújo, F., Otelea, D., Paraschiv, S., Tudor, A. M., Cernat, R., Chiriac, C., Dumitrescu, F., Prisecariu, L. J., Stanojevic, M., Jevtovic, Dj, Salemovic, D., Stanekova, D., Habekova, M., Chabadová, Z., Drobkova, T., Bukovinova, P., Shunnar, A., Truska, P., Poljak, M., Lunar, M., Babic, D., Tomazic, J., Vidmar, L., Vovko, T., Karner, P., Garcia, F., Paredes, R., Monge, S., Moreno, S., Del Amo, J., Asensi, V., Sirvent, J. L., De Mendoza, C., Delgado, R., Gutiérrez, F., Berenguer, J., Garcia-Bujalance, S., Stella, N., De Los Santos, I., Blanco, J. R., Dalmau, D., Rivero, M., Segura, F., Elías, M. J Pérez, Alvarez, M., Chueca, N., Rodríguez-Martín, C., Vidal, C., Palomares, J. C., Viciana, I., Viciana, P., Cordoba, J., Aguilera, A., Domingo, P., Galindo, M. J., Miralles, C., Del Pozo, M. A., Ribera, E., Iribarren, J. A., Ruiz, L., De La Torre, J., Vidal, F., Clotet, B., Albert, J., Heidarian, A., Aperia-Peipke, K., Axelsson, M., Mild, M., Karlsson, A., Sönnerborg, A., Thalme, A., Navér, L., Bratt, G., Blaxhult, A., Gisslén, M., Svennerholm, B., Bergbrant, I., Björkman, P., Säll, C., Mellgren, Lindholm, A., Kuylenstierna, N., Montelius, R., Azimi, F., Johansson, B., Carlsson, M., Johansson, E., Ljungberg, B., Ekvall, H., Strand, A., Mäkitalo, S., Öberg, S., Holmblad, P., Höfer, M., Holmberg, H., Josefson, P., and Ryding, U.

Published
2016

39. The global spread of HIV-1 subtype B epidemic

Author

Magiorkinis, G. (Gkikas), Angelis, K. (Konstantinos), Mamais, I. (Ioannis), Katzourakis, A. (Aris), Hatzakis, A. (Angelos), Albert, J. (Jan), Lawyer, G. (Glenn), Hamouda, O. (Osamah), Struck, D. (Daniel), Vercauteren, J. (Jurgen), Wensing, A. (Amj), Alexiev, I. (Ivailo), Åsjö, B. (Birgitta), Balotta, C. (Claudia), Gomes, P. (Perpétua), Camacho, R.J. (Ricardo Jorge), Coughlan, S. (Suzie), Griskevicius, A. (Algirdas), Grossman, Z. (Zehava), Horban, A. (Anders), Kostrikis, L.G. (Leondios), Lepej, S.J. (Snjezana J.), Liitsola, K. (Kirsi), Linka, M. (Marek), Nielsen, C., Otelea, D. (Dan), Paredes, R. (Roger), Poljak, M. (Mario), Puchhammer-Stöckl, E. (Elisabeth), Schmit, J.C., Sonnerborg, A. (Anders), Stanekova, D. (Danica), Stanojevic, M. (Maja), Stylianou, D.C. (Dora C.), Boucher, C.A.B. (Charles), Nikolopoulos, G. (Georgios), Vasylyeva, T. (Tetyana), Friedman, S.R. (Samuel R.), Vijver, D.A.M.C. (David) van de, Angarano, G. (Guiseppe), Chaix, M.L. (Marie Laure), Luca, A. (Andrea) de, Korn, K. (Klaus), Loveday, C. (Clive), Soriano, V. (Virtudes), Yerly, S. (Sabine), Zazzi, M., Vandamme, A.M. (Anne Mieke), Paraskevis, D. (Dimitrios), Magiorkinis, G. (Gkikas), Angelis, K. (Konstantinos), Mamais, I. (Ioannis), Katzourakis, A. (Aris), Hatzakis, A. (Angelos), Albert, J. (Jan), Lawyer, G. (Glenn), Hamouda, O. (Osamah), Struck, D. (Daniel), Vercauteren, J. (Jurgen), Wensing, A. (Amj), Alexiev, I. (Ivailo), Åsjö, B. (Birgitta), Balotta, C. (Claudia), Gomes, P. (Perpétua), Camacho, R.J. (Ricardo Jorge), Coughlan, S. (Suzie), Griskevicius, A. (Algirdas), Grossman, Z. (Zehava), Horban, A. (Anders), Kostrikis, L.G. (Leondios), Lepej, S.J. (Snjezana J.), Liitsola, K. (Kirsi), Linka, M. (Marek), Nielsen, C., Otelea, D. (Dan), Paredes, R. (Roger), Poljak, M. (Mario), Puchhammer-Stöckl, E. (Elisabeth), Schmit, J.C., Sonnerborg, A. (Anders), Stanekova, D. (Danica), Stanojevic, M. (Maja), Stylianou, D.C. (Dora C.), Boucher, C.A.B. (Charles), Nikolopoulos, G. (Georgios), Vasylyeva, T. (Tetyana), Friedman, S.R. (Samuel R.), Vijver, D.A.M.C. (David) van de, Angarano, G. (Guiseppe), Chaix, M.L. (Marie Laure), Luca, A. (Andrea) de, Korn, K. (Klaus), Loveday, C. (Clive), Soriano, V. (Virtudes), Yerly, S. (Sabine), Zazzi, M., Vandamme, A.M. (Anne Mieke), and Paraskevis, D. (Dimitrios)

Abstract

Human immunodeficiency virus type 1 (HIV-1) was discovered in the early 1980s when the virus had already established a pandemic. For at least three decades the epidemic in the Western World has been dominated by subtype B infections, as part of a sub-epidemic that traveled from Africa through Haiti to United States. However, the pattern of the subsequent spread still remains poorly understood. Here we analyze a large dataset of globally representative HIV-1 subtype B strains to map their spread around the world over the last 50. years and describe significant spread patterns. We show that subtype B travelled from North America to Western Europe in different occasions, while Central/Eastern Europe remained isolated for the most part of the early epidemic. Looking with more detail in European countries we see that the United Kingdom, France and Switzerland exchanged viral isolates with non-European countries than with European ones. The observed pattern is likely to mirror geopolitical landmarks in the post-World War II era, namely the rise and the fall of the Iron Curtain and the European colonialism. In conclusion, HIV-1 spread through specific migration routes which are consistent with geopolitical factors that affected human activities during the last 50. years, such as migration, tourism and trade. Our findings support the argument that epidemic control policies should be global and incorporate political and socioeconomic factors. . . .

Published
2016
Full Text
View/download PDF

40. Transmission of HIV drug resistance and the predicted effect on current first-line regimens in Europe

Author

MMB opleiding Arts microbioloog, MMB Medische Staf, Infection & Immunity, Onderzoek Bob Oranje, Brain, Cardiovasculaire Epi Team 1, MMB Research line 3a, MS Infectieziekten, Circulatory Health, MMB Staf diagnostiek, Hofstra, L. Marije, Sauvageot, Nicolas, Albert, Jan, Alexiev, Ivailo, Garcia, Federico, Struck, Daniel, Van De Vijver, David A M C, Åsjö, Birgitta, Beshkov, Danail, Coughlan, Suzie, Descamps, Diane, Griskevicius, Algirdas, Hamouda, Osamah, Horban, Andrzej, Van Kasteren, Marjo, Kolupajeva, Tatjana, Kostrikis, Leontios G., Liitsola, Kirsi, Linka, Marek, Mor, Orna, Nielsen, Claus, Otelea, Dan, Paraskevis, Dimitrios, Paredes, Roger, Poljak, Mario, Puchhammer-Stöckl, Elisabeth, Sönnerborg, Anders, Staneková, Danica, Stanojevic, Maja, Van Laethem, Kristel, Zazzi, Maurizio, Lepej, Snjezana Zidovec, Boucher, Charles A B, Schmit, Jean Claude, Wensing, Annemarie M J, Puchhammer-Stockl, E., Sarcletti, M., Schmied, B., Geit, M., Balluch, G., Vandamme, A. M., Vercauteren, J., Derdelinckx, I., Sasse, A., Bogaert, M., Ceunen, H., De Roo, A., De Wit, S., Echahidi, F., Fransen, K., Goffard, J. C., Goubau, P., Goudeseune, E., Yombi, J. C., Lacor, P., Liesnard, C., Moutschen, M., Pierard, D., Rens, R., Schrooten, Y., Vaira, D., Vandekerckhove, L. P R, Van Den Heuvel, A., Van Der Gucht, B., Van Ranst, M., Van Wijngaerden, E., Vandercam, B., Vekemans, M., Verhofstede, C., Clumeck, N., Van Laethem, K., Beshkov, D., Alexiev, I., Lepej, S. Zidovec, Begovac, J., Demetriades, I., Kousiappa, I., Demetriou, V., Hezka, J., Linka, M., Maly, M., Machala, L., Nielsen, C., Jørgensen, L. B., Gerstoft, J., Mathiesen, L., Pedersen, C., Nielsen, H., Laursen, A., Kvinesdal, B., Liitsola, K., Ristola, M., Suni, J., Sutinen, J., Descamps, D., Assoumou, L., Castor, G., Grude, M., Flandre, P., Storto, A., Hamouda, O., Kücherer, C., Berg, T., Braun, P., Poggensee, G., Däumer, M., Eberle, J., Heiken, H., Kaiser, R., Knechten, H., Korn, K., Müller, H., Neifer, S., Schmidt, B., Walter, H., Gunsenheimer-Bartmeyer, B., Harrer, T., Paraskevis, D., Hatzakis, A., Zavitsanou, A., Vassilakis, A., Lazanas, M., Chini, M., Lioni, A., Sakka, V., Kourkounti, S., Paparizos, V., Antoniadou, A., Papadopoulos, A., Poulakou, G., Katsarolis, I., Protopapas, K., Chryssos, G., Drimis, S., Gargalianos, P., Xylomenos, G., Lourida, G., Psichogiou, M., Daikos, G. L., Sipsas, N. V., Kontos, A., Gamaletsou, M. N., Koratzanis, G., Sambatakou, E., Mariolis, H., Skoutelis, A., Papastamopoulos, V., Georgiou, O., Panagopoulos, P., Maltezos, E., Coughlan, S., De Gascun, C., Byrne, C., Duffy, M., Bergin, C., Reidy, D., Farrell, G., Lambert, J., O'Connor, E., Rochford, A., Low, J., Coakely, P., O'Dea, S., Hall, W., Mor, O., Levi, I., Chemtob, D., Grossman, Z., Zazzi, M., De Luca, A., Balotta, C., Riva, C., Mussini, C., Caramma, I., Capetti, A., Colombo, M. C., Rossi, C., Prati, F., Tramuto, F., Vitale, F., Ciccozzi, M., Angarano, G., Rezza, G., Kolupajeva, T., Vasins, O., Griskevicius, A., Lipnickiene, V., Schmit, J. C., Struck, D., Sauvageot, N., Hemmer, R., Arendt, V., Michaux, C., Staub, T., Sequin-Devaux, C., Wensing, A. M J, Boucher, C. A B, Van Kessel, A., Van Bentum, P. H M, Brinkman, K., Connell, B. J., Van Der Ende, M. E., Hoepelman, I. M., Van Kasteren, M., Kuipers, M., Langebeek, N., Richter, C., Santegoets, R. M W J, Schrijnders-Gudde, L., Schuurman, R., Van De Ven, B. J M, Åsjö, B., Kran, A. M Bakken, Ormaasen, V., Aavitsland, P., Horban, A., Stanczak, J. J., Stanczak, G. P., Firlag-Burkacka, E., Wiercinska-Drapalo, A., Jablonowska, E., Maolepsza, E., Leszczyszyn-Pynka, M., Szata, W., Camacho, R., Palma, C., Borges, F., Paixão, T., Duque, V., Araújo, F., Otelea, D., Paraschiv, S., Tudor, A. M., Cernat, R., Chiriac, C., Dumitrescu, F., Prisecariu, L. J., Stanojevic, M., Jevtovic, Dj, Salemovic, D., Stanekova, D., Habekova, M., Chabadová, Z., Drobkova, T., Bukovinova, P., Shunnar, A., Truska, P., Poljak, M., Lunar, M., Babic, D., Tomazic, J., Vidmar, L., Vovko, T., Karner, P., Garcia, F., Paredes, R., Monge, S., Moreno, S., Del Amo, J., Asensi, V., Sirvent, J. L., De Mendoza, C., Delgado, R., Gutiérrez, F., Berenguer, J., Garcia-Bujalance, S., Stella, N., De Los Santos, I., Blanco, J. R., Dalmau, D., Rivero, M., Segura, F., Elías, M. J Pérez, Alvarez, M., Chueca, N., Rodríguez-Martín, C., Vidal, C., Palomares, J. C., Viciana, I., Viciana, P., Cordoba, J., Aguilera, A., Domingo, P., Galindo, M. J., Miralles, C., Del Pozo, M. A., Ribera, E., Iribarren, J. A., Ruiz, L., De La Torre, J., Vidal, F., Clotet, B., Albert, J., Heidarian, A., Aperia-Peipke, K., Axelsson, M., Mild, M., Karlsson, A., Sönnerborg, A., Thalme, A., Navér, L., Bratt, G., Blaxhult, A., Gisslén, M., Svennerholm, B., Bergbrant, I., Björkman, P., Säll, C., Mellgren, Lindholm, A., Kuylenstierna, N., Montelius, R., Azimi, F., Johansson, B., Carlsson, M., Johansson, E., Ljungberg, B., Ekvall, H., Strand, A., Mäkitalo, S., Öberg, S., Holmblad, P., Höfer, M., Holmberg, H., Josefson, P., Ryding, U., MMB opleiding Arts microbioloog, MMB Medische Staf, Infection & Immunity, Onderzoek Bob Oranje, Brain, Cardiovasculaire Epi Team 1, MMB Research line 3a, MS Infectieziekten, Circulatory Health, MMB Staf diagnostiek, Hofstra, L. Marije, Sauvageot, Nicolas, Albert, Jan, Alexiev, Ivailo, Garcia, Federico, Struck, Daniel, Van De Vijver, David A M C, Åsjö, Birgitta, Beshkov, Danail, Coughlan, Suzie, Descamps, Diane, Griskevicius, Algirdas, Hamouda, Osamah, Horban, Andrzej, Van Kasteren, Marjo, Kolupajeva, Tatjana, Kostrikis, Leontios G., Liitsola, Kirsi, Linka, Marek, Mor, Orna, Nielsen, Claus, Otelea, Dan, Paraskevis, Dimitrios, Paredes, Roger, Poljak, Mario, Puchhammer-Stöckl, Elisabeth, Sönnerborg, Anders, Staneková, Danica, Stanojevic, Maja, Van Laethem, Kristel, Zazzi, Maurizio, Lepej, Snjezana Zidovec, Boucher, Charles A B, Schmit, Jean Claude, Wensing, Annemarie M J, Puchhammer-Stockl, E., Sarcletti, M., Schmied, B., Geit, M., Balluch, G., Vandamme, A. M., Vercauteren, J., Derdelinckx, I., Sasse, A., Bogaert, M., Ceunen, H., De Roo, A., De Wit, S., Echahidi, F., Fransen, K., Goffard, J. C., Goubau, P., Goudeseune, E., Yombi, J. C., Lacor, P., Liesnard, C., Moutschen, M., Pierard, D., Rens, R., Schrooten, Y., Vaira, D., Vandekerckhove, L. P R, Van Den Heuvel, A., Van Der Gucht, B., Van Ranst, M., Van Wijngaerden, E., Vandercam, B., Vekemans, M., Verhofstede, C., Clumeck, N., Van Laethem, K., Beshkov, D., Alexiev, I., Lepej, S. Zidovec, Begovac, J., Demetriades, I., Kousiappa, I., Demetriou, V., Hezka, J., Linka, M., Maly, M., Machala, L., Nielsen, C., Jørgensen, L. B., Gerstoft, J., Mathiesen, L., Pedersen, C., Nielsen, H., Laursen, A., Kvinesdal, B., Liitsola, K., Ristola, M., Suni, J., Sutinen, J., Descamps, D., Assoumou, L., Castor, G., Grude, M., Flandre, P., Storto, A., Hamouda, O., Kücherer, C., Berg, T., Braun, P., Poggensee, G., Däumer, M., Eberle, J., Heiken, H., Kaiser, R., Knechten, H., Korn, K., Müller, H., Neifer, S., Schmidt, B., Walter, H., Gunsenheimer-Bartmeyer, B., Harrer, T., Paraskevis, D., Hatzakis, A., Zavitsanou, A., Vassilakis, A., Lazanas, M., Chini, M., Lioni, A., Sakka, V., Kourkounti, S., Paparizos, V., Antoniadou, A., Papadopoulos, A., Poulakou, G., Katsarolis, I., Protopapas, K., Chryssos, G., Drimis, S., Gargalianos, P., Xylomenos, G., Lourida, G., Psichogiou, M., Daikos, G. L., Sipsas, N. V., Kontos, A., Gamaletsou, M. N., Koratzanis, G., Sambatakou, E., Mariolis, H., Skoutelis, A., Papastamopoulos, V., Georgiou, O., Panagopoulos, P., Maltezos, E., Coughlan, S., De Gascun, C., Byrne, C., Duffy, M., Bergin, C., Reidy, D., Farrell, G., Lambert, J., O'Connor, E., Rochford, A., Low, J., Coakely, P., O'Dea, S., Hall, W., Mor, O., Levi, I., Chemtob, D., Grossman, Z., Zazzi, M., De Luca, A., Balotta, C., Riva, C., Mussini, C., Caramma, I., Capetti, A., Colombo, M. C., Rossi, C., Prati, F., Tramuto, F., Vitale, F., Ciccozzi, M., Angarano, G., Rezza, G., Kolupajeva, T., Vasins, O., Griskevicius, A., Lipnickiene, V., Schmit, J. C., Struck, D., Sauvageot, N., Hemmer, R., Arendt, V., Michaux, C., Staub, T., Sequin-Devaux, C., Wensing, A. M J, Boucher, C. A B, Van Kessel, A., Van Bentum, P. H M, Brinkman, K., Connell, B. J., Van Der Ende, M. E., Hoepelman, I. M., Van Kasteren, M., Kuipers, M., Langebeek, N., Richter, C., Santegoets, R. M W J, Schrijnders-Gudde, L., Schuurman, R., Van De Ven, B. J M, Åsjö, B., Kran, A. M Bakken, Ormaasen, V., Aavitsland, P., Horban, A., Stanczak, J. J., Stanczak, G. P., Firlag-Burkacka, E., Wiercinska-Drapalo, A., Jablonowska, E., Maolepsza, E., Leszczyszyn-Pynka, M., Szata, W., Camacho, R., Palma, C., Borges, F., Paixão, T., Duque, V., Araújo, F., Otelea, D., Paraschiv, S., Tudor, A. M., Cernat, R., Chiriac, C., Dumitrescu, F., Prisecariu, L. J., Stanojevic, M., Jevtovic, Dj, Salemovic, D., Stanekova, D., Habekova, M., Chabadová, Z., Drobkova, T., Bukovinova, P., Shunnar, A., Truska, P., Poljak, M., Lunar, M., Babic, D., Tomazic, J., Vidmar, L., Vovko, T., Karner, P., Garcia, F., Paredes, R., Monge, S., Moreno, S., Del Amo, J., Asensi, V., Sirvent, J. L., De Mendoza, C., Delgado, R., Gutiérrez, F., Berenguer, J., Garcia-Bujalance, S., Stella, N., De Los Santos, I., Blanco, J. R., Dalmau, D., Rivero, M., Segura, F., Elías, M. J Pérez, Alvarez, M., Chueca, N., Rodríguez-Martín, C., Vidal, C., Palomares, J. C., Viciana, I., Viciana, P., Cordoba, J., Aguilera, A., Domingo, P., Galindo, M. J., Miralles, C., Del Pozo, M. A., Ribera, E., Iribarren, J. A., Ruiz, L., De La Torre, J., Vidal, F., Clotet, B., Albert, J., Heidarian, A., Aperia-Peipke, K., Axelsson, M., Mild, M., Karlsson, A., Sönnerborg, A., Thalme, A., Navér, L., Bratt, G., Blaxhult, A., Gisslén, M., Svennerholm, B., Bergbrant, I., Björkman, P., Säll, C., Mellgren, Lindholm, A., Kuylenstierna, N., Montelius, R., Azimi, F., Johansson, B., Carlsson, M., Johansson, E., Ljungberg, B., Ekvall, H., Strand, A., Mäkitalo, S., Öberg, S., Holmblad, P., Höfer, M., Holmberg, H., Josefson, P., and Ryding, U.

Published
2016

41. Transmission of HIV drug resistance and the predicted effect on current first-line regimens in Europe

Author

Universitat Rovira i Virgili, Hofstra LM, Sauvageot N, Albert J, Alexiev I, Garcia F, Struck D, Van de Vijver DAMC, Åsjö B, Beshkov D, Coughlan S, Descamps D, Griskevicius A, Hamouda O, Horban A, Van Kasteren M, Kolupajeva T, Kostrikis LG, Liitsola K, Linka M, Mor O, Nielsen C, Otelea D, Paraskevis D, Paredes R, Poljak M, Puchhammer-Stöckl E, Sönnerborg A, Staneková D, Stanojevic M, Van Laethem K, Zazzi M, Zidovec Lepej S, Boucher CAB, Schmit JC, Wensing AMJ,, Puchhammer-Stockl E, Sarcletti M, Schmied B, Geit M, Balluch G, Vandamme AM, Vercauteren J, Derdelinckx I, Sasse A, Bogaert M, Ceunen H, De Roo A, De Wit S, Echahidi F, Fransen K, Goffard JC, Goubau P, Goudeseune E, Yombi JC, Lacor P, Liesnard C, Moutschen M, Pierard D, Rens R, Schrooten Y, Vaira D, Vandekerckhove LPR, Van den Heuvel A, Van Der Gucht B, Van Ranst M, Van Wijngaerden E, Vandercam B, Vekemans M, Verhofstede C, Clumeck N, Lepej SZ, Begovac J, Kostrikis L, Demetriades I, Kousiappa I, Demetriou V, Hezka J, Maly M, Machala L, Jørgensen LB, Gerstoft J, Mathiesen L, Pedersen C, Nielsen H, Laursen A, Kvinesdal B, Ristola M, Suni J, Sutinen J, Assoumou L, Castor G, Grude M, Flandre P, Storto A, Kücherer C, Berg T, Braun P, Poggensee G, Däumer M, Eberle J, Heiken H, Kaiser R, Knechten H, Korn K, Müller H, Neifer S, Schmidt B, Walter H, Gunsenheimer-Bartmeyer B, Harrer T, Hatzakis A, Zavitsanou A, Vassilakis A, Lazanas M, Chini M, Lioni A, Sakka V, Kourkounti S, Paparizos V, Antoniadou A, Papadopoulos A, Poulakou G, Katsarolis I, Protopapas K, Chryssos G, Drimis S, Gargalianos P, Xylomenos G, Lourida G, Psichogiou M, Daikos GL, Sipsas NV, Kontos A, Gamaletsou MN, Koratzanis G, Sambatakou H, Mariolis H, Skoutelis A, Papastamopoulos V, Georgiou O, Panagopoulos P, Maltezos E, De Gascun C, Byrne C, Duffy M, Bergin C, Reidy D, Farrell G, Lamber, Universitat Rovira i Virgili, and Hofstra LM, Sauvageot N, Albert J, Alexiev I, Garcia F, Struck D, Van de Vijver DAMC, Åsjö B, Beshkov D, Coughlan S, Descamps D, Griskevicius A, Hamouda O, Horban A, Van Kasteren M, Kolupajeva T, Kostrikis LG, Liitsola K, Linka M, Mor O, Nielsen C, Otelea D, Paraskevis D, Paredes R, Poljak M, Puchhammer-Stöckl E, Sönnerborg A, Staneková D, Stanojevic M, Van Laethem K, Zazzi M, Zidovec Lepej S, Boucher CAB, Schmit JC, Wensing AMJ,, Puchhammer-Stockl E, Sarcletti M, Schmied B, Geit M, Balluch G, Vandamme AM, Vercauteren J, Derdelinckx I, Sasse A, Bogaert M, Ceunen H, De Roo A, De Wit S, Echahidi F, Fransen K, Goffard JC, Goubau P, Goudeseune E, Yombi JC, Lacor P, Liesnard C, Moutschen M, Pierard D, Rens R, Schrooten Y, Vaira D, Vandekerckhove LPR, Van den Heuvel A, Van Der Gucht B, Van Ranst M, Van Wijngaerden E, Vandercam B, Vekemans M, Verhofstede C, Clumeck N, Lepej SZ, Begovac J, Kostrikis L, Demetriades I, Kousiappa I, Demetriou V, Hezka J, Maly M, Machala L, Jørgensen LB, Gerstoft J, Mathiesen L, Pedersen C, Nielsen H, Laursen A, Kvinesdal B, Ristola M, Suni J, Sutinen J, Assoumou L, Castor G, Grude M, Flandre P, Storto A, Kücherer C, Berg T, Braun P, Poggensee G, Däumer M, Eberle J, Heiken H, Kaiser R, Knechten H, Korn K, Müller H, Neifer S, Schmidt B, Walter H, Gunsenheimer-Bartmeyer B, Harrer T, Hatzakis A, Zavitsanou A, Vassilakis A, Lazanas M, Chini M, Lioni A, Sakka V, Kourkounti S, Paparizos V, Antoniadou A, Papadopoulos A, Poulakou G, Katsarolis I, Protopapas K, Chryssos G, Drimis S, Gargalianos P, Xylomenos G, Lourida G, Psichogiou M, Daikos GL, Sipsas NV, Kontos A, Gamaletsou MN, Koratzanis G, Sambatakou H, Mariolis H, Skoutelis A, Papastamopoulos V, Georgiou O, Panagopoulos P, Maltezos E, De Gascun C, Byrne C, Duffy M, Bergin C, Reidy D, Farrell G, Lamber

Abstract

© The Author 2015. Background. Numerous studies have shown that baseline drug resistance patterns may influence the outcome of antiretroviral therapy. Therefore, guidelines recommend drug resistance testing to guide the choice of initial regimen. In addition to optimizing individual patient management, these baseline resistance data enable transmitted drug resistance (TDR) to be surveyed for public health purposes. The SPREAD program systematically collects data to gain insight into TDR occurring in Europe since 2001. Methods. Demographic, clinical, and virological data from 4140 antiretroviral-naive human immunodeficiency virus (HIV)-infected individuals from 26 countries who were newly diagnosed between 2008 and 2010 were analyzed. Evidence of TDR was defined using the WHO list for surveillance of drug resistance mutations. Prevalence of TDR was assessed over time by comparing the results to SPREAD data from 2002 to 2007. Baseline susceptibility to antiretroviral drugs was predicted using the Stanford HIVdb program version 7.0. Results. The overall prevalence of TDR did not change significantly over time and was 8.3% (95% confidence interval, 7.2%-9.5%) in 2008-2010. The most frequent indicators of TDR were nucleoside reverse transcriptase inhibitor (NRTI) mutations (4.5%), followed by nonnucleoside reverse transcriptase inhibitor (NNRTI) mutations (2.9%) and protease inhibitor mutations (2.0%). Baseline mutations were most predictive of reduced susceptibility to initial NNRTI-based regimens: 4.5% and 6.5% of patient isolates were predicted to have resistance to regimens containing efavirenz or rilpivirine, respectively, independent of current NRTI backbones. Conclusions. Although TDR was highest for NRTIs, the impact of baseline drug resistance patterns on susceptibi

Published
2016

42. Increase in transmitted resistance to non-nucleoside reverse transcriptase inhibitors among newly diagnosed HIV-1 infections in Europe

Author

Moutschen, M., Frentz, D., Van de Vijver, D. A. M. C., Abecasis, A. B., Albert, Jan, Hamouda, O., Jørgensen, L. B., Ku¨cherer, C., Struck, D., Schmit, J. -C, Vercauteren, J., A˚sjo¨, B., Balotta, Claudia, Beshkov, Danail, Camacho, Ricardo J., Clotet, B., Coughlan, S., Griskevicius, A., Grossman, Z., Horban, A., Kolupajeva, T., Korn, K., Kostrikis, Leontios G., Liitsola, K., Linka, M., Nielsen, C., Otelea, D., Paraskevis, Dimitrios N., Paredes, R., Poljak, M., Puchhammer, Stockl E., So¨nnerborg, A., Stanekova, D., Stanojevic, M., Van Wijngaerden, E., Wensing, A. M. J., Boucher, C. A. B., Sarcletti, M., Schmied, B., Geit, M., Balluch, G., Vandamme, A. -M, Derdelinckx, I., Sasse, A., Bogaert, M., Ceunen, H., De Roo, A., De Wit, S., Echahidi, F., Fransen, K., Goffard, J. -C, Goubau, P., Goudeseune, E., Yombi, J. -C, Lacor, P., Liesnard, C., Pierard, D., Rens, R., Schrooten, Y., Vaira, D., Vandekerckhove, L. P. R., Van den Heuvel, A., Van Der Gucht, B., Van Ranst, M., Vandercam, B., Vekemans, M., Verhofstede, C., Clumeck, N., Van Laethem, K., Demetriades, Ioannis, Kousiappa, Ioanna, Demetriou, Victoria L., Hezka, Johana, Bruckova, M., Machala, L., Gerstoft, J., Mathiesen, L., Pedersen, C., Nielsen, H., Laursen, A., Kvinesdal, B., Salminen, M., Ristola, M., Suni, J., Sutinen, J., Berg, T., Braun, P., Poggensee, G., Da¨umer, M., Eberle, J., Heiken, H., Kaiser, R., Knechten, H., Mu¨ller, H., Neifer, S., Schmidt, B., Walter, H., Gunsenheimer-Bartmeyer, B., Harrer, T., Hatzakis, Angelos E., Magiorkinis, Emmanouil N., Hatzitheodorou, Eleni, Haida, Catherine, Zavitsanou, Assimina, Magiorkinis, Gkikas, Lazanas, Marios C., Chini, Maria C., Magafas, N., Tsogas, Nickolaos, Paparizos, Vassilios A., Kourkounti, Sofia, Antoniadou, Anastasia C., Papadopoulos, Antonios I., Panagopoulos, Periklis, Poulakou, Garyphallia G., Sakka, V., Chryssos, Georgios, Drimis, Stylianos, Gargalianos, Panagiotis, Lelekis, Moyssis I., Chilomenos, G., Psichogiou, Mina A., Daikos, George L., Panos, George, Haratsis, G., Kordossis, Theodore, Kontos, Athanasios N., Koratzanis, Georgios, Theodoridou, Maria C., Mostrou, Glykeria J., Spoulou, Vana I., De Gascun, C., Byrne, C., Duffy, M., Bergin, C., Reidy, D., Farrell, G., Lambert, J., O'Connor, E., Rochford, A., Low, J., Coakely, P., O'Dea, S., Hall, W., Levi, I., Chemtob, D., Riva, C., Mussini, C., Caramma, I., Capetti, A., Colombo, M. C., Rossi, C., Prati, F., Tramuto, F., Vitale, F., Ciccozzi, M., Angarano, G., Rezza, G., Schmit, J. C., Hemmer, R., Arendt, V., Staub, T., Schneider, F., Roman, F., van Kessel, A., van Bentum, P. H. M., Brinkman, K., op de Coul, E. L., van der Ende, M. E., Hoepelman, I., van Kasteren, M., Juttmann, J., Kuipers, M., Langebeek, N., Richter, C., Santegoets, R., Schrijnders-Gudde, L., Schuurman, R., van de Ven, B. J. M., Ormaasen, V., Aavitsland, P., Stanczak, J. J., Stanczak, G. P., Firlag-Burkacka, E., Wiercinska-Drapalo, A., Jablonowska, E., Malolepsza, E., Leszczyszyn-Pynka, M., Szata, W., Palma, C., Borges, F., Paixa&tild, o, T., Duque, V., Araújo, F., Jevtovic, D., Salemovic, D., Habekova, M., Mokráš, Miloš, Truska, P., Lunar, M., Babic, Dunja Z., Tomazic, J., Vidmar, L., Vovko, T., Karner, P., Domingo, P., Galindo, M. J., Miralles, C., del Pozo, M. A., Ribera, E., Iribarren, J. A., Ruiz, L., de la Torre, J., Vidal, F., Garcia, F., Heidarian, A., Aperia-Peipke, K., Axelsson, M., Mild, M., Karlsson, A., Thalme, A., Nave´r, L., Bratt, G., Blaxhult, A., Gissle´n, M., Svennerholm, B., Bergbrant, I., Björkman, Per, Sa¨ll, C., Mellgren, A˚, Lindholm, A., Kuylenstierna, N., Montelius, R., Azimi, F., Johansson, B., Carlsson, M., Johansson, E., Ljungberg, B., Ekvall, H., Strand, A., Ma¨kitalo, S., o¨berg, S., Holmblad, P., Ho¨fer, M., Holmberg, H., Josefson, P., Ryding, U., Van Kessel, A., Kostrikis, Leontios G. [0000-0002-5340-7109], Paraskevis, Dimitrios [0000-0001-6167-7152], Virology, Erasmus MC other, Frentz, Dineke, Van de Vijver, David A.M.C., Abecasis, Ana B., Albert, Jan, Hamouda, Osamah, Jørgensen, Louise B., Ku¨cherer, Claudia, Struck, Daniel, Schmit, Jean-Claude, Vercauteren, Jurgen, A˚sjo¨, Birgitta, Balotta, Claudia, Beshkov, Danail, Camacho, Ricardo J., Clotet, Bonaventura, Coughlan, Suzie, Griskevicius, Algirda, Grossman, Zehava, Horban, Andrzej, Kolupajeva, Tatjana, Korn, Klau, Kostrikis, Leondios G., Liitsola, Kirsi, Linka, Marek, Nielsen, Clau, Otelea, Dan, Paraskevis, Dimitrio, Paredes, Roger, Poljak, Mario, Puchhammer-Sto¨ckl, Elisabeth, So¨nnerborg, Ander, Stanekova, Danica, Stanojevic, Maja, Van Wijngaerden, Eric, Wensing, Annemarie M.J., Boucher, Charles A.B., SPREAD programme investigators, including Vitale F and Tramuto F., Graduate School, UCL - SSS/IREC/MBLG - Pôle de Microbiologie médicale, UCL - (SLuc) Service de microbiologie, UCL - (SLuc) Service de médecine interne générale, UCL - (SLuc) Service d'hématologie, Clinicum, and Department of Medicine

Subjects
Male, virus strain, Resistance, HIV Infections, Drug resistance, THERAPY, Nucleoside Reverse Transcriptase Inhibitor, ANTIRETROVIRAL DRUG-RESISTANCE, 0302 clinical medicine, Medical microbiology, Genotype, Medicine and Health Sciences, Prevalence, HIV Infection, 030212 general & internal medicine, UNITED-KINGDOM, Phylogeny, 0303 health sciences, Communicable disease, Transmission (medicine), adult, virus mutation, UPDATED RECOMMENDATIONS, virus transmission, 3. Good health, Europe, Infectious Diseases, female, risk factor, virus resistance, Female, NAIVE PATIENTS, SOCIETY-USA PANEL, Research Article, Human, Adult, medicine.medical_specialty, Anti-HIV Agents, Virus, Article, 03 medical and health sciences, SDG 3 - Good Health and Well-being, male, MOLECULAR EPIDEMIOLOGY, Drug Resistance, Viral, medicine, proteinase inhibitor, Humans, Transmission, controlled study, human, molecular phylogeny, 030304 developmental biology, nonhuman, MUTATIONS, business.industry, Anti-HIV Agent, nucleotide sequence, nonnucleoside reverse transcriptase inhibitor, Human immunodeficiency virus 1 infection, Virology, major clinical study, unindexed sequence, Parasitology, 3121 General medicine, internal medicine and other clinical medicine, Mutation, HIV-1, business
Abstract

Background: One out of ten newly diagnosed patients in Europe was infected with a virus carrying a drug resistant mutation. We analysed the patterns over time for transmitted drug resistance mutations (TDRM) using data from the European Spread program.Methods: Clinical, epidemiological and virological data from 4317 patients newly diagnosed with HIV-1 infection between 2002 and 2007 were analysed. Patients were enrolled using a pre-defined sampling strategy.Results: The overall prevalence of TDRM in this period was 8.9% (95% CI: 8.1-9.8). Interestingly, significant changes over time in TDRM caused by the different drug classes were found. Whereas nucleoside resistance mutations remained constant at 5%, a significant decline in protease inhibitors resistance mutations was observed, from 3.9% in 2002 to 1.6% in 2007 (p = 0.001). In contrast, resistance to non-nucleoside reverse transcriptase inhibitors (NNRTIs) doubled from 2.0% in 2002 to 4.1% in 2007 (p = 0.004) with 58% of viral strains carrying a K103N mutation. Phylogenetic analysis showed that these temporal changes could not be explained by large clusters of TDRM.Conclusion: During the years 2002 to 2007 transmitted resistance to NNRTI has doubled to 4% in Europe. The frequent use of NNRTI in first-line regimens and the clinical impact of NNRTI mutations warrants continued monitoring. © 2014 Frentz et al. licensee BioMed Central Ltd. 14 Cited By :16

Published
2014

46. Epstein-Barr-Virus-Infektionen

Author

Schuster, V, Korn, K, Nadal, D, Wagner, H J, University of Zurich, Berner, R, Bialek, R, Borte, M, et al, and Nadal, D

Subjects
10036 Medical Clinic, 610 Medicine & health
Published
2013

47. HIV-1 subtype distribution and its demographic determinants in newly diagnosed patients in Europe suggest highly compartmentalized epidemics

Author

Abecasis, A.B. Wensing, A.M.J. Paraskevis, D. Vercauteren, J. Theys, K. Van de Vijver, D.A.M.C. Albert, J. Asjö, B. Balotta, C. Beshkov, D. Camacho, R.J. Clotet, B. De Gascun, C. Griskevicius, A. Grossman, Z. Hamouda, O. Horban, A. Kolupajeva, T. Korn, K. Kostrikis, L.G. Kücherer, C. Liitsola, K. Linka, M. Nielsen, C. Otelea, D. Paredes, R. Poljak, M. Puchhammer-Stöckl, E. Schmit, J.-C. Sönnerborg, A. Stanekova, D. Stanojevic, M. Struck, D. Boucher, C.A.B. Vandamme, A.-M.

Abstract

Background: Understanding HIV-1 subtype distribution and epidemiology can assist preventive measures and clinical decisions. Sequence variation may affect antiviral drug resistance development, disease progression, evolutionary rates and transmission routes.Results: We investigated the subtype distribution of HIV-1 in Europe and Israel in a representative sample of patients diagnosed between 2002 and 2005 and related it to the demographic data available. 2793 PRO-RT sequences were subtyped either with the REGA Subtyping tool or by a manual procedure that included phylogenetic tree and recombination analysis. The most prevalent subtypes/CRFs in our dataset were subtype B (66.1%), followed by sub-subtype A1 (6.9%), subtype C (6.8%) and CRF02_AG (4.7%). Substantial differences in the proportion of new diagnoses with distinct subtypes were found between European countries: the lowest proportion of subtype B was found in Israel (27.9%) and Portugal (39.2%), while the highest was observed in Poland (96.2%) and Slovenia (93.6%). Other subtypes were significantly more diagnosed in immigrant populations. Subtype B was significantly more diagnosed in men than in women and in MSM > IDUs > heterosexuals. Furthermore, the subtype distribution according to continent of origin of the patients suggests they acquired their infection there or in Europe from compatriots.Conclusions: The association of subtype with demographic parameters suggests highly compartmentalized epidemics, determined by social and behavioural characteristics of the patients. © 2013 Abecasis et al.; licensee BioMed Central Ltd.

Published
2013

48. Consensus statement of the European guidelines on clinical management of HIV-1 tropism testing

Author

Vandekerckhove, L.P.R., Wensing, A.M.J., Kaiser, R., Brun-Vezinet, F., Clotet, B., De Luca, A., Dressler, S., Garcia, F., Geretti, A.M., Klimkait, T., Korn, K., Masquelier, B., Perno, C.F., Schapiro, J., Soriano, V., Sönnerborg, A., Vandamme, À.M., Verhofstede, C., Walter, H., Zazzi, M., and Boucher, C.A.

Subjects
HIV (Viruses) -- Testing, Practice guidelines (Medicine) -- Evaluation, Tropisms -- Testing, Health
Abstract

7‐11 November 2010, Tenth International Congress on Drug Therapy in HIV Infection, Glasgow, UK, Introduction Testing for HIV tropism is recommended before prescribing a chemokine receptor blocker. To date, in most European countries HIV tropism is determined using a phenotypic test. Recently, new data [...]

Published
2010
Full Text
View/download PDF

49. WEAA0103: Production and characterization of human anti-V3 monoclonal antibodies from Indian clade C human immunodeficiency virus type-1 (HIV-1) infected patients

Author

Sargeant, D., Deverasetty, S., Luo, Y., Villahoz-Baleta, A., Zobrist, S., Rathnayake, V., Russo, J., Muesing, M., Schiller, M., Andrabi, R., Kumar, R., Bala, M., Nair, A., Biswas, A., Wig, N., Kumar, P., Luthra, K., Gonzalez, N., McKee, K., Yuste, E., Mascola, J.R., Alcamí, J., Vojnov, L., Martins, M., Bean, A., Veloso de Santana, M., Sacha, J., Wilson, N., Bonaldo, M., Galler, R., Stevenson, M., Watkins, D., Aziz, M., Mata, M., Mahmood, F., Durkin, H., Liu, C., Greenblatt, R., Nowicki, M., Golub, E., Anastos, K., French, A., Baum, L., Wacleche, V.S., Chomont, N., Gosselin, A., Monteiro, P., Goupil, M., Kared, H., Tremblay, C., Bernard, N., Boulassel, M.-R., Routy, J.-P., Ancuta, P., Jadlowsky, J., Baiduc, C., Richardson, M., Bennett, A., Jakobsen, B., Riley, J.L., Vingert, B., Benati, D., Lambotte, O., de Truchis, P., Slama, L., Jeannin, P., Perez-Patrigeon, S., Boufassa, F., Kwok, W.W., Lemaître, F., Delfraissy, J.-F., Thèze, J., Chakrabarti, L.A., French, M., Center, R., Wilson, K., Fleyfel, I., Fernandez, S., Kelleher, A., An, P., Goedert, J., Donfield, S., Buchbinder, S., Kirk, G., Detels, R., Winkler, C., Lajoie, J., Juno, J., Burgener, A., Rahman, S., Mogk, K., Wachihi, C., Mwanjewe, J., Plummer, F.A., Kimani, J., Ball, T.B., Fowke, K.R., Fowke, K., Dieye, T.N., Chentouffi, A., Camara, M., Sarr, S., Tran, M.V., Seydi, M., Dasgupta, G., Fall, M., Daneau, G., Diaw, P.A., Kestens, L., Sow, P.S., Mboup, S., Benmohamed, L., Asmuth, D.M., Ma, Z.-M., Albanese, A., Devaraj, S., Hodzic, E., Garcia, J.-C., Knight, T.H., Flynn, N.M., Mann, S., Yotter, T., Tsuchida, E., Miller, C.J., Pallikkuth, S., Micci, L., Ende, Z., Iriele, R., Cervasi, B., Else, J., Silvestri, G., Villinger, F., Pahwa, S., Paiardini, M., Solomon, S., Murugavel, K.G., Vignesh, R., Bella, D., Shoba, R., Poongulali, S., Kumarasamy, N., Landay, A., Solomon, S.S., Swathirajan, C.R., Balakrishnan, P., Cu-Uvin, S., Mayer, K.H., Shacklett, B.L., Palmer, C.S., Zhou, J., Saleh, S., Lam, L., Hearps, A., Maisa, A., Pereira, C., Lewin, S., Jaworowski, A., McCune, J.M., Crowe, S., Doitsh, G., Galloway, N., Monroe, K., Yang, Z., Zepeda, O., Greene, W.C., Patel, M., Jenabian, M.-A., Lebouché, B., Brouillette, M.-J., Kema, I., Al-Ghazawi, F., Faller, E., Parmar, P., Kakal, J., MacPherson, P., Sugden, S., Sant, N., Vinton, C., Brenchley, J., Tabb, B., Hao, X.P., Hirsch, V.M., Lifson, J., Estes, J.D., Bushman, F., Sherrill-Mix, S., Ocwieja, K., Mukherjee, R., Brown, M., Chin, J., Custers-Allen, R., David, P., Olson, J., Travers, K., Schadt, E., Sánchez del Cojo, M., López-Huertas, M.R., Mateos, E., Coiras, M., Sampey, G., Van Duyne, R., Guendel, I., Gregg, E., Shafagati, N., Tyagi, M., Easely, R., Klase, Z., Romerio, F., Iglesias-Ussel, M., Nekhai, S., Kehn-Hall, K., Kashanchi, F., Kumar, N., Evans, V., Pereira, C.F., Ellenberg, P., Cameron, P.U., Lewin, S.R., Gray, L., Cowley, D., Crespan, E., Welsh, C., Mackenzie, C., Gorry, P., Wesselingh, S., Churchill, M., Marchionni, L., Weber, S., Burger, H., Kemal, K., Weiser, B., Korn, K., Doerfler, W., Vatakis, D., Cameron, P., Harman, A., Cunningham, A., Ma, D., Cillo, A., Xu, C.L., Kristoff, J., Fang, J., Haret-Richter, G., Mellors, J., Pandrea, I., Apetrei, C., Trinité, B., Ohlson, E., Rana, S., Alster, J., Levy, D.N., Victoriano, A.F.B., Hibi, Y., Tan Gana, N., Asamitsu, K., Okamoto, T., Marsden, M., Kovochich, M., Suree, N., Shimizu, S., Mehta, R., Cortado, R., Bristol, G., An, D.S., Zack, J., Madrid-Elena, N., Hernandez-Novoa, B., Lamas, M., Garcia-Bermejo, L., Moreno, S., Ruel, T., Achan, J., Huang, W., Cao, H., Li, P., Eller, L.A., Killian, M., Sinclair, E., Charlebois, E., Havlir, D.V., Wong, J., Henrich, T.J., Sciaranghella, G., Li, J.Z., Gallien, S., Ho, V., Lacasce, A.S., Kuritzkes, D.R., Del Prete, G., Kiser, R., Trubey, C.M., Smedley, J., Coalter, V., Oswald, K., Shoemaker, R., Fast, R., Li, Y., Lara, A., Wiles, A., Wiles, R., Macallister, R., Sanchez, R., Wai, J., Tan, C., Keele, B., Estes, J., Piatakjr, M., Hazuda, D., Symons, J., Deeks, S., Hutter, G., Wensing, A., Martin, J., van Ham, P., Vandekerckhove, L., Nijhuis, M., Kline, C., Ndjomou, J., Franks, T., Piatak, M., Ambrose, Z., Josefsson, L., Eriksson, S., Ho, T., Epling, L., Tan, A., Lemey, P., Faria, N.R., Shao, W., Hunt, P., Somsouk, M., Douek, D., Bacchetti, P., Loeb, L., Custer, J., Poole, L., Hecht, F.M., Palmer, S., Kikuchi, T., Iwabu, Y., Kawana-Tachikawa, A., Koga, M., Hosoya, N., Nomura, S., Brumme, Z.L., Jessen, H., Markowitz, M., Pereyra, F., Trocha, A., Walker, B.D., Iwamoto, A., Tokunaga, K., Miura, T., Bacchus, C., Hocqueloux, L., Avettand-Fenoël, V., Saez-Cirion, A., Mélard, A., Descours, B., Samri, A., Blanc, C., Autran, B., Rouzioux, C., Zink, M.C., Graham, D.R., Gama, L., Queen, S.E., Meulendyke, K.A., Mankowski, J.L., Clements, J.E., Beima-Sofie, K., Bigham, A., Lingappa, J.R., Wamalwa, D., Mackelprang, R.D., Maleche-Obimbo, E., Richardson, B., John-Stewart, G., Mackelprang, R., Celum, C., de Bruyn, G., Beima, K., Ronald, A., Mugo, N., Rainer, A., Buckingham, K., Bamshad, M., Mullins, J., McElrath, J., Lingappa, J., Madlala, P., Singh, R., Werner, L., Sibeko, S., Karim, S.S.A., Winkler, C.A., Ndung'u, T., Peterson, T., Bielawny, T., Mendoza, L., Thavaneswaran, S., Narayansingh, M., Kariri, T., Liang, B., Ngugi, E., Plummer, F., Luo, M., Kajaste-Rudnitski, A., Marelli, S., Poli, G., Berkhout, B., Das, A.T., Vicenzi, E., De Pasquale, M., Kourteva, Y., Allos, T., D'Aquila, R., Blackinton, J., Thompson, M., Mukherjee, N., Freel, S., Tomaras, G., Keene, J., Roan, N., Muller, J., Gawanbacht, A., Zirafi, O., Chu, S., Kirchhoff, F., Munch, J., Greene, W., Chandra, N., Thurman, A., Anderson, S., Cunningham, T., Mauck, C., Doncel, G., Introini, A., Vanpouille, C., Lisco, A., Grivel, J.-C., Munawwar, A., Singh, S., Margolis, L., Dinh, M., Anderson, M., Gioia, C., McRaven, M., Okocha, Z., Cianci, G., Hirbod, T., Kigozi, G., Prodger, J., Kaul, R., Kong, X., Gray, R., Hope, T., Nawaz, F., Cicala, C., Van Ryk, D., Wei, D., Pascuccio, M., Shrestha, S., Knox, J., Schwing, C., Hiatt, J., Chang, J., Jelicic, K., Fauci, A., Arthos, J., Fecek, R., Mailliard, R., Rinaldo, C., Martinez-Maza, O., Magpantay, L., Phair, J., Bream, J.H., Rinaldo, C.R., Jacobson, L.P., Chahroudi, A., Carnathan, D., Carnathan, P., Christ, F., Pickford, C., Demeulemeester, J., Shaw, S., Desimmie, B.A., Smith-Burchnell, C., Butler, S., Westby, M., Debyser, Z., Johnson, T., Clark, M., Clark, J., Shelke, N., Friend, D., Kiser, P., Hofmann-Sieber, H., Hauber, I., Chemnitz, J., Grundhoff, A., Chusainow, J., Schambach, A., Baum, C., Ziegler, P., Manz, M., Buchholz, F., Hauber, J., Kitchen, S., Levin, B., Rezek, V., Kim, S., Aguilera-Sandoval, C., Balamurugan, A., Yang, O., Chang, L.-J., Alkhatib, G., Huang, L.-M., Chen, Y., Yeh, Y., Dey, A., Kassa, A., Nandi, A., Sarkar, P., Sun, Y., Hartog, K., Labranche, C., Montefiori, D., Srivastava, I., Carfi, A., Barnett, S., Gulzar, N., Montero, M., Klaric, K.-A., Lepik, C., Donald, J., Tsai, S., Wu, S., Wang, S., Degrado, W., Lu, S., Scott, J.K., Tang, D., Capina, R., Yuan, X.-Y., Prego, C., Pinto, J.C., Alonso, M., Barry, C., Pilon, R., Daniuk, C., Tuff, J., Pillet, S., La, D., Czarnecki, C., Lacap, P., Peters, H., Wong, G., Kimani, M., Ball, T., Sandstrom, P., Kobinger, G., Vaccari, M., Cameron, M., Liyanage, N., Pegu, P., Gordon, S., Doster, M., Sekaly, R.-P., Franchini, G., Tran Thi Thanh, H., Van den Bergh, R., Massinga-Loembe, M., Colebunders, R., De Baetselier, P., Raes, G., Santos-Oliveira, J., Giacoia-Gripp, C., Regis, E., Alexandrino-Oliveira, P., Amato, V., Lindoso, J.A., Goto, H., Guerra, J., Mattos, M., Oliveira-Neto, M., Grinzstejn, B., Morgado, M., Da-Cruz, A., Tugizov, S., Herrera, R., Veluppillai, P., Greenspan, D., Palefsky, J., Thaisri, H., Moriuchi, M., Tsuchiya, N., Rojanawiwat, A., Pathipvanich, P., Sawanpanyalert, P., Ariyoshi, K., Moriuchi, H., Fitzgerald, W., Ngwende, S., Mudenge, B., Madzimure, D., and Mudenge, G.

Subjects
A53 - Mycobacteria and tuberculosis, AIDS2012 Abstract Supplement, A32 - Host restriction factors including APOBEC, TRIM and others, A10 - Mucosal immunity/defenses: responses and dysfunction, A38 - Mother-to-child transmission, A40 - Preclinical development of microbicides, A57 - Novel assays for virological monitoring, A14 - Pathogenesis in gut, lymphoid tissues and bone marrow, A39 - Preclinical HIV drug development, A34 - Mucosal transmission, A12 - Mechanisms of activation / inflammation and impact in pathogenesis, A25 - Cellular elements necessary for HIV replication, A42 - Nucleic acid-based HIV and SIV therapies, A56 - Novel assays of immune responses, A31 - Host genetics of resistance and susceptibility, A8 - Virus-specific cellular immunity, A37 - Highly exposed seronegative individuals (HESN), A9 - Immune responses in resistant cohorts: elite controlers and exposed uninfected, A4 - Bioinformatic analysis of viral diversity in natural, A27 - Viral mechanisms of persistence and latency, A55 - Interactions with other pathogens, A23 - Regulation of gene expression and latency, A28 - Mechanisms of eradication, Public Health, Environmental and Occupational Health, Infectious Diseases, A7 - Virus-specific humoral immunity, A33 - Systems biology approaches to HIV infection, A44 - T cell-based vaccines, A43 - B cell-based vaccines, A29 - Tissue reservoirs, A30 - Host cellular factors and latency, A36 - Acute and early HIV infection, A13 - Mechanisms of T cell depletion and dysfunction, A45 - Novel vectors and strategies
Abstract

Background Many HIV databases and applications focus on a limited domain of HIV knowledge. Since even a “simple” organism like HIV represents a very complex system with many interacting elements, the fractured structure of existing databases and applications likely limits our ability to investigate and understand HIV. To facilitate research, therefore, we have built HIVToolbox, which integrates much of the knowledge about HIV proteins and presents the data in an interactive web application. HIVToolbox allows quick and convenient hypotheses generation, experiment interpretation, and potential new drug structure creation. Methods HIVToolbox was built as a standard three-tier J2EE web application, consisting of 1) an underlying relational MySQL database, 2) a set of standard Java data access objects that pull data from the database, and 3) a set of dynamic web pages the user interacts with. HIV-1 data from external sources such as the Protein Data Bank, NCBI, Los Alamos, etc. was collected, curated, and stored in the HIVToolbox database. Additional data, such as homology and position statistics matrices, was generated from existing data. Since version 1, drug binding site and drug resistant mutation data has also been added. Results HIVToolbox was used to create several new hypotheses about HIV-1 integrase, including predicting the location of a CK2 phosphorylation site, which was later confirmed by experiment. A new version of HIVToolbox support display of the 3D locations of drug resistant mutations on surface plots of HIV proteins and the drug binding sites for structures of complexes of HIV proteins with drugs. Conclusion HIVToolbox is an open-access web application that allows virologists and structural biologists to access detailed information about HIV-1 proteins, such as sequence, structure, functional sites and relationships, homology, drug binding sites, and drug resistant mutations, and to immediately see the relationships between any or all of them. Weblink: [http://hivtoolbox.bio-toolkit.com], Background Analysis of human monoclonal antibodies (mAbs) developed from HIV-1 infected donors have enormously contributed to the identification of neutralization sensitive epitopes on the HIV-1 envelope glycoprotein. The third variable region (V3) is a crucial target on gp120, primarily due to its involvement in co-receptor (CXCR4 or CCR5) binding and presence of epitopes recognized by broadly neutralizing antibodies. Methods Thirty-three HIV-1 seropositive drug naive patients (18 males and 15 females) within the age range of 20-57 years (median=33 years) were recruited in this study for mAb production. The mAbs were selected from EBV transformed cultures with conformationally constrained Cholera-toxin-B containing V3C (V3C-CTB) fusion protein. We tested the mAbs for their binding with HIV-1 derived proteins and peptides by ELISA and for neutralization against HIV-1 viruses by TZM-bl assays. Results We isolated three anti-V3 mAbs, 277, 903 and 904 from the cells of different individuals. The ELISA binding revealed a subtype-C and subtype-A specific binding of antibody 277 and 903 while 904 exhibited cross reactivity also with subtype-B V3. Epitope mapping of mAbs with overlapping V3 peptides showed exclusive binding to V3 crown. The antibodies displayed high and low neutralizing activity against 2/5 tier 1 and 1/6 tier 2 viruses respectively. Overall, we observed a resistance of the tier 2 viruses to neutralization by the anti-V3 mAbs, despite exposure of the epitopes recognized by these antibodies on the native viruses, as determined by intact virion binding assay with two representative subtype-C and B viruses (Du156.12 and JRFL). Conclusion Our study suggests that the anti-V3 antibodies derived from subtype-C infected Indian patients display neutralization potential against tier 1 viruses. Defining the epitope specificities of these mAbs and further experimental manipulations will be helpful in identification of epitopes, unique to clade C or shared with non-clade C viruses, for immunogen design., Background One major obstacle to induce bNAbs resides in the high variability of the viral envelope and structural mechanisms hiding crucial epitopes. Besides, maturation of bNAbs against HIV represents a difficult process that can be impaired by the immunodeficiency associated with HIV infection. We have explored the hypothesis that preserved B cell function in LTNPs could result in the production of bNAbs at higher frequency and increased affinity in comparison with HIV progressors. Methods Samples (142) from the cohort of LTNPs (median RNA copies/ml: 87, median CD4+: 802 cells/µl) were kindly provided by the HIV BioBank integrated in the Spanish AIDS Research Network (RIS). A control population of 191 untreated patients (median RNA copies/ml: 10,241, median CD4+: 567 cells/µl) from Hospital Clinic, Barcelona, was analyzed. Sera at 1/200 and 1/2000 dilutions were preincubated with Env recombinant viruses harboring a luciferase gene and then added to U87.CD4.CXCR4/CCR5. bNAbs specificities were studied by ELISA using mutated gp120 that abrogates antibody binding, competition ELISA with biotinylated antibodies, neutralization assays with mutated viruses and peptide competition neutralization assays. Results The percentage of elite neutralizers was higher in the LTNPs (9.3%) than in the control population (3.7%). Broadly neutralizing sera were screened for the presence of epitope-specific antibodies. CD4 binding site antibodies were detected in several sera. To determine whether these antibodies were responsible for broad neutralization, competition neutralization assays using RSC3 (antigenically resurfaced glycoprotein containing the CD4bs) were performed. RSC3 addition inhibited neutralization mediated by 16.7% of sera in LTNPs and 12.5% sera of the control population. Anti-MPER antibodies were detected in 50% individuals of both populations, including several sera with 4E10-like antibodies. Glycan-dependent HIV-1 NAbs were more abundant in LTNPs (66%) than in control population (37%). Conclusion Broad humoral immune responses against HIV-1 were more common among LTNP than a control population of untreated HIV-1-infected donors., Background HIV/SIV primarily infect activated CD4+ T cells, but can infect macrophages. Because of the relatively small percentage of infected macrophages, the interaction between antigen-specific CD8+ T cells and infected macrophages in HIV/SIV infection has been poorly studied. We, therefore, sought to determine whether SIV-specific CD8+ T cells could control viral replication in infected macrophages. Methods We wanted to ascertain whether ex vivo tetramer-sorted SIV-specific CD8+ T cells could suppress viral replication in SIVmac239/316e- and SIVsmE660-infected macrophages using a recently developed 48-hour viral suppression assay. We reasoned that freshly sorted CD8+ T cells might be more representative of the in vivo properties of CD8+ T cells than in vitro cultured cell lines and clones. Results Surprisingly, both ex vivo tetramer-sorted SIV-specific CD8+ T cells and bulk CD8+ T cells that eliminated and suppressed viral replication in SIV-infected CD4+ T cells were inefficient at controlling viral replication in SIV-infected macrophages. Our data suggest that macrophages may be an important reservoir for SIV because it may be difficult for SIV-specific CD8+ T cells to suppress viral replication in this particular cell type. Conclusion It is possible, therefore, that while AIDS virus-infected macrophages only constitute a small percentage of all virus-infected cells, they may be relatively resistant to CD8+ T cell-mediated lysis and continue to produce virus over long periods of time. Thus, macrophages could actually be contributing significantly to viral production. Induction of HIV/SIV-specific CD8+ T cells capable of killing infected macrophages or preventing establishment of the macrophage reservoir HIV might be critical for controlling viral replication., Background The potential role of ADCC in prevention of infection is suggested by the RV144 HIV vaccine trial where non-neutralizing antibodies contributed to protection against infection with HIV. Studies from Kenya showed that HIV specific IgA in cervical fluid was present in uninfected sex workers. We aimed to analyze cervicovaginal lavage fluid(CVL) from 2 seroconverters (SC) and 10 highly exposed seronegative women who had unprotected sex with known positive partners. Methods A 51Cr-release assay with natural killer cells or monocytes as effectors was used to measure IgG or IgA mediated ADCC against clade specific gp120 coupled target cells. We analyzed CVL from ESN at one visit, and SC at intervals from one yr pre-seroconversion (PSC) to 6.5 yr after seroconversion (ASC). We evaluated activity at 4, 10 fold serial dilutions starting with a 1/10 dilution. Results Figure 1 (top)shows shows minimal to no activity of IgG mediated ADCC in the CVL of 10 ESN. Figure 1(bottom) shows IgA mediated ADCC in the CVL of the same 10 ESN. 4 patients show significant activity above background activity. At the peak dilution, patient 4 shows 27.3% Specific Release (SR), patient 6 shows 14.5 %SR, patient 8 shows 17.9 %SR and patient 10 shows 17.6 %SR. Figure 2 and 3 shows no IgA mediated ADCC activity in CVL of 2 seroconverters from PSC to 6.5 years ASC even while IgG activity is present in later visits. Conclusion HIV IgA in CVL samples was associated with ADCC and lack of HIV infection in exposed women, indicating that genital HIV IgA may contribute to protection from infection. Further studies need to be done to determine if IgA mediated ADCC antibodies may be protective in ESN., Background CD4+ T-cells from gut-associated lymphoid tissues (GALT) are major HIV-1 targets. Recruitment of excess effector CD8+ T-cells in the proximity of target cells is critical for the control of viral replication. We investigated the colocalization potential of HIV-specific CD8+ and CD4+ T-cells into the GALT and explored the role of retinoic acid (RA) in regulating this process in a cohort of HIV-infected subjects with slow disease progression (SP). Methods Five SP subjects were available for this study: median CD4 counts 670 cells/µl, plasma viral load 3.27 log10 HIV-RNA copies/ml, and 15 years of infection. PBMC were exposed to HIV peptides or CMVpp-65 protein in the presence or absence of all-trans RA (ATRA) or the RA antagonist LE540. The expression of trafficking molecules on antigen specific T-cells was analyzed by flow cytometry using the CFSE assay. Results The expression of the gut-homing molecules integrin β7, CCR6, and CXCR3 was identified as a “signature” for HIV-specific but not CMV-specific CD4+ T-cells, thus providing a new explanation for their enhanced permissiveness to infection in vivo. HIV-specific CD8+ T-cells expressed high levels of integrin β7 and CXCR3; however CCR6 was detected at superior levels on HIV-specific CD4+ versus CD8+ T-cells. ATRA upregulated the expression of integrin β7 but not CCR6 on HIV-specific T-cells. Conclusion HIV-specific CD8+ T-cells may colocalize in excess with CD4+ T-cells into the GALT via integrin β7 and CXCR3, but not CCR6. Considering our previous findings that CCR6+CD4+ T-cells are major HIV targets, a limited ability of CD8+ T-cells to migrate in the vicinity of CCR6+CD4+ T-cells may facilitate HIV dissemination at mucosal sites. In addition to other previously described T-cell features (e.g., antiviral properties, poly-functionality, and exhaustion), the colocalization potential of CD4+ and CD8+ T-cells represents a new parameter to consider for predicting the efficacy of anti-HIV responses., Background An attractive approach for restoring CTL activity to HIV-1 infected individuals is the adoptive transfer of autologous CD8 T cells that have been transduced with an HIV-1 specific TCR. Previously, we described an HLA-A2-SL9 specific TCR that when introduced into CD8 T cells could control HIV-1 replication in an in vitro suppression assay. Given that the success of HAART is based, in part, on attacking multiple targets, we isolated an additional HLA-A2 restricted, HIV-1 specific TCR targeting the HIV-1POL sequence YQYMDDLYV. This epitope is of great clinical relevance because it lies within the active site of Pol and is a target of many reverse transcriptase inhibitors. Methods By surface plasmon resonance, we defined the Kd of this wild type TCR to be 6.7µM and t1/2 to be 2.7s. Using phage display, a panel of affinity enhanced A2-YV9 TCRs were obtained with Kd values ranging from 5.1 to 0.3µM. Results When introduced into CD8 T cells by lentiviral vectors, the A2 YV9 specific TCRs were highly specific for the wild type epitope. In contrast to what we previously determined for CD8 T cells transduced with the wild type A2-SL9 specific TCR, we observed that the A2-YV9 specific T cells could respond in a polyfunctional manner by simultaneously producing TNF-α, IFN-γ, IL-2, and MIP1-β when presented with a wide range of peptide concentrations. Moreover, affinity enhanced A2-YV9 specific CD8 T cells were able to recognize and respond to several variants of the wild type sequence, including those responsible for resistance to NNRTI and NRTI such as Nevirapine, Didanosine and Efavirenz. Conclusion Together, our data suggest that adoptive transfer of these A2-YV9 specific CD8 T cells presents great potential for augmenting available treatments and imparting additional control to HIV-1 infected individuals experiencing drug resistance., Background HIV Controllers are rare individuals who spontaneously control HIV replication in the absence of antiretroviral therapy. To identify parameters of the CD4 response that may contribute to viral control, rather than merely reflect a persistently low viremia, we compared the T helper profile in two groups of patients with more than 10 years of viral suppression: HIV Controllers from the ANRS CO18 cohort (n=26) and efficiently treated patients (n=16). Methods Cells specific for immunodominant Gag and CMV peptides were evaluated for the production of 10 cytokines and cytotoxicity markers, and were also directly quantified ex vivo by MHC class II tetramer staining. Results HIV Controller CD4+ T cells were characterized by a higher frequency of IFN-γ production, perforin+/CD107a+ expression, and polyfunctionality in response to Gag peptides. While IL-4, IL-17, and IL-21 production did not differ between groups, treated patients cells produced more IL-10 in response to Gag and CMV peptides, pointing to persistent negative immunoregulation after long-term antiretroviral therapy. Gag293 tetramer-positive cells were detected at high frequency (0.15%) and correlated positively with IFN-γ producing CD4+ T cells in the Controller group (R=0.84; P=0.01). Tetramer-positive cells were fewer in the HAART group (0.04%) and did not correlate with IFN-γ production, supporting the notion of a persistent immune dysfunction in HIV-specific CD4+ T cells of treated patients. Conclusion HIV Controllers maintained a population of highly efficient Th1 effectors directed against Gag in spite of a persistently low antigenemia, while patients treated in the long-term showed a loss of CD4 effector functions. We previously reported that HIV Controllers harbored a unique population of CD4+ T cells expressing high avidity TCRs directed against Gag293. We propose that high avidity drives continuous Th1 effector differentiation in response to low antigen concentrations and explains the persistence of an activated antiviral response in HIV Controllers., Background Natural control of HIV infection is associated with CD8+ T cell responses to HIV core antigens, encoded by Gag, restricted by ‘protective’ HLA-B alleles (HLA-B27, -57, -58). Slower progression of HIV infection is associated with antibodies to HIV core proteins but mechanisms are unclear. Antibody responses that have isotype switched to IgG2 may be particularly effective. We have investigated this further. Methods Plasma from 32 HIV controllers (HIV RNA2SD of non-HIV sera for rp55 antibodies. Antibodies to rgp140 were titred. Controllers were HLA typed by sequenced-based typing using genomic DNA. Results Controllers had a positive IgG1 or IgG2 antibody response to one or more core protein (p17, p24) on WB more often than non-controllers (75% vs 28.6%, p=0.0016 and 22% vs 0, p=0.034, respectively). Also, 12.5% of controllers but no non-controllers had a positive IgG2 antibody to rp55 (p=0.14). When results of WB assays and ELISA were combined, 34% of controllers but no non-controllers had positive IgG2 antibodies to core antigens (p=0.04). Positive IgG2 antibodies to core antigens were more common in patients without ‘protective’ HLA-B alleles (57%) than patients with these alleles (16.5%) (p=0.026). Positive IgG1 antibodies to Pol-encoded proteins were also more common in controllers (p=0.0003) but IgG2 antibodies were not detected. IgG1 and IgG2 antibodies to envelope antigens showed few differences. Conclusion An isotype switched IgG antibody response to HIV core antigens is associated with control of HIV infection in patients without ‘protective’ HLA-B alleles., Background A recent genome-wide association study (GWAS) of host determinants for HIV-1 disease revealed that single nucleotide polymorphisms (SNPs) near genes HLA-C and ZNRD1 were associated with setpoint HIV-1 viral load and disease progression. ZNRD1 has also been identified as a host protein required by HIV-1 life cycle in a genome-wide functional genomic study. Methods We investigated the effects of 13 SNPs in the ZNRD1 region on HIV-1 infection and progression in five U.S-based treatment-naive HIV-1 longitudinal cohorts consisting of homosexuals, hemophiliacs and injection drug users (IDUs) (n=1028). Allelic frequencies were compared between HIV-1 seronegatives (SN) and seroconverters (SC) with further analysis focusing on high-risk exposed HIV-1-uninfected individuals (HREU) compared to HIV-1 seroconverters (SC). Among HIV- 1 seroconverters, variation in time to clinical AIDS was assessed by haplotype. Electrophoretic mobility shift assay (EMSA) was used to assess the associated SNP's potential to alter DNA-protein interactions. Results A haplotype in the ZNRD1 gene showed significant association with decreased risk of HIV-1 acquisition (OR=0.65, 95% CI 0.47-0.89), independent of the effect of HLA-C rs9264942. The tag SNP allele in the ZNRD1 promoter region causes a loss of nuclear factor binding, as revealed by EMSA. This differential binding was further shown to be cell-specific, occurring in Hela epithelial cells instead of Jurkat T-cells (stimulated or unstimulated), suggesting its regulatory role in mucosal epithelial barriers influence HIV-1 transmission. Indeed, this infection effect was not observed in HIV-1 infected IDUs (OR=0.82, 95% CI, 0.44-1.54). On the other hand, SNPs and haplotypes for ZNRD1 modestly affect progression rate to AIDS. Conclusion This study provided novel evidence supporting a direct role of ZRND1 in modulating HIV and identified a ZNRD1 allele as a host resistant factor to HIV-1 acquisition. (Funded by NCI HHSN26120080001E), Background Understanding the early events during heterosexual HIV transmission at the genital mucosa is necessary to develop a safe and efficacious HIV microbicide or vaccine. A recent workshop highlighted the benefits of studying Highly Exposed Seronegative (HESN) individuals in order to identify and describe correlates of HIV protection. In an HESN cohort of commercial sex workers in Nairobi, Kenya, we have described a state of reduced systemic T cell immune activatio termed Immune Quiescence. However, the extent of Immune Quiescence at the genital mucosal is not known. This study characterized the female genital mucosal profile of cells, cytokines and chemokines involved in immune activation and lymphocyte recruitment among HESN. Methods CVL and plasma from commercial sex workers from the Majengo clinic in Nairobi, Kenya (57 HIV- followed for7 years) were analysed for the presence of 22 cytokines/chemokines and five antiproteases previously associated with resistance to HIV infection. Activation of cervico vaginal cells was analysed by multiparametric flow cytometry. Results HESN women have a unique pattern of mucosal chemokine/cytokine expression. HESN subjects showed lower expression of MIG, IP-10 and IL-1a as well as higher levels of antiproteases. Among the HESN women there was a distinct chemokine gradient between the blood and genital mucosa relative to control women. Conclusion MIG and IP-10 are important regulators of T cell trafficking to the genital mucosa while IL-1a is an indicator of immune activation. The reduced levels of these cytokines/chemokines together with the unique correlations observed with antiprotease expression among HESN women suggest that the Immune Quiescent phenotype extends to the female genital tract. Reducing the number of activated CD4+ T cells in the FGT could limit cellular targets for HIV infection and may be an important component to resisting HIV infection., Background For 26 years a group of HESN women from Nairobi, Kenya who can be epidemiologically described as relatively resistant to HIV infection have provided clues towards the identification of natural correlates of protection against HIV-1 infection. Studies of these HIV-1-resistant women suggest they posses a unique mucosal environment which includes the overexpression of specific antiproteases and a unique proinflamatory cytokine expression patern. Here we describe how these factors contribute to protection against HIV infection during mucosal transmission. Methods Cervical lavage fluid (CVL) from 277 women were collected from 76 HIV-1-resistant, 120 HIV-1 uninfected, and 97 HIV-1 infected women. CVL protein was analyzed both independently by SELDI-TOF MS and as pooled groups by 2D-LC-FTICR MS. Of the more than 350 unique proteins identified 29 proteins were differentially expressed (> 2-fold cutoff) between HIV-1-resistant women and controls. These findings were confirmed by traditional ELISA and quantitative Western Blot (WB) analysis. Results The majority of overexpressed proteins were serpins, their breakdown products (p=2.2 x 10−8), and other antiproteases, as well as innate factors with known anti-HIV-1 activity. The overexpression of specific serpins and an epithelial-derived antiproteases was confirmed by ELISA and WB (p=0.004, p=0.05, and p=0.02). Underexpressed proteins in HIV-resistant women included inflammatory proteases and immune response factors. Cytokine/chemokine analysis revealed that antiprotease expression correlated with pro-inflammatory cytokines (p, Background Herpes simplex virus type 2 (HSV-2), the most frequent cause of genital ulcer disease (GUD), has been shown to play a more important role than any other sexually transmitted infections (STIs) in driving HIV prevalence in Africa. In turn, HIV-1 infection leads to more frequent HSV-2 reactivations and shedding. The exact immune mechanisms involved in this virological negative immuno-synergy are unknown. In the present study we sought to assess whether HIV co-infection would affects HSV-specific T cell immunity. Methods Nineteen HSV peptides, derived from HSV-2 glycoproteins gB and gD, were used to analyze the frequency and the magnitude of HSV-2-specific IFN-γ-producing CD4+ and CD8+ T cell responses in 30 HSV-2 seropositive patients and 17 HSV-2 seronegative individuals in a cohort of heterosexual Senegalese HIV-discordant couples, using ELISpot assay. HIV RNA viral load has been run for HIV infected subjects and CD4 count ran for all subjects using a flow cytometry method. Results The magnitude and frequency HSV-2-specific T cell responses was compared between 21 HSV-2 co-infected with HIV-1 and 9 HSV-2 mono-infected individuals. A significantly higher magnitude of IFN-γ-producing T cell responses were observed in HSV-2 infected patients compared to seronegative individuals (median, 61 vs. 0 spots/106 PBMC, P=0.001). Moreover, twenty-four (80%) out of 30 HSV-2 seropositive patients showed significant HSV-2-specific IFN-γ-producing T cell responses compared with only 6 (35%) out of 17 HSV-2 negative subjects (P, Background HIV-infection leads to GALT CD4+ T-cell depletion that persists despite prolonged antiretroviral therapy (ART). SBI is a medical food that neutralizes bacterial antigens and reduces gut inflammation in animal models. Methods Subjects on ART with diarrhea and a thorough negative GI-workup received SBI (EnteraHealth, Ankeny,IA,USA) 2.5 grams BID for 8 weeks. 4-hour urine disaccharide gut permeability and absorption test and duodenal biopsies were obtained before and at 8-weeks. Immunohistochemistry for CD3/CD4 was performed on biopsies and flow cytometry was performed on duodenal single-cell suspensions and PBMCs for lymphocyte subsets. Markers of bacterial translocation and cytokine levels were measured in plasma. Stool was collected for 16S rDNA quantification and sequencing. Median values (interquartile ranges) and nonparametric analysis are reported. Results All 8 subjects experienced resolution of GI-related symptoms. D-xylose absorption increased in 7/8 subjects and in those with improvement, the absorption levels increased from 31.4 mgs (28.5, 38.8) to 41.5 mgs (33.7, 45.2)(p=0.016). Gut permeability was normal before [0.024% (0.0, 0.048)] and after [0.032% (0.0, 0.047)] intervention (normal, Background Interleukin (IL)-21 regulates three immunological functions - Th17 cell homeostasis, differentiation of memory B cells and antibody-secreting plasma cells, and long-term maintenance of functional CD8+T-cells - that are compromised in pathogenic HIV and SIV infections. Since IL-21 availability is reduced during infection, we hypothesized that in vivo administration of IL-21 might be beneficial for HIV infected humans. Methods We infected 12 rhesus macaques with SIVmac239 (i.v.), and then treated 6 of them with rhesus rIL-21-IgFc (50mg/kg, s.c., once weekly for 5 weeks) during the early infection (from day 14 to 42 post-infection). Effects of IL-21 on viral load, immune activation, homeostasis of T-cells and their main subsets as well as T-cell cytotoxic potential have been evaluated in blood and mucosa by q-PCR, IHC, and flow cytometry up to 6 months post-infection. Mann-Whitney test and Spearman correlation were used for statistical analyzes. Results IL-21 treatment was safe and did not increase plasma viral load or systemic immune activation. Compared to untreated animals, IL-21 treatment resulted in (i) increased expression of Perforin and GrB in total and virus specific CD8+T-cells of various anatomical sites (P, Background The majority of new HIV infections are acquired via heterosexual transmission. Certain individuals remain seronegative despite repeated high-risk exposure to HIV. The correlates of protection in exposed seronegative(ESN) individuals remain unclear. The purpose of this study was to determine the breadth and persistence of HIV-specific CTL responses in blood and cervical mucosa of ESN women. Methods The ESN cohort included 30 female partners of antiretroviral naïve HIV+ men. ESN women were followed longitudinally for 3-6 months. Controls included sero-concordant couples (n=17) and low-risk seronegative women (n=30). PBMC and mucosal mononuclear cells (MMC) from cervical cytobrush were stimulated with HIV Gag and Env (Clade C) peptide pools; IFN-g production was measured by intracellular cytokine staining. IFN-g production by>0.1% of cells after background subtraction was considered positive. Samples with, Background A characteristic feature of the early phase of mammalian cells to metabolic stress is an increase in the rate of glucose uptake and metabolism. Glucose transporter 1 (Glut1) is the major glucose transporter in T cells and its expression is increased on CD4+T cells during chronic HIV-1 infection in vivo (Palmer et al., Abstract 1, IAS, 2012). We therefore seek to determine the impact of increased Glut1 expression on glucose metabolism in CD4+T cells from HIV-1-infected subjects. Methods The cell surface expression of Glut1 and glucose uptake (2-NBDG) was monitored in CD4+T cells from HIV-1 infected treatment naïve or HIV- controls subjects by flow cytometry. Hexokinase and glycolytic activity was measured by the intracellular concentrations of Glucose-6-phosphate (G-6-P) and L-lactate, respectively. Intracellular PTEN, pAkt (T308) and pAkt (S473) levels determined PI3K-mTOR activity. In vitro HIV-1 infection was performed on PBMCs activated with anti-CD3/CD28 microbeads and IL-7 and incubated with the CXCR4-using NL4.3-GFP virus. Results Basal glucose uptake, G-6-P, L-lactate, intracellular p-Akt (T308) and p-Akt (S473) were significantly higher in CD4+Glut1+ vs CD4+Glut1- cells. This corresponded with an overall increased glucose uptake and glycolysis and lower levels of PTEN expression in CD4+T cells from HIV-1+subject vs seronegative individuals. Anti-CD3/CD28-induced Glut1 expression on CD4+ T cells was sensitive to specific inhibition of the Class1B PI3K-y and mTORC1 pathways which also blocked HIV-1 infection of CD4+T cells in vitro. Conclusion CD4+T cells from HIV-1 infected patients have increased glucose uptake and glycolytic activity mediated at least in part by the PI3k-y-mTORC1 pathway. Increased Glut1 cell surface expression and glycolysis in CD4+T cells may increase their susceptibility to HIV-1 infection and foster their depletion due to hypermetabolism. Approaches to normalize Glut1 expression or glycolysis in CD4+T cells may offer a platform for interventions to slow HIV-1 disease progression., Background Progressive depletion of CD4 T cells is a hallmark of AIDS yet the underlying mechanism remains poorly understood. In human lymphoid cultures, most of the dying cells correspond to abortively infected resting CD4 T cells (Cell 143:789-901,2010). We have now studied how these cells die. Methods Human lymphoid aggregated cultures (HLACs) prepared with human tonsil and spleen were used to recapitulate many of the conditions encountered by HIV in vivo. CD4 T cell death is prominent in HLAC following viral infection. Results >95% human lymphoid CD4 T cells that die in HLAC are abortively, not productively, infected. These nonpermissive resting cells accumulate incomplete cytosolic viral transcripts that trigger an innate immune response resulting in interferon-beta production and activation of caspase-3 and caspase-1. Most cells die as a consequence of caspase-1-mediated pyroptosis, an intensely inflammatory form of programmed cell death where cytoplasmic contents and pro-inflammatory cytokines (IL-1b) are released. Unexpectedly, HIV-induced CD4 T-cell death and release of inflammatory mediators can be blocked by addition of certain oral sulfonylureas like glimepiride that inhibit P2X7 ion channels, and are FDA-approved for the treatment of type II diabetes. Conclusion 1. Abortively infected lymphoid CD4 T cells do not die due to the action of an HIV virulence factor(s), but rather because of host innate immune response launched against viral DNA produced in these cells. 2. This response likely evolved to protect the host from spread of infection, but the involvement of pyroptosis appears to trigger additional rounds of cell recruitment, infection, cell death, and inflammation. 3. CD4 T-cell depletion is blocked by P2X7 inhibitors that may interfere with pyroptosis. Such agents might be clinically useful in combination with classical antiretrovirals, particularly in HIV-infected subjects displaying rapid progression of disease or broad drug resistance., Background Increased Tryptophan (Trp) catabolism into kynurenine (Kyn) and/or 3-hydroxykynurenine (3OH-kyn) by indoleamine 2,3 dioxygenase (IDO), contributes significantly to the persistent immune activation during HIV infection and plays a detrimental role in T cell responses in advanced AIDS. We herein studied Trp catabolism in elite controllers comparing to other well established groups of HIV patients with different disease outcomes. Methods Plasma samples from elite controllers (EC) (n=21), ART-naive (n=96), ART-successfully treated (ST) (n=18), and healthy controls (n=51) were collected. All these groups were standardized for nutritional status (albumin levels and body mass index). Levels of Trp, Kyn and 3OH-kyn were measured using isotope dilution tandem mass spectrometry and the markers of Trp catabolism (Kyn/Trp and 3OH-kyn/Trp ratios) were correlated to clinical data. Results In ART-naive patients, viral load was positively associated with Kyn, 3OH-kyn levels and the markers of Trp catabolism (p, Background In view of the role interleukin (IL)-7 plays in T-cell survival, homeostasis and function it is no surprise expression of the IL-7 receptor alpha-chain (CD127) is tightly regulated. We previously showed that expression of CD127 is suppressed on CD8 T-cells in HIV+ patients and that this suppression is mediated by both IL-7 and the HIV Tat protein. IL-7 down-regulates CD127 transcripts and surface protein through two distinct mechanisms. In this study we examine the mechanism by which IL-7 down-regulates the CD127 gene at the level of transcription. Methods CD8 T-cells from HIV-negative volunteers were treated with IL-7 (0.1−10 ng/ml) in the presence or absence of various inhibitors. CD127 transcripts were quantified by qPCR. STAT-5 phosphorylation was measured by flow cytometry. Nuclear run-on assays were utilized to measure the rate of CD127 gene transcription. Candidate CD127 repressors were identified using PCR arrays, qPCR, Western and siRNA-mediated gene knock-down assays. Results IL-7 attenuates levels of CD127 transcripts in CD8 T-cells in a time- and dose-dependent manner. Both the full-length transcript and the splice-variant encoding the secreted isoform of CD127 are suppressed by IL-7. We show by nuclear run-on assay that IL-7 suppresses the rate of transcription of the CD127 gene and found no evidence that IL-7 affects the stability of CD127 mRNA. Further, the suppression of CD127 transcripts is dependent on JAK kinase activity and phosphorylation of STAT-5 but not STAT-3. Notably, cycloheximide blocked IL-7's ability to down-regulate CD127 transcripts suggesting IL-7 stimulates the de novo synthesis of a transcriptional repressor which in turn suppresses CD127 gene transcription. We recently identified several candidate repressors using PCR arrays and are currently examining their involvement in the transcriptional suppression by siRNA-mediated knockout experiments. Conclusion Upon binding to its receptor, IL-7 activates the JAK/STAT-5 signaling and induces the expression of a transcriptional repressor which suppresses CD127 gene transcription., Background Interleukin (IL)-7 plays essential roles in T-cell development, homeostasis and activation. Disruption of this cytokine pathway likely contributes to HIV-induced immune deficiency. We previously showed that IL-7 and the HIV Tat protein reduce the half-life of the IL-7 receptor alpha-chain (CD127) in human CD8 T-cells but the mechanism directing CD127 to the proteasome is not yet understood. In this study we examined roles of SOCS proteins in regulating CD127 expression. Methods CD8 T-cells isolated from healthy HIV-negative volunteers were treated with IL-7 (0.1–10 ng/ml) in the presence or absence of various inhibitors. SOCS1-7 and CIS transcripts were examined by qPCR and protein expression was measured by Western. The interaction of SOCS proteins with CD127 was examined by Co-IP. Surface CD127 protein expression was measured by flow cytometry. Intracellular localization of SOCS and CD127 protein was examined by confocal microscopy. Results IL-7 induces the expression of SOCS1-3 and CIS transcripts in CD8 T-cells via the JAK/STAT-5 signaling pathway in a time- and dose-dependent manner with SOCS2 transcripts increasing 300-fold within 3 hours. While induction of SOCS2 and SOCS3 mRNA was transient, SOCS1 and CIS transcripts remained elevated over baseline for at least 48 hours. Western blot analysis confirmed increased protein expression of the induced SOCS genes. Preliminary data on CD8 T-cells isolated from HIV+patients indicate that the IL-7-mediated up-regulation of SOCS transcripts is significantly decreased compared to healthy controls. IL-7 induces rapid phosphorylation and internalization of CD127 followed by proteasomal degradation. By Co-IP we show SOCS proteins induced by IL-7 physically interact with CD127 and study their cellular localization by confocal microscopy. We hypothesize this interaction directs the receptor to the proteasome. Conclusion IL-7 induces the expression of SOCS1-3 and CIS genes through the JAK/STAT-5 pathway. Through physical interaction with CD127, SOCS proteins may direct CD127 to the proteasome for degradation., Background Nonhuman primate natural hosts for simian immunodeficiency viruses (SIV) develop a non-resolving chronic SIV infection, but do not develop AIDS. While several hypotheses, such as down-modulation of immune activation and differential surface expression of SIV receptors, have been suggested as putative mechanisms to explain the nonprogressive nature of SIV infection in natural hosts, mechanisms underlying high and maintained levels of plasma viremia without apparent loss of target cells in natural hosts remain unclear. Methods Here, we have used flow cytometric sorting, quantitative real-time PCR, immunohistochemistry, and in situ hybridization to study viral infectivity and production within subsets of peripheral blood and lymph node-resident CD4+ T cells in cohorts of chronically SIVsmm-infected sooty mangabeys and SIVsmE53-infected rhesus macaques. Results We find: (1) infection frequencies among PB and LN-resident CD4+ T cells in chronically SIVsmE543-infected RM are significantly higher than those in SIVsmm-infected SM; (2) differential virus targeting is observed among anatomical LN niches and among individual CD4+ T cell subsets in SIV-infected RM and SM; (3) lymph node resident TFH cells are preferentially SIV-infected in RM, but these cells are not preferentially infected in SM and; (4) infectivity of central and effector memory CD4+ T cells is associated with plasma viremia in RM while infectivity of only effector memory CD4+ T cell infectivity is associated with plasma viremia in SM. Conclusion These data provide mechanistic insights into the maintenance of immunological function among chronically SIV-infected natural hosts for SIV, provide an explanation as to how natural hosts are able to maintain high levels of plasma viremia without apparent loss of target cells, and may lead to novel gene therapy interventions to recapitulate the natural host phenotype to animals that are susceptible to SIV-induced disease., Background Transcription of the HIV-1 genome yields an initial pre-mRNA which undergoes complex alternative splicing to produce over multiple spliced mRNAs. Analysis of host cell factors important for HIV replication by genome-wide siRNA screens has emphasized that HIV replication is extremely sensitive to the complement of available splicing factors, suggesting that HIV splicing may be an attractive target for therapeutic intervention. Here, we have used single molecule amplification and third generation sequencing to characterize splice patterns for the patient isolate HIV89.6 under different conditions. Methods We infected HOS cells or primary T-cells and carried out single molecule PCR in emulsionsto minimize competition among amplicons. We then used Pacific Biosciences single molecule sequencing to analyze message populations. Results Primary sequence read lengths averaged 1.6 Kb, and 5% of reads were over 3.8 Kb. Over 100 different messages was documented, more than doubling the previous number. The HIV sequence reads confirmed all of the known major splice junctions and identified new splice junctions, which create new ORFs in the 89.6 isolate. The presence of these new transcripts was confirmed using RT-PCR. The ORFs encode a novel form of Tat with an altered carboxy terminus and a Rev-Nef fusion (dubbed “Ref”) containing the amino terminal helix of Rev and the carboxy terminal portion of Nef. Using this assay, we found that HIV splicing differed between different cell types, differed between different human donors, and changes over time after infection. Conclusion These data illustrate how the diversity and promiscuity of splicing in HIV allows the virus to respond to different cellular environments and provides a continuous supply of evolutionary novelty that can potentially serve as a substrate for natural selection., Background HIV-1 infected cells have evolved strategies to delay apoptosis but the exact mechanism is unknown. One explanation could be the enhancement of Bcl-2 levels. MicroRNAs (miRNAs) are small non-coding RNAs that participate in the innate immune response. Several cellular miRNAs target viral mRNAs, leading to a decreased viral replication, but viruses may also counteract this effect. In the case of HIV-1, Tat has been described as an RNAi suppressor, although this statement remains controversial. To get better insight into this issue and into the effect of Tat in protection to apoptosis, we have analyzed the miRNA expression pattern in Jurkat cells expressing different forms of Tat. Methods The miRNA expression profile of Jurkat cells with stable expression of HIV-1 full-length Tat101 (two-exon protein) or Tat72 (exon 1 isoform) was analyzed with a two color-based array of miRNAs (Exiqon). Differences in miRNA expression were then confirmed by qRT-PCR. Results Global down-regulation of cellular miRNAs due to the expression of Tat was not observed. Instead, several specific miRNAs were dis-regulated due to the expression of Tat101 or Tat72, although the expression of the second exon granted a higher modification. We confirmed that cellular miR-21 and miR-222 were up-regulated in Jurkat Tat101 cells. miR-21 plays an important role in apoptosis. Since a higher resistance to FasL-mediated apoptosis was observed in Jurkat Tat101, we established a correlation between this protection and the increased levels of Bcl-2 in Jurkat Tat101. Regarding miR-222, it regulates cell cycle progression. In agreement with this, Jurkat Tat101 cells showed less proliferation capacity than control cells. Conclusion HIV-1 Tat does not show a general RNAi suppressor activity but it increases specifically several human miRNAs, conferring cells protection to apoptosis. This phenomenon was dependent on the expression of full-length Tat., Background Throughout the years many labs have discovered important factors that contribute to the transcription of HIV-1. Most of these factors have been well characterized and their significance has been validated. Some of the critical factors involved in Tat activated transcription include RNA Pol II (associated with LTR), chromatin remodeling complexes (i.e. SWI/SNF), acetyltransferases (i.e. CBP, p300, pCAF), NFκB and components of pTEF-b. Surprisingly, almost none of the published literature has focused on finding these factors as complexes from genuine HIV-1 infected cells. Here we show presence of undiscovered complexes unique to HIV-1 infected cells which may serve as targets of inhibition. Methods We utilized a combination of HIV infected cell lines and primary latent cells (both T-cells and monocyte/macrophages) to define changes of protein complexes in infected cells. We utilized large quantities of infected cell lysates for size-exclusion chromatography to find novel kinases (i.e. cdk9/T complexes), and chromatin remodeling complexes, among others in presence of high salt (500 mM). Results We found that there are novel cdk9/T complexes ranging from 2 MDa to ~300 KDa present only in T-cells that produce virus. Other components of the pTEF-b are also examined and found to be mostly unchanged in infected vs uninfected cells. Other novel complexes present only in infected cells included kinases for the NFkB pathway and SWI/SNF proteins. Many of these proteins are extremely stable and are targets of drug inhibition. Using a small panel of drugs, we find that many of the kinases utilized for transcription of HIV-1 have varying IC50s depending on the size of the complex and their protein partners. Conclusion HIV-1 infected cells contain many novel protein complexes that are yet to be discovered. Here we use a simple method of size exclusion to discover novel complexes that could potentially be used as targets of inhibition in therapeutics., Background Latently-infected resting CD4+ T-cells are a major barrier to the eradication of HIV infection. These cells are enriched in lymphoid tissue compared to blood. We hypothesized that interactions between dendritic cells (DC) and resting CD4+ T-cells are critical for the establishment and maintenance of HIV latency. Methods Resting CD4+ T-cells labelled with eFluor670 were cultured alone or with syngeneic DC for 24h prior to infection with a CCR5-tropic, EGFP-reporter virus. Non-proliferating (eFluor670hi), non-productively-infected (EGFP-) CD4+ T-cells were sorted on day 5 post-infection. Latent infection was re-activated and amplified by co-culturing sorted cells with mitogen stimulated PBMC. Results Infection of resting CD4+ T-cells in the presence of myeloid (m)DC significantly increased latent infection of non-proliferating CD4+ T-cells compared to infection of T-cells cultured alone (p=0.0005, n=11). Latent infection was not increased in resting CD4+ T-cells co-cultured with plasmacytoid DC (n=11) or monocyte-derived-dendritic-cells (n= 2). Co-culture of mDC with memory (CD45RO+) CD4+ T-cells but not naïve (CD45RO-) CD4+ T-cells resulted in latency (n=6). eFluor670hiEGFP- CD4+ T-cells that had been co-cultured with mDC showed a significant increase in the expression of CD69 (p=0.01, n=8) and PD-1 (p=0.007, n=10), but did not express HLA-DR or Ki67. Treatment of the mDC-T-cell co-cultures with blocking antibodies to the chemokines CCL19 and CXCL10 (shown to induce latent infection in resting CD4+ T-cells); the chemokine receptor CXCR3; or the adhesion molecule LFA-1 (binds to ICAM) led to no changes in the frequency of latently-infected CD4+ T-cells (n=5). When mDC-T-cell contact was prevented using transwells the number of latently-infected CD4+ T-cells was reduced (n=3). Conclusion mDC play a key role in the establishment and/or maintenance of HIV latency in resting memory CD4+ T-cells. Our results suggest this is likely to be mediated through DC-T-cell contact via alternative pathways to ICAM-LFA-1 binding., Background HIV-1 penetrates the central nervous system (CNS) during early infection, establishing a viral reservoir. While macrophages and microglia represent the sites of productive HIV-1 infection, astrocytes undergo a restricted/latent infection. We recently demonstrated that astrocytes are extensively infected and may therefore constitute a significant potential reservoir of HIV-1 within the CNS. Here, we analyzed HIV-1 promoters (LTR) from matched CNS and non-CNS compartments to determine their role in virus restriction within CNS-derived cells. Determining the regulatory mechanisms of CNS-derived LTRs is essential to understanding the CNS as a HIV-1 viral reservoir, and in developing strategies aimed at HIV-1 eradication. Methods HIV-1 LTR sequences from a cohort of HIV-1 autopsy subjects consisting of matched CNS- and non-CNS-derived isolates were examined and their activity was determined in T-cells and SVG astrocyte cells. Electrophoretic mobility shift assays (EMSA) were used to analyze transcription factor binding activity within the core and basal promoter regions of the LTR. Results CNS-derived LTRs demonstrated restricted basal transcriptional activity in both T-cells and SVG cells, and non-CNS-derived LTRs showed decreased activity in SVG cells. Restricted basal activity mapped to the three Sp binding motifs, previously shown to be essential for both Tat-independent and Tat-dependent activation of the LTR in T-cells. Further repression in astrocytes was observed due to elevated levels of the repressor Sp3 in SVG cells. Conclusion The reduced transcriptional activity observed for CNS-derived HIV-1 promoters was found to correlate with a reduction in Sp1 binding, which mapped to mutations within the core Sp binding motif. Transcriptional activity in SVG cells was further regulated by Sp3, which outcompeted Sp1 for Sp-motif binding. These data suggest that CNS-derived viruses have a reduced capacity to initiate viral transcription in astrocytes and highlights that unique transcriptional mechanisms exist within the CNS, ultimately affecting the fate of viral infection and the development of latency., Background Latent reservoirs of HIV-1 consist of cells harboring dormant, stably integrated viral genomes that can be reactivated after cell stimulation. Latent HIV-1 evades immune responses and resists anti-retroviral therapy. CD4+ T cells are the major reservoir of latent HIV-1. These cells are very rare and lack distinctive markers, which has hindered their characterization. Methods We developed an in vitro model suitable to investigate HIV-1 latency in CD4+ T cells. In our system CD4+ T cells are activated with dendritic cells and antigen, infected in vitro with HIV-1, and then brought back to quiescence through a resting phase in the presence of interleukin-7. During the resting phase, the latently infected cells generated with our system lack expression of activation markers; do not undergo cellular proliferation and do not sustain viral replication. We sorted latently infected and uninfected cells from the same cell culture at the end of the resting phase, and profiled their entire transcriptome. Results The results of this microarray analysis revealed profound differences between latently infected and uninfected cells derived from the same culture. First, a number of genes involved in all major cellular metabolic pathways are down-modulated in latently infected cells. Second, several messengers involved in gene expression (including chromatin organization, transcription, translation, post-translational modification, transport and assembly) are also down-regulated in latently infected cells. Third, genes involved in signal transduction, cell activation, cell proliferation and cell cycle progression are down-modulated in latently infected cells. Finally, several genes encoding cell surface molecules are differently expressed in latently infected vs. uninfected cells. Conclusion The establishment of HIV-1 latency does not simply entail suppression of HIV-1 expression, and the return to cell quiescence. Rather, HIV-1 appears to exploit and/or promote suppression of all cellular functions, leading to cell quiescence and viral latency. These results may have therapeutic implication for viral eradication., Background HIV-1 cure remains elusive despite HAART due to the reservoirs of proviral DNA integrated into the human genome. Efforts to cure HIV-1 therefore need to aim at eliminating proviral DNA from cellular reservoirs. The first epigenetic signal identified in virus infected and uninfected cells has been promoter methylation. Compelling evidence confirms that specific promoter methylation can lead to gene silencing. Previous studies have examined HIV-1 epigenetics mostly in vitro. Methods We determined methylation patterns in HIV-1 proviral genomes from PBMCs obtained from 21 individuals with a spectrum of disease progression. The CpGs in the long terminal repeats (LTRs) of proviral DNA were investigated by bisulfite sequencing in up to 85 genomic variants per individual. This approach facilitates the study of the full range of CpG methylation and sequence variability of HIV-1 proviruses under conditions of natural selection in human populations. Results In patients with advanced disease, the HIV-1 proviruses remained essentially unmethylated in their LTRs. In one long-term nonprogressor, the percentage of methylated proviruses varied from 0–77% at different times after infection. More important and unexpected was the detection of three specific LTR-located CpG dinucleotides that had been selectively mutated to TpAs in>20 out of the 32 samples analyzed. Comparison to 11 HIV-1 LTR sequences in the Los Alamos HIV database demonstrated that mutations in the sites identified by our study occurred more frequently than at other locations, although the mutations were different from TpAs. Conclusion These specific CpGs, possibly including their abutting sequences, might indicate weak spots in the proviral genomes whose sacrifice by mutation to TpAs could enhance the HIV-1 potential for long-term proviral survival. These data suggest that the sites of the mutated CpGs occurring at conserved sites may serve as potential targets for therapeutic interventions to eliminate integrated proviruses. Grants: DFG-DO165/28-1; NIH-UO1-AI35004, Background We have demonstrated that HIV latency can be established in resting CD4+ T-cells infected after incubation with the CCR7 ligand, CCL19. The aim of this study was to identify the sites of viral integration in this model and to determine the relationship of integration sites to transcription factor binding sites and cellular gene expression. Methods Resting CD4+ T-cells were incubated with either IL2/PHA, CCL19, or in media alone (unactivated). After 2 days, cells were infected with NL4.3 and the presence of integrated DNA was confirmed at day 4. Total cellular DNA was purified and provirus-host junctions cloned and sequenced and mapped on the human genome using the UCSC Genome Browser. Gene expression in each cell type was determined using Illumina microarrays. Comparisons were made between these in vitro conditions and CD4 T-cells from HIV-infected patients on antiretroviral therapy (ART). Gene ontology was analysed using ClueGo. Results We identified unique integration sites in infected CCL19-treated (n=247), IL2/PHA (n=432) and unactivated (n=133) T-cells. Integration occurred in transcriptionally active genes and most were involved in cellular housekeeping and cell signalling pathways. Integration sites were a similar distance from CpG islands, CTCF, pol II and histone methylation and acetylation sites. Compared to IL2/PHA-activated and unactivated cells, integration in CCL19-treated cells was further away from regions with high transcriptional activity (including transcriptional start sites (TSS); (p< 0.0001)) and closer to Long Interspersed Nuclear Elements (p< 0.0001), H4K20me3 (p< 0.0001) (a methylation site mapped to heterochromatin) and H4R3me2 (p< 0.0001; involved in priming gene expression). CCL19 treated cells and patient derived cells were similar in some but not all integration site patterns. Conclusion HIV integration occurred in transcriptionally active genes in all culture conditions although integration patterns in CCL19-treated latently infected cells were distinct. The significance of unique integration site selection in the setting of latency warrant further investigation., Background SIVagm infection of rhesus macaques (RMs) provides a model of functional cure: initial high level viremia (108 copies/ml) and massive mucosal CD4+ T cell depletion are followed by durable control of SIVagm replication, complete recovery of CD4+ T cells, normalization of T-cell activation and seroreversion. The advantage of this model is that the functional cure occurs in all SIVagm-infected RMs. Immune control of SIVagm replication can be temporary reversed by experimental CD8-cell depletion. Methods Our objectives were to further characterize the RM/SIVagm model of functional cure by: (i) assessing the level of persistent chronic SIVagm viremia using qPCR with single copy sensitivity (SCA); (ii) determining whether rebounding virus after CD8-cell depletion is replication-competent by inoculation of uninfected RMs; and (iii) characterizing the diversity of rebounding virus using single genome sequencing (SGS). Results SCA revealed low level viremia, averaging 20 copies/ml (range 10–30), in RMs 9 month after viremia became undetectable by conventional qPCR. Inoculation of new RMs with plasma collected during virus rebound after CD8 cell depletion resulted in peak viremia of 108–109 SIVagm RNA copies/ml, followed by control of viremia with kinetics similar to that following infection with high titer SIVagm stock virus. SGS of rebound plasma virus after CD8 cell depletion revealed sequence homogeneity consistent with clonality. Rebound virus was genetically similar to unpassaged SIVagm used to infect RMs, suggesting that the viral reservoirs that were the source of the rebounding virus were seeded early after infection. Conclusion These findings further validate SIVagm-infected RMs as a model of functional cure of replication-competent retrovirus infection. Deciphering the mechanisms of control may identify new strategies to achieve functional cure. This model is well suited to assess new therapeutic strategies to deplete viral reservoirs without the complexity of multidrug antiretroviral therapy., Background Integration into host cell chromosomal DNA is considered an essential step in the replication of retroviruses, yet HIV-1 replication in vivo or in vitro generates one to two orders of magnitude more copies of unintegrated viral DNA (uDNA) than successfully integrated proviruses (iDNA). These extrachromosomal species are reported to possess limited capacity for gene expression and to be a replicative dead end. Resting CD4+ cells are the major targets of early infection following mucosal transmission, and resting memory CD4+ T cells constitute the major reservoir of latent infection. The cytokine environment in mucosal and lymphoid compartments facilitates HIV-1 infection of CD4+ T cells in the absence of TCR mediated activation. Methods We employed a combination of HIV-1 reporter viruses, flow cytometry and quantitative PCR to analyze HIV-1 early and late gene expression and virus production in purified peripheral blood CD4+ T cells. Results We find that resting CD4+ T cells rendered permissive to HIV-1 replication by cytokines IL-2, IL-4, IL-7 or IL-15 provide a reservoir for the persistence of unintegrated HIV-1 DNA. Nonproliferating cells containing uDNA could generate de novo HIV-1 and transmit virus efficiently to uninfected cells, resulting in recombination between viruses. uDNA generated an order of magnitude less virus than integrated proviruses, but cells generating virus from uDNA survived and produced virus longer. Vpr packaged in virions was necessary for initial gene expression from uDNA. Subsequent T cell receptor/coreceptor-mediated activation substantially increased early viral gene expression from uDNA, but an increase in virus production was observed only when activation-induced cell proliferation was inhibited by de novo Vpr generated from the uDNA template. Activation through the T cell receptor or HDAC inhibitors in combination with Prostratin efficiently activated latent uDNA several weeks after infection of resting T cells. Conclusion We propose unintegrated HIV-1 as a potential reservoir of inducible virus., Background A thorough understanding of the molecular mechanisms governing HIV-1 latency is essential in the development of rational therapeutics for the eradication of the virus. Evidence is accumulating that histone methylation regulates HIV latency. The multi-domain protein UHRF1 (ubiquitin-like, containing PHD and RING finger domains 1), a key epigenetic regulator for maintaining DNA methylation patterns, has also been reported to interact with histone 3 lysine 9 methylated histones. This study investigates the role of UHRF1 in the transcriptional silencing of latent HIV-1 provirus. Methods 293T cells were co-transfected with wild type HIV-1 long terminal repeat (LTR) and either with constructs encoding wild type or mutant forms of human UHRF1, treated with tumor necrosis factor alpha (TNF-α) and the promoter activity was determined by the dual luciferase assay. The presence of UHRF1 at the LTR was assessed by chromatin immunoprecipitation assay using sheared chromatin lysates from latently infected cells, ACH-2 and J-Lat 6.3. Small interfering RNA (siRNA) experiments were conducted using TZM-bl cells, which contain a chromatin-integrated HIV-1 LTR, to confirm the influence of UHRF1 on the HIV-1 LTR. Results We observed that UHRF1 inhibited both basal and the induced HIV-1 gene expression by TNF-α. Chromatin immunoprecipitation assay revealed the presence of UHRF1 at the vicinity of the HIV-1 LTR and UHRF1 occupancy was reduced upon activation. Meanwhile, knockdown of UHRF1 expression modestly increased basal LTR activity. Conclusion Results suggest that UHRF1 contributes to the transcriptional silencing of latent HIV-1 provirus and further elucidate the underlying molecular mechanisms that maintain latency., Background Replication-competent HIV persists in patients who are treated with highly active antiretroviral therapy (HAART). One significant reservoir of this persistent virus is within rare latently infected CD4+ T cells. However, the infrequent nature of these cells makes them challenging to study directly in infected patients, and clinical attempts to completely eliminate this viral reservoir have not been successful. Therefore improved models for HIV latency and eradication strategies are needed. The humanized bone marrow-liver-thymus (BLT) mouse provides robust multi-lineage immune reconstitution with human cells. When infected with HIV, these mice can also serve as an in vivo model for investigating HIV latency. Methods BLT mice were infected with HIV and assessed for the presence of latently-infected cells. Cells were stimulated ex vivo with a variety of canonical and novel latency activators. Infected mice were also treated with HAART and then assessed for the presence of activation-inducible virus. Results Up to 3% percent of human cells in spleen, peripheral blood, and thymus/liver implants in HIV-infected BLT mice harbored latent HIV. This virus was integrated, activation-inducible, and replication competent. The latently-infected cells were also responsive to stimulation with protein kinase C activators and latency-activating nanoparticles. Furthermore, activation-inducible virus was detectable in HAART-treated mice, although at lower frequencies than in untreated mice. Conclusion The humanized BLT mouse provides a versatile system for ex vivo and in vivo investigation of HIV latency., Background In a previous ART intensification study with MVC we detected episomal 2-LTR-DNA in all patients at week 24, while undetectable at baseline (Gutierrez C, et al. PLoS ONE, 2011). A residual agonistic effect of MVC on CCR5 receptor through calcium flux has been discarded. Activation of CCR5 intracellular signaling pathways leading to transcription factors activation, including NFkB, could promote HIV-1 transcription in resting CD4 T cells. We aimed to study if MVC could trigger this effect. Methods TROPISMVC (NCT01060618) is a clinical trial of 10 days MVC monotherapy in naïve HIV-1-infected patients. Blood samples were drawn at baseline, after 10 days of MVC and 18 days after MVC withdrawal (day 28). PBMCs were isolated from nine patients, bearing CCR5 (n=6) and D/M (n=3) tropic viruses. Resting CD4+ T cells were separated by MACS® Technology and aliquots of 5 million cells were frozen. Nuclear proteins were obtained using the Actif Motif Nuclear Extract Kit. NFkB activation was detected by ELISA plates coated with oligonucleotides mimicking the specific consensus binding sites (TransAMTM NFkB family, Actif Motif), following the manufacturer's instructions. NFkB activity was estimated measuring target genes' expression by real-time PCR of the extracted RNA. Results NFkB activity was detected in 4/6 patients with R5 tropic viruses and in 2/3 patients with D/M tropic viruses; results expressed in fold change (FC) compared to baseline according to HIV-1 tropism. The presence of MVC increased NFkB activity consistently, as summarized in the following table. Upregulation of at least one NFkB targeted gene was observed in all but one cases with available RNA sample. Conclusion MVC can activate NFkB, and the expression of targeted genes, in resting CD4 T cells from HIV-infected patients regardless of the viral tropism. Through this pathway, MVC could trigger HIV-1 transcription in resting cells thus accelerating the decay of the HIV-1 cell reservoir., Background Children have large populations of naive CD4+ T-cells that characteristically express high levels of CXCR4 and low levels of CCR5, compared to memory CD4+ T-cells. We hypothesized that HIV+ Ugandan children infected with CXCR4-tropic virus would exhibit larger HIV-DNA reservoirs in naïve CD4+ T-cells, compared to children infected with CCR5-tropic (R5) virus. Methods Cryopreserved PBMC from a convenience sample of 12 HIV+ Ugandan children receiving antiretroviral therapy (ART) with undetectable plasma HIV-RNA (< 400 copies/ml, Amplicor, Roche) were sorted into naïve (CD27+CD45RA+) and memory (CD27-CD45+ and CD45-CD27±) CD3+CD4+ T-cells. HIV-DNA levels were determined using a Taqman assay targeting gag, normalized to cellular-DNA content (tert, ABI). Co-receptor tropism was determined using a commercial phenotypic assay (Trophile, Monogram). We calculated 1) the ratio of the prevalence of infection (copies per 106 cells) in naïve to the prevalence in memory CD4+ T-cells and 2) the proportion of the total peripheral CD4+ T-cell HIV-reservoir that is contained in naïve CD4+ T-cells, and compared them between children with R5- and dual/mixed(CXCR4/CCR5, DM)-tropic virus using non-parametric statistics. Results Median age was 4.9 (interquartile range 3.5-8.1) years, CD4+T-cell number 743 cells/ul (565-1089), CD4+ T-cell percentage 25 (21-29), and ART duration 95 days (95-147), with 6 subjects each with HIV-envelope-subtypes A and D. R5 virus was identified in 8 and DM virus in 4 children. Conclusion In ART-treated adults, the vast majority of persistently infected CD4+ T-cells are memory cells. By contrast, we found that a significant proportion of the reservoir resides in the naïve CD4+ T-cells among Ugandan HIV+ ART-treated children. Infection with DM virus was associated with preferential naïve T-cell infection. In developing strategies to eradicate HIV, it will be important to take into account the high levels of naïve T-cell infection in children, particularly among those with DM virus., Background Functional HIV-1 cure has been described in the setting of myeloablative allogeneic stem cell transplant (alloSCT) with ccr5▵32/ ccr5▵32 donor cells, but the effects of alloSCT on viral reservoirs are largely unknown. We studied the longitudinal effects of reduced-intensity conditioning (RIC) alloSCT on HIV-1 peripheral blood reservoirs in two infected male patients with hematologic malignancies who previously underwent autologous SCT. Methods Analysis of peripheral HIV-1 reservoirs was performed on banked samples (1 pre- and 3 post-RIC-AlloSCT) for both patients, including: 1) quantification of HIV-1 DNA from peripheral blood mononuclear cells (PBMCs), 2) quantification of 2-LTR circles from PBMC episomal DNA, 3) full-length envelope amplification and phenotypic coreceptor usage prediction from proviral DNA, 4) quantification of plasma viremia by a single-copy assay, 5) flow cytometric characterization of lymphocyte subsets and coreceptor expression, and 6) CCR5 genotyping. Results No HIV-1 DNA was detected 8 to 17 months after alloSCT in PBMC from both patients despite presence of modest levels of total PBMC-associated HIV-1 DNA prior to and 2-3 months after SCT (87–271 copies/106 PBMCs). 2-LTR circles were not detected at any time-point despite excellent recovery of episomal mitochondrial DNA. Both patients were heterozygous for ccr5▵32 mutation prior to transplant; a transient reduction in CXCR4 expression was observed following transplant. Pseudoviruses incorporating envelopes from early time-points used predominately CCR5 for entry. Both patients remained virologically suppressed on ART, but were either started on prednisone or continued on tacrolimus/sirolimus immunosuppressive therapy for chronic graft-versus-host disease (GVHD) near the time of loss of HIV-1 reservoir detection. Conclusion PBMC HIV-1 DNA became undetectable 8 months after RIC-alloSCT. This finding may be due to a dilutional effect of donor cell engraftment in the setting of protective ART, the additive effect of cytotoxic therapies, and/or GVHD. Confirmation of results by sampling large-volume blood collections and other tissue compartments is warranted., Background Nonhuman primate (NHP) models are needed for evaluation of proposed but unproven, and potentially dangerous strategies targeting residual virus and latent reservoirs in AIDS virus-infected subjects receiving suppressive antiretroviral drug treatment (ART), but such models have proven challenging to develop. Methods We treated a cohort of 6 Indian rhesus macaques with a novel three class (NRTI, PI, IN-STI) six drug (PMPA/FTC/DRV-RTV/L-870812/L-870564) ART regimen beginning at 4 weeks post-infection with SIVmac239. Peripheral blood CD4+ T cells from ART-treated animals with suppressed viremia were evaluated ex vivo for responses to SAHA, including changes in histone acetylation patterns and induction of expression of SIV. Beginning approximately 26 weeks post infection, animals received four 21 day courses of daily treatment with SAHA, with each course of SAHA separated by an approximately 3 week interval, with continuous ART throughout and longitudinal sampling of blood and lymph nodes for immunological, virological, and pharmacodynamic evaluations. Animals were euthanized and necropsied after the final SAHA dose, while still on ART, and tissues studied virologically. Results The ART regimen was feasible, safe and well tolerated over one year of treatment and allowed suppression of plasma viremia to, Background The “Berlin patient” is the first patient functionally cured of HIV. He received stem cell transplantation from a homozygote CCR5-Δ32 donor. The reconstituted CD4+ T-cell population should be susceptible to infection with CXCR4-using viruses. According to gp120-V3 deep sequencing analysis of plasma-derived variants present before transplantation, the patient harbored a minority (2.9%) of viruses predicted to be CXCR4-tropic (geno2phenocoreceptor FPR 10%). It remains puzzling why these variants failed to emerge post-transplant. We hypothesize that these CXCR4-predicted variants depend on CCR5 for replication. Methods Patient-derived viral constructs were generated by cloning V3-sequences of the CXCR4-predicted viruses (pX1-pX7) and the dominant CCR5-predicted strain (pR5) into HXB2-ΔV3. As controls V3-sequences of HXB2 (cHXB2; CXCR4-tropic) and BaL (cBaL; CCR5-tropic) were cloned. Co-receptor preference was investigated in U-373-MAGI-cells expressing CD4+CCR5+ or CD4+CXCR4+, PBMCs from healthy donors and patient-derived post-transplant CCR5-Δ32 PBMCs. Results Three pre-transplant CXCR4-predicted strains had an amino acid substitution in the V3 glycosylation-motif and one had a lysine at position 25, all associated with CXCR4-tropism. Five of the 7 viral clones were infectious. As expected cHXB2 infected CD4+CXCR4+-MAGI-cells and was inhibited by AMD-3100 (CXCR4-inhibitor) in donor PBMCs. Remarkably, the CXCR4-predicted viruses (FPR 2.7–9.3) depended on CCR5 for replication in MAGI-cells and were inhibited by maraviroc (CCR5-inhibitor) in donor PBMCs similar to pR5 and cBaL. As an ultimate proof it was shown that CXCR4-predicted strains could not replicate in the post-transplant derived CCR5-Δ32 PBMCs, whereas cHXB2 replication was observed. Conclusion The minority population of CXCR4-predicted viral strains which the patient harbored pre-transplant were fully dependent on CCR5 for replication in vitro. This could explain lack of rebound after treatment discontinuation. This provides a strong rationale for the further development of CCR5-targeted gene therapy and suggests that successful reconstitution of CCR5-depleted immune system may work, even if there is some evidence of CXCR4-predicted variants., Background Although HIV-infected individuals can suppress plasma viremia to undetectable levels with antiretroviral therapy, infected cells remain in the body and can contribute to viremia when therapy is discontinued. Macaque models allow investigators to more easily characterize viral reservoirs. Methods Twelve male macaques were infected with RT-SHIV, an SIV virus containing HIV-1 reverse transcriptase, and monitored for plasma viremia and CD4 counts. After 10-14 weeks post-infection, 6 animals were not treated and 6 animals were treated for 17–20 weeks with 3 drugs (tenofovir, lamivudine, and efavirenz) or 4 drugs (tenofovir, lamivudine, efavirenz, and an integrase inhibitor). Viral RNA and viral DNA were measured longitudinally in the blood and at necropsy in over 20 different tissues by quantitative PCR and normalized for cellular RNA and DNA. Results In untreated and treated animals, RT-SHIV DNA was highest in lymphoid and gastrointestinal tissues and very low to absent in the brain, genital tract, and kidney. The amount of viral DNA detected in multiple lymphoid tissues correlated with the level of plasma viremia 1 week post-infection. RT-SHIV RNA was abundant in the lymphoid tissues of untreated macaques with detectable viremia, but was detected variably in different regions of the gastrointestinal tract. Little or no viral RNA was detected in the tissues from animals after 17-20 weeks of therapy. There was no obvious difference in RT-SHIV RNA levels between animals treated with 3 or 4 drugs. Conclusion Our results suggest that the majority of virally-infected cells are located in lymphoid tissues with variable levels in the gastrointestinal tract. The number of infected cells in these reservoirs correlates with viremia one week after infection, suggesting that viral reservoirs are seeded within days of infection. Little viral RNA is evident in tissue after suppressive therapy with either 3 or 4 antiretroviral drugs., Background The role of ongoing virus replication in HIV persistence during long-term antiretroviral therapy is unknown. Since residual replication should result in detectable evolution, we investigated the degree of sequence evolution in blood-derived and rectal tissue-derived CD4+ T cells. Methods Using single-genome and single-proviral sequencing techniques, we obtained 20-50 single viral genomes from pre-therapy plasma samples from 5 subjects who initiated therapy during acute infection and 3 subjects who initiated therapy during chronic infection. Pre-therapy plasma viral sequences were compared to single proviral HIV-1 genomes derived from HIV-1-infected T-cells (naïve, memory, central- and effector-memory) from peripheral blood (PB) and gut-associated lymphoid tissue (GALT) samples collected after 4-12 years of suppressive therapy. Maximum likelihood phylogenetic trees were constructed using the general time reversible model incorporating rate variation among sites. Evolutionary divergence was explored using root-to-tip analysis (Path-O-Gen). Results The geometric mean infection frequency of memory and naïve CD4+ T-cells in the PB was 13- and 24-fold higher respectively in subjects treated during chronic compared to acute infection. This was also true for effector memory CD4+ T-cells from the GALT (6-fold higher). Phylogenetic analysis revealed clear evidence against any substantial evolution between the pre-therapy plasma-derived HIV RNA sequences and on-therapy intracellular HIV DNA sequences. Numerous intracellular HIV sequences identified after long-term therapy contained replication-incompetent virus. One patient had a predominant intracellular clone in both memory and effector memory T-cells containing a 380bp deletion after >9 years of therapy. Conclusion Early initiation of effective therapy results in substantially lower reservoir size in blood and gut. The lack of HIV-1 genetic evolution in the HIV-1 infected CD4+ T-cell populations after years of therapy argues against virus replication as a major cause of persistence in these cell populations. The role of replication in other tissues and cell types however remains to be defined., Background HIV-1-infected individuals who control viremia to below the limit of detection without antiviral therapy have been termed elite controllers (EC). Functional attenuation of some HIV-1 proteins has been reported in EC. However, little is known about role of the HIV-1 accessory protein Vif function in EC, which enhances HIV-1 infectivity through APOBEC3G degradation. In this study, the anti-APOBEC3G function of Vif was compared between EC, chronic progressors (CP) and individuals with acute infection (AI). Methods Forty-nine EC, 49 CP and 44 AI were studied. vif genes were amplified by nested RT-PCR using concentrated plasma. To compare anti-APOBEC3G activity of Vif proteins among those groups, VSV-G-pseudotyped viruses were generated by co-transfecting 293T cells with expression plasmids encoding patient-derived Vif, APOBEC3G, VSV-G, together with a vif/env-deficient HIV-1 proviral DNA clone carrying a luciferase reporter gene. VSV-G-pseudotyped viruses were normalized for p24 antigen and used to infect 293T cells and luciferase activity was measured at 48 h postinfection. Results Anti-APOBEC3G activity of Vif from EC was significantly reduced compared to those from CP or AI (Figure 1). These results remained significant after excluding individuals expressing protective HLA alleles B*27 and/or B*57. No significant difference was observed between CP and AI. Significant differences in amino acid usage in vif genes were found at 7 residues between CP and EC, and at 13 residues between AI and EC. However, there were no common polymorphisms (away from consensus B) that could explain reduced anti-APOBEC3G activity of Vif derived from EC. Conclusion Anti-APOBEC3G activity of Vif proteins derived from EC was reduced. This reduced activity was independent of presence or absence of known protective HLA alleles. Common Vif mutations in EC unlikely explain the observed reduction; rather it might be attributable to unique mutations to each EC Vif protein., Background Repressive epigenetic modifications have been shown to induce and maintain HIV latency; however underlying molecular mechanisms are not yet clear. We have previously demonstrated the critical role of CBF-1 (Latency-C-promoter binding factor 1) in establishing repressive chromatin structures at HIV LTR during latency establishment. The knockdown of CBF-1 results in the reactivation of latent proviruses and overexpression of CBF-1 facilitates latency establishment. Here we extend these studies to show that multiple repressive epigenetic modifications that CBF-1 induces are the result of recruitment of Polycomb Group (PcG) corepressor complex at HIV LTR by CBF-1. Methods Both transformed and primary T cells were infected with lentiviral vectors expressing Tat in cis to study the underlying molecular mechanisms regulating HIV latency and via running various molecular assays, including Chromatin Immunoprecipitation (ChIP) assays. Results In this study, we demonstrate that CBF-1 induces repressive chromatin structures at HIV LTR by recruiting Polycomb Group (PcG) corepressor complex at HIV LTR. The knockdown of endogenous CBF-1 results in the dissociation of PcG complex components from HIV LTR. Furthermore, knockdown of the individual components of PcG complex leads to the reactivation of latent HIV proviruses demonstrating the direct role of PcG complex in establishing HIV latency. Overall our results demonstrate that the CBF-1 induced various epigenetic modifications are the result of recruitment of Polycomb Group (PcG) corepressor complex at HIV LTR, which carry a variety of epigenetic factors that repress HIV gene expression via generating several layers of repressive epigenetic modifications. Conclusion We have established that analogous to the transformed T cell lines in primary T cells CBF-1 induced repressive chromatin structures play important role in establishing HIV latency. Additionally by recruiting PcG corepressor complex at LTR, CBF-1 not only facilitates HIV latency establishment also play critical role in maintaining and stabilizing the latent proviruses., Background Virological and Immunological Studies in CONtrollers after Treatment Interruption (VISCONTI) are required to understand the benefits of an early treatment at acute HIV-1 infection on the HIV reservoir. We studied the distribution, magnitude and inducibility of the HIV reservoir in VISCONTI patients. Methods The prospective VISCONTI study included twelve patients controlling HIV for a median of 76[IQR:67.5–84.5] months after interruption of a 3[IQR:1.7–5.9] years long HAART initiated within 10 weeks post-infection. Circulating resting CD25-CD69-HLADR- CD4+T cell subsets were sorted as naive (TN), central-memory (TCM), transitional-memory (TTM) and effector-memory cells (TEM) for further cell-associated HIV-DNA quantification by ultrasensitive real-time-PCR, and viral inducibility by culture with anti-CD3/anti-CD28/IL-2/IL-7. Reservoir distribution was compared to the one observed in 8 untreated Elite-Controllers for whom 90% of HIV-RNA measures was undetectable (below 200 copies) over 12[9–14] years. Results In the VISCONTI group, activated CD4+T cells had significantly higher HIV-DNA levels than resting ones (median 2.7[IQR:2.4–3.4] and 2[IQR:1.8–2.5] log copies/million cells, p=0.005). HIV-DNA was detected in all subsets from all patients except for 8 out of 12 TN-sorted cells, which were 10 fold less infected than all memory subsets (median TN:1.5[IQR:1.2–1.6], TCM:2.5[IQR:1.8–2.9], TTM:2.6[IQR:2.2–2.8] and TEM:2.4[IQR:2–2.8] log copies/million cells, p< 0.007). TTM was the major subset contributing to 56% of this reservoir. The same HIV reservoir characteristics were observed in Elite-Controllers in term of magnitude and distribution, except that both TCM and TTM equally contributed to the Elite-Controllers HIV reservoir. The VISCONTI HIV reservoir was inducible after TCR-stimulation in all sorted memory subsets from all patients, except in TN where no virus was recovered in 6 out of 8 patients. Conclusion In VISCONTI patients, treatment initiated at primary HIV-1 infection leads, after treatment interruption, to a low -but inducible- durable HIV reservoir distributed mainly in short-lived memory CD4+T cells that mimicks the natural distribution observed in Elite-Controllers., Background A major hurdle toward curing HIV is the establishment of long-lived latent reservoirs such as the CNS. Using an SIV model of HIV infection we examined the effect of combination antiretroviral therapy (cART) on immune and inflammatory gene expression in the periphery and CNS that leads to virus downregulation. Methods To examine the effect of cART on acute and long-term systemic and CNS immunopathogenesis, groups of SIV-infected macaques were untreated and euthanized at 21 postinoculation (dpi) or end stage disease, or treated with cART starting at 4 or 12 dpi and euthanized at 21 or 175 dpi, respectively. RNAs for immune and inflammatory genes were quantified in the spleen and brain by non-amplification Nanostring technology or by qRT-PCR. SIV replication and viral DNA were also measured. Results cART initiation at 4 or 12 dpi did not prevent SIV seeding of the brain; brain viral DNA levels were the same as in untreated animals. cART treatment initiated at 4 dpi had little effect on peripheral and CNS immune and inflammatory gene expression profiles as compared to responses mounted in untreated macaques after acute infection, as indicated by similar levels of IL17A, IL17F, and CCL5 in the periphery and IL-6, IFNß, and TNFa in the CNS. Conclusion The CNS is a latent reservoir for SIV that is seeded early after infection regardless of cART initiation at 4 or 12 dpi. The innate and adaptive immune responses are nearly as effective as early cART treatment at returning the host to peripheral and CNS immune homeostasis by 21 dpi. However, at the same time those responses likely promote the establishment of latent reservoirs by suppressing viral replication, not eliminating the reservoir., Background Toll-like receptors (TLRs) are critical proteins of the innate immune system. We evaluated association of single nucleotide polymorphisms (SNPs) in 6 TLR and 2 TLR-associated genes with infant HIV-1 acquisition and progression. Methods HIV-outcomes were assessed from birth to 1-year of age among infants from a Kenyan perinatal cohort in which HIV-infected women were enrolled during pregnancy and received short-course zidovudine. Infants were genotyped for 6 candidate and 118 haplotype-tagging polymorphisms in TLRs 2, 3, 4, 7, 8, and 9, MyD88 and TIRAP, and 144 ancestral informative markers. Cox proportional hazards and linear regression were performed to assess TLR polymorphism associations with HIV-1 acquisition, peak HIV-1 RNA levels, and infant mortality. Sex-stratified analyses of TLR7 and TLR8 were conducted due to their X-chromosome location. Results Among 368 mother-infant pairs, 56 (15%) infants acquired HIV-1 by month 1 and 17 (4.6%) between 1 and 12 months. Infants with the TLR9 1635A (rs352140) variant were more likely to acquire HIV by 1 month (HR=1.49, 95% confidence interval [CI] =1.04–2.38, p=0.028) and by month 12 (HR=1.40, CI=1.02–1.92, p=0.038) in additive models adjusted for maternal plasma HIV-1 viral load (VL) and genetic ancestry. Among 56 HIV-1 infected infants infected at, Background The Toll-like receptor (TLR) genes mediate the innate response to viral infections and may impact HIV-1 pathogenesis. We evaluated TLR polymorphisms for association with plasma HIV-1 RNA set-point in HIV-1 infected individuals from East and Southern Africa. Methods Analyses included prospective data and DNA from 500 Africans with heterosexually-acquired HIV-1 (125 incident, 375 prevalent). For incident HIV-1, set-point was defined as the median plasma HIV-1 RNA level ≥4 months after the estimated infection date. For prevalent HIV-1, set-point was the average of ≥2 consecutive plasma HIV-1 RNA measurements before ART initiation or CD4 decline to, Background Human cyclophilin A (CypA) encoded by peptidyl prolyl isomerase A gene (PPIA), is an important cellular co-factor for efficient human immunodeficiency virus type 1 (HIV-1) infection. In this study we investigated the effect of genetic variation in the regulatory region of PPIA on HIV-1 disease progression and CypA mRNA expression levels in HIV-1 South African cohorts. Methods A total of 603 black South African participants from these cohorts were genotyped for single nucleotide polymorphism (SNP) A1650G in the regulatory region of CypA using PCR-RFLP. 247 (195 HIV-1 seronegative participants [SNs] and 52 primary infected participants [SPs]) participants were from the CAPRISA acute infection (AI) 002 cohort and 356 HIV-1 chronically infected participants were from the Sinikithemba cohort. CypA mRNA expression was quantified in 30 SNs and 28 SPs from the CAPRISA AI 002 cohort by real-time RT-PCR. Lastly, we assessed the effect of SNPA1650G on viral (NL4.3) replication in PBMCs isolated from HIV-1 negative individuals. Results The minor allele (G) of SNP A1650G (referred to as 1650G) was significantly associated with higher viral load (p, Background Class I Human Leukocyte Antigens (HLA) play an important role in the adaptive immune response by presenting antigens to CD8+ T-cells. Previous studies have reported multiple HLA associations with rates of disease progression in HIV infected individuals, while few class I associations with resistance or susceptibility to HIV-1 infection have been reported. Methods HLA-A, -B, and -C were typed for more than 1000 women enrolled in the Pumwani sex worker cohort using a sequence-based typing method. Kaplan-Meier analysis was used to identify alleles influencing seroconversion and disease progression to AIDS (CD4+ decline to, Background We have recently shown that the IFN-inducible Tripartite motif-containing protein 22 (TRIM22) suppresses basal HIV-1 LTR-mediated transcription through a Tat-and NF-κB-independent mechanism [Kajaste-Rudnitski et al., J Virol 2011, 85(10):5183–96]. In the absence of Tat/TAR RNA complex, HIV-1 transcription can occur through the positive elongation factor (P-TEF) b function and Sp1. We have here investigated whether TRIM22 interferes with Sp1-mediated transcriptional activation of the HIV-1 LTR. Methods 293T cells, devoid of endogenous TRIM22, were transfected with increasing amounts of a TRIM22-expressing plasmid together with a fixed amount of an HIV-1 LTR reporter construct that contains a TAR sequence unresponsive to Tat and two tet-O motifs that bind to rtTA in the presence of doxycycline (Dox). Constructs containing the deletion of one, two or three Sp1 sites were also tested. Results TRIM22 efficiently inhibited Dox-induced WT HIV-1 LTR transcription. Interestingly, this inhibitory effect was progressively lost with the LTR reporters lacking one, two or all three Sp1 binding sites, respectively. In line with these observations, addition of three Sp1 sites into a reporter construct based on a CMV-derived promoter element, normally insensitive to TRIM22, renders it susceptible to TRIM22 transcriptional repression, indicating that TRIM22 could have a broader regulatory role in Sp1-mediated gene expression. Although TRIM22 does not alter overall Sp1 expression levels when transfected into 293T cells, immunoprecipitation experiments performed on 293T cells transfected with a FLAG-tagged TRIM22 revealed that TRIM22 directly interacts with Sp1. Conclusion These results suggest that TRIM22 may inhibit HIV-1 LTR-driven transcriptional initiation through interference with the Sp1-mediated signaling and activation of early HIV-1 gene expression, rendering it an attractive candidate for novel therapeutic approaches., Background We hypothesized that APOBEC3G (A3G) was associated with provirus burden in resting memory CD4+ T cells, and infectivity of HIV produced from them. Methods Cells from antiretroviral-naïve, long-term non-progressor (LTNP, n=7) and HAART-suppressed (HS, n=11) subjects were negatively selected from PBMCs (Robo-Sep). Sorting (FACS Aria, BD) separated activated cells (CD25+, CD69+, CD38+ and HLA-DR+) from resting central memory (Tcm: CCR7+, CD45RO+), resting effector memory (Tem: CCR7-, CD45RO+, which includes resting transitional memory) and resting naïve (CCR7+, CD45RO) T cells. A3G was quantified by immunoblotting (Odyssey, Li-Cor). Provirus was quantified by alu-PCR. Reactivated HIV was recovered from cells treated ex vivo with anti-CD3,8 bispecific monoclonal antibody and IL2. Virus p24 levels in culture supernatants were quantified by ELISA. Infectivity of virus produced from ex vivo activated cells was assessed using TZM-bl indicator cells. Results Tcm and Tem from LTNP had less provirus in vivo than the same cell type from HS subjects (p= 0.01 for Tcm and 0.02 for Tem). A3G protein levels were higher in Tcm and Tem from the LTNP, in comparison to Tcm and Tem from the HS, subjects (p=0.02 for Tcm and p=0.02 for Tem). Virions were recovered from ex vivo activated Tcm from 5 of the HS subjects. Infectivities of normalized virion amounts were inversely associated with the A3G levels in virions produced from them (Spearman r=-0.99, p=0.01) Conclusion Resting central and effector memory CD4+ T cells from LTNP had less provirus and higher levels of A3G protein than the same cell types from HS subjects. Infectivity of HIV reactivated ex vivo from Tcm of HS subjects was inversely associated with virion A3G levels. A3G appears able to restrict viral spread from proviruses reactivated from resting memory CD4+ T cells, suggesting that improving this restriction may contribute to 'curing' HIV., Background The immediate and early dynamic cellular response to an HIV virion entering the cell is not well understood, particularly at the post-transcriptional level where known rapid immune responses occur. Several RNA-binding proteins (RBPs) are known to be important in infection, including HuR, which is known to bind to and regulate the mRNA transcripts of several of the known early entry co-factors such as PPIA, TRIM5, APOBEC3G and CUL5. Methods We have previously integrated three global methods to measure post-transcriptional regulation in Jurkat T cell activation and examine relationships between ribonucleoprotein (RNP) interactions, transcription, RNA stability and translation. Dynamic changes in association with HuR caused measurable effects on RNA stability and translation of mRNAs. Transcripts that increased in association with HuR during activation showed increased stability and translation while those that decreased show decreased stability and translation. Furthermore, these changed transcripts fell into relevant functional groups, where cell cycle regulators were largely decreased in association, stability and translation, and DNA/RNA regulators were largely increased in association, stability and translation. Results To test the effect of post-transcriptional regulation in HIV infection, we used the C8166 T cell line for a near complete and synchronous infection and measured global changes in RNA stability and rates of transcription using 4-thiouridine stability profiling at five time points over the initial 24 hours of infection. Simultaneously, we measured dynamic changes in mRNA association with HuR during the same infection time points. Comparing the two datasets, we observed several mRNA transcripts, including myc mRNA, a known target of HuR, showing dynamic regulation at the level of stability during the infection time course. Conclusion Elucidation of these events supports the involvement of the post-transcriptional response early in HIV infection and suggests that potentially modifying or amplifying the post-transcriptional response may be able to reduce the efficiency of infection., Background Semen, the most common vector for HIV transmission, enhances HIV infection in vitro. We recently identified amyloid fibrils comprised of fragments from semenogelins, the predominant component of the semen coagulum. Semenogelin amyloids interact with virions (Figure 1) and potently enhance HIV infection of target cells. During semen liquefaction, semenogelins are fragmented and eventually completely degraded by PSA. We hypothesized that if semenogelins are important for the viral enhancing activity of semen, then the change in the levels of these proteins during liquefaction should affect the ability of semen to enhance infection. Methods Seminal fluid liquefied for different amounts of time were assayed for viral enhancing activity and semenogelin levels in the absence or presence of PSA inhibitors. We also tested the effect of purified PSA on the activity of amyloids formed from chemically-synthesized semenogelin peptides. Results The viral enhancing activity of semen decreases with increasing liquefaction time in a manner that parallels the degradation of semenogelins. Semenogelin degradation and loss of viral enhancing activity in semen are both prevented in the presence of a PSA inhibitor. Finally, PSA specifically cleaves and inhibits the viral enhancing activity of semenogelin fibrils. Conclusion Seminal fluid's viral enhancing activity is retained for several hours and then progressively decreases during prolonged liquefaction. We found a correlation between activity and semenogelin levels during liquefaction. These findings underscore the importance of semenogelins for the viral enhancing activity of semen. We also provide evidence that PSA directly regulates the activity of semenogelin fibrils, suggesting that these amyloids are regulated by liquefaction. As such, mechanisms to enhance the natural liquefaction process may be a useful approach to limit the ability of semen to enhance viral transmission., Background The relationship between exogenous contraceptive hormones and permissiveness of the female genital tract to human immunodeficiency virus type 1 (HIV-1) remains the subject of intense debate, due to a recent study showing a two-fold increase in the rate of acquisition and transmission in serodiscordant couples using depot medroxyprogesterone acetate (DMPA)[1]. In order to better characterize the effect of DMPA on the vagina, we compared the leukocyte populations and density of epithelial junction proteins in vaginal tissue biopsies of women at baseline (during both the follicular and luteal phases of the menstrual cycle) and 12 weeks after receiving one DMPA injection. Methods Vaginal biopsies were obtained from 20 healthy women in the follicular and luteal phases of the menstrual cycle, and approximately 12 weeks after receiving a 150 milligram intramuscular injection of DMPA. Leukocyte populations, activation phenotype and epithelial thickness and tight junction and adherens proteins were measured by immunohistochemistry and integrated optical density. Statistical analyses were performed using Wilcoxon signed rank tests. Results After DMPA administration, CD3, CD8, CD45, CD68, HLA-DR and CCR5 bearing lymphocytes were all significantly (p0.05). Epithelial thickness and tight junction and adherens proteins were not statistically different between sampling times (p>0.05). Conclusion After exposure to DMPA, vaginal leukocyte populations significantly increase in the vaginal mucosa. In absence of changes in epithelial integrity, the increase in vaginal T cells, activation markers, and HIV-1 receptors point to a possible immunological basis for the observed effects of DMPA on HIV-1 acquisition and transmission in women., Background Semen is the main carrier of sexually transmitted viruses, including HIV-1. However, semen of HIV-infected men is not merely a passive transporter of HIV-1 but, because of its richness in biologically-active compounds, including chemokines, may facilitate HIV-1 transmission. To test this hypothesis and to study HIV-1 transmission under controlled conditions, we evaluated HIV-1 loads and the cytokine milieu in semen and blood from infected men as well as, the role of these cytokines in HIV transmission to cervicovaginal tissue ex vivo. Methods We measured 21 cytokines/chemokines with a multiplex bead assay and evaluated the loads of HIV-1 in seminal and blood plasmas from 50 HIV-1-infected and 28 uninfected Indian men. Results We found that semen and blood are two separate immunological compartments, in which concentrations of cytokines and loads of coinfecting herpesviruses are profoundly different. Upon HIV infection, the levels of blood and semen cytokines were significantly altered, thus facilitating cytokine network compartmentalization. HIV-1 infection changes the seminal cytokine spectrum by upregulating 16 of the 21 measured cytokines, while in blood 2 cytokines were downregulated and 7 were upregulated. One of the most prominent cytokine in semen was IL-7, which was significantly upregulated in semen of HIV-1-infected individuals. IL-7 in concentrations similar to that in semen of HIV-1-infected individuals facilitates HIV-1 infection in cervicovaginal tissue ex vivo. This facilitation is associated with a suppression of apoptosis of infected CD4 T cells. Conclusion HIV-1 infection results in an aberrant production of cytokines, changing the seminal cytokine network. The altered seminal milieu is an important determinant of HIV-1 sexual transmission: Cytokines altered by seminal infection facilitate HIV-1 transmission to cervicovaginal tissue ex vivo. Cervicovaginal tissue infected ex vivo provides a platform to study the mechanisms of this phenomenon and to develop new preventive strategies by targeting the seminal microenvironment., Background Male circumcision has been shown to decrease rates of HIV acquisition in African men. The STEP vaccine trial also demonstrated that vaccinated, uncircumcised men were at increased risk for HIV acquisition. We sought to identify the mode(s) by which HIV infection may occur in uncircumcised men. Methods Foreskins were obtained from consenting male donors receiving prophylactic male circumcision in Rakai, Uganda. Whole penile specimens were obtained from tissue donation organizations (ScienceCare and NDRI). Using fluorescent immunohistochemistry, foreskin keratin layers were labeled with filaggrin and involucrin markers. Penile tissues were incubated with ex vivo with photo-activatable GFP-linked-Vpr HIVBal for 4 hours, snap-frozen, and cryosections stained for target cells and keratin. Images were obtained with epifluorescent microscopy and analyzed for keratin thickness, viral particles, and viral penetration into penile epithelia. Results We found no significant differences between inner and outer foreskin keratin layers from 19 foreskin samples obtained in Uganda, indicating that reduced keratin thickness is not likely to make the inner foreskin more susceptible to HIV. Preliminary data from whole penile specimens (uncircumcised n=7, circumcised n=7) shows no significant difference in number of visualized virions per image captured, but more virions entering uncircumcised as compared to circumcised glans tissue (uncircumcised:circumcised=2:1). Virions were found at distances from the epithelial surface (mean±SD=33.5±22.3 µm) in the range where CD4+ cells are also localized (mean±SD=53.6 ±32.3 µm), in the absence of trauma to the epithelium. Finally, we visualize virions interacting with the male urethral pseudo-stratified columnar epithelia, though to a lesser degree than seen with stratified squamous epithelia (n=5, glans:urethra=2:1). Conclusion These preliminary results suggest preferential routes by which HIV-1 may enter the male genital tract in female-to-male HIV sexual transmission., Background Our laboratory previously reported that HIV binds and signals through Integrin-α4β7, the gut homing receptor, on the surface of CD4+ T-cells. This interaction may be critical during the earliest events of HIV transmission, when the virus rapidly homes to the gut and a massive depletion of gut CD4+ T cells ensues. Understanding the precise manner by which the virus engages α4β7 may therefore provide insights into the earliest events in HIV infection and the design of novel therapeutics. Both its natural ligands (MAdCAM and VCAM) and gp120 bind α4β7 in a cation-dependent manner. In each case a divalent cation bound to the integrin coordinates an aspartic acid (Asp) residue in the ligand. We previously described a highly conserved Asp in the V2-loop of gp120 that mimics the natural ligands of α4β7, and plays a critical role in this interaction. However, MAdCAM and VCAM utilize a second Asp residue and a second coordinating cation to mediate recognition of both α4 and β7 chains in a complex way. Our data suggests that gp120 interactions with α4β7 are similarly complex. Methods To identify critical residues in HIV-gp120 that mediate α4β7-reactivity we designed site-directed Asp mutants in recombinant gp120s, and measured the binding of each mutant to α4β7. Results By this approach, we identified two sites that mediate gp120-α4β7 interactions. A single Asp mutant at either position reduced reactivity with α4β7 by~2-fold relative to the wildtype, while the double Asp mutants diminished α4β7 binding to near-undetectable levels. Conclusion This observation reveals the discontinuous nature of the gp120-a4 7 epitope and suggests gp120 interactions with a4 7 closely mimic MAdCAM and VCAM. These results advance upon our previous understanding of the molecular basis of α4β7-gp120 interactions and lay the groundwork for further structural studies., Background Highly exposed seronegative (HESN) individuals have had repeated exposures to HIV-1 yet remain virus and antibody negative. We evaluated HIV-1 specific NK cell responses in men who have sex with men (MSM) defined as HESN based on high-risk sexual activities engaged in the early 1980's. Methods Fresh, whole blood samples from HIV-1 seropositives on ART (HIVpos), HIV-1 seronegatives (HIVneg), and HESN subjects in the Multicenter AIDS Cohort Study were cultured with overlapping 15-mer peptide pools representing consensus sequences of HIV-1 Gag, Env, and Reg (Tat, Rev, Vif, Vpu, Vpr), or peptide diluent (Tiemessen, et al., JID 2010). The cultures were analyzed for CD3-CD56+ NK cell and CD3+CD8+ T cell responses by flow cytometry. Results HIV-1 peptide-specific NK cell IFN-g and TNF-a responses were present in 19/23 (83%) HIVpos, 6/13 (46%) HESN and 4/21 (19%) HIVneg (P< 0.001 and P=0.07 compared to HIVpos and HESN, respectively). The IFN-g response magnitudes ranged from 1% to 20% of all NK cells: HIVpos=5.6±1.1%, HESN=1.5±0.7%, and HIVneg=0.47±0.1% (P< 0.001 and P=0.065 compared to HIVpos and HESN, respectively). HIVpos NK cells predominately responded to Env peptides, whereas HESN NK cells responded to both Env and Reg peptides. While both HIVpos and HESN demonstrated CD8+ T-cell responses to Env and Reg, only HESN had CD8+ T-cell IFN-g reactivity to Reg in association with NK cell responses. Conclusion We show for the first time that contemporaneous blood samples from MSM defined as HESN exhibit relatively robust, innate NK cell immunity, and less common CD8+ T cell immunity, specific for HIV-1 proteins. These presumably long lasting, NK cell responses to Env and Reg peptides could be due to prior exposure to HIV-1, or to an inherited genetic resistance. In-depth assessment of these virus-specific NK cell responses could be important in designing effective HIV-1 therapeutics and vaccines., Background Marked differences are seen in individuals’ susceptibility to HIV infection. Inflammation and immune activation are critical factors contributing to initial infection with HIV. The objective of this study was to define serum levels of cytokines and biomarkers of inflammation in participants in the Multicenter AIDS Cohort Study (MACS) who were at high risk for acquiring HIV infection but remained HIV seronegative (HESN), and in those at lower risk who did (LRSC), or did not (LRSN), subsequently undergo HIV seroconversion. Methods Serum levels of cytokines, and biomarkers for inflammation were quantified using Luminex multiplexed assays, in 188 HESN, 125 LRSC, and 197 LRSN. LRSC were tested at a study visit preceding HIV seroconversion. HESN were defined as persistently seronegative participants who were multiply-exposed (>45 anal sexual partners in the 2.5 years prior to MACS visit 2). The LRSC and LRSN groups had, Background Mother-to-infant transmission (MTIT) of HIV results in ~400,000 infected children each year, with a transmission rate of 35–40%. In contrast, nonhuman primate species that are naturally infected with SIV in the wild (“natural hosts”, including sooty mangabeys, SMs) rarely transmit SIV from mothers to infants. The mechanisms underlying this protection are unknown. In this study we tested the hypothesis that limited target cell availability protects SMs from MTIT. Methods The availability of target cells (CD4+CCR5+ and CD4+Ki67+ T-cells) for SIV infection in seven uninfected SM infants was measured by flow cytometry among naïve and memory T-cell subsets obtained from tissues (lymph nodes, spleen, tonsil, and multiple sites along the gastrointestinal tract) at necropsy. Results We found that, in infant SMs, the median percentage of CD4+Ki67+ T-cells ranged from 3.2%-10.3% depending on the anatomic site analyzed, with lower values found in CD95-CD28+ naïve CD4+ T-cells. In contrast, the CD95+CD28+CCR7+ central memory and CD95+CD28+CCR7- transitional memory CD4+ T-cells displayed higher median levels of Ki67 (10.4%-49.3%). The percentage of Ki67+CD95+CD28-CCR7- effector memory CD4+ T-cells tended to be between that of the naïve cells and other memory subsets. Despite this increased level of proliferation (compared to adult SMs), CCR5+T-cells comprised, Background Current HIV-1 integrase inhibitors target the catalytic activity, which is vital for sustained viral infection. Integrase mediates the critical step of proviral DNA integration. Efficient integration also requires a crucial cellular co-factor of HIV-1 integrase, LEDGF/p75, that tethers the viral DNA to the host chromatin. LEDGINs, small molecules designed to bind to the LEDGF/p75 interaction site on IN and to disrupt the interaction, have recently been shown to act as potent inhibitors of HIV replication in cell culture. Methods We have now analyzed the detailed mode of action of LEDGINs, dissecting the allosteric nature of inhibition in vitro and analyzing phenotypically their activity in cell culture. Mechanistic studies and combination experiments shed light on potential synergy of LEDGINs with known integration inhibitors. Analysis of the inhibition of a broad spectrum of HIV strains allows predictions on combinations with other drugs such as entry, RT and protease inhibitors. Results Biochemical evaluation of LEDGINs demonstrates in addition to a potent inhibition of the integrase-LEDGF/p75 interaction, a block of the catalytic integrase activities. This allosteric inhibition is promoted by the stabilization of the dimer-interface of IN upon LEDGIN binding most likely by affecting interaction with viral DNA. These properties of LEDGINs result in potent inhibition of HIV replication in both MT2 and PBMC cells. Moreover, LEDGINs are active across a broad range of HIV clades. LEDGINs retained full activity against a panel of viruses containing mutations that confer resistance to integrase strand transfer inhibitors. Combining LEDGINs with strand transfer inhibitors demonstrates a synergistic effect of these classes of integration inhibitors. Conclusion The biochemical data together with the lack of cross resistance and the observed synergistic effects of LEDGINs in combination with strand transfer inhibitors support the potential for combined use of LEDGINs with strand transfer inhibitors in HIV therapy., Background Tenofovir (TFV) is the only microbicide antiretroviral that has shown clinical effectiveness when dosed pericoitally in a vaginal gel. There remains a need to improve TFV delivery by providing long-lasting, coitally-independent, effective drug levels. Intravaginal rings (IVRs) offer this capability; however TFV is hydrophilic and demonstrates inadequate delivery from conventional IVR technologies. Our objective was to develop a novel IVR technology capable of releasing ≥10 mg/d TFV for ≥90 days, alone or co-delivered with 10 or 20 µg/d of the contraceptive levonorgestrel (LNG). Methods IVRs were designed using single (TFV-only) or dual (TFV-LNG) reservoir-type polyurethane (PU) segments. TFV segments comprised water-swellable PU tubing filled with a high density TFV paste. LNG segments comprising a LNG-loaded non-swellable PU core with a rate controlling membrane were cut to 1 and 2 cm lengths to obtain target release rates of 10 and 20 µg/d, respectively. In vitro release testing (IVRT) and 3-month pharmacokinetic (PK) studies in rabbits and sheep evaluated device performance. Results IVRT revealed time-independent and tunable TFV and LNG release rates which were optimized to achieve our target 10 mg/d TFV and 10 or 20 µg/d LNG. In sheep, TFV and LNG release rates were estimated at ~12–17 mg/d and ~14–31 µg/d, respectively. TFV vaginal tissue and fluid levels were ~104 and 106 ng/g, respectively, similar to levels reported after clinical dosing of TFV 1% gel. In rabbits, LNG PK demonstrated 2-fold differences in plasma and cervical tissue concentrations between the two dose groups, as predicted by in vitro release. Conclusion We developed a unique IVR technology that met our target product profile delivering a high flux of a hydrophilic antiretroviral (TFV) alone or with a low flux of a hydrophobic drug (LNG) in a controlled, time-independent manner. PK results are highly encouraging and warrant a Phase I clinical study. [Picture of prototype TFV and TFV/LNG IVRs], Background HIV-1 integrates into the host chromosome and persists as a provirus flanked by long terminal repeats (LTR). To date, treatment regimens primarily target the virus enzymes or virus entry, but not the integrated provirus. Therefore, HAART requires lifelong treatment which is frequently accompanied by the occurrence of substantial side effects and/or the development of drug-resistant viruses. Previously, we engineered a LTR-specific recombinase (Tre-recombinase) that effectively excises integrated HIV-1 proviral DNA from infected human cell cultures, suggesting that customized enzymes might someday help to eradicate HIV-1 from the body. Therefore, we here analyzed the potential of Tre-recombinase to reverse HIV-1 infection in vivo. Methods We constructed an advanced lentiviral self-inactivating (SIN) vector that expresses Tre-recombinase conditionally in HIV-infected cells. We monitored Tre functionality and potential Tre-related cytopathic effects over time in tissue cultures. Moreover, the effect of Tre activity on HIV-1 infection was investigated in humanized mice. Results It is shown that Tre-recombinase is efficiently delivered into cells and accurately excises HIV-1 proviral DNA from chromosomal integration sites. Apparently, prolonged overexpression of Tre-recombinase does not induce undesired cytopathic effects in the transduced cells. Finally, we demonstrate pronounced antiviral activity of Tre-recombinase in HIV-1 infected Rag2−/−?c−/− mice, which were either engrafted with Tre-transduced human CD4+ T cells or with Tre-transduced human CD34+ hematopoietic stem cells (HSC). Conclusion The presented data suggest that Tre-recombinase may be a valuable component of future antiretroviral therapies of the post HAART era that aim at virus eradication, thereby providing a cure for AIDS., Background In HIV infection, the HIV-specific cytotoxic T lymphocyte (CTL) response is a critical component in controlling viral replication that ultimately fails in its ability to eradicate the virus from the body. Our primary aim is the development of a way to enhance the HIV-specific CTL response to allow long-term viral suppression or viral clearance. Methods In our approach, we sought to genetically manipulate human hematopoietic stem cells (HSCs) such that they differentiate into mature CTLs that will kill HIV infected cells. To perform this, we utilized molecularly cloned HIV-specific T cell receptors (TCRs) derived from CD8+ T cells. These TCRs were used to genetically transduce HSCs that were introduced into a humanized mouse and were allowed to differentiate into mature human CD8+ CTLs. Mice expressing the transgenic HIV-specific TCR and, separately, control mice were then infected with HIV-1 and functional cellular responses, viral suppression, and viral and T cell dynamics were assessed. Results We found that genetic modification of human HSCs with a cloned TCR allows proper differentiation of the cells to occur in vivo and these cells migrate to multiple anatomic sites, mimicking what is seen in humans. We observed that the genetically modified HIV-specific CTLs form a functional antiviral response in vivo that results in the significant suppression of HIV replication in multiple organs. In addition, we found significant correlations between the levels of reconstitution with cells bearing the HIV-specific TCR, antigen-driven T cell expansion, and the control of viral replication. Conclusion We have developed a system to closely characterize the engineering of antiviral immunity and HIV-specific CTL responses. Our results strongly suggest that stem cell based gene therapy may be a feasible approach in the treatment of chronic viral infections and provide a foundation towards the development of this type of strategy., Background Treatment of HIV infection by antiretroviral therapy is effective but costly and often associated with numerous side effects. The key to a permanent treatment to chronic HIV infections is to elicit potent host resistance to viral infection and to restore immune functions. The prolonged incubation period of HIV-1 provides a good opportunity for applying non-conventional interventions such as gene therapy. For HIV gene therapy to be effective, the combination of an efficient gene transfer vector and a powerful anti-HIV strategy is necessary. Methods HIV resistance will be established in patients′ hematopoietic stem cells (HSCs) by lentivector (LV) transduction of (i) a microRNA to block endogenous CCR5 expression, (ii) a sequence-modified CCR5Δ32 gene to interfere with the function of native CCR5 and CXCR4 and (iii) effective multiple anti-HIV shRNAs to target viral RNAs. Results We generated LVs encoding the native and a codon-optimized CCR5Δ32 gene. Ectopic expression of CCR5Δ32 in HOS-R5 and Magi-R5 cells established protection against R5-HIV-1 infection. Unexpectedly, we observed severe cytotoxicity in HOS-R5 cells and primary CD4 T cells when CCR5Δ32 was expressed. In a second approach, we generated a LV expressing an H1-promoter driven CCR5 miRNA and demonstrated marked protection against R5-HIV-1 infection. In a third approach, we generated a novel LV expressing three miRNA intronic cassettes (miR155-19a-30a) targeting HIV-1 pol, int and vpu, respectively, and demonstrated marked protection against HIV-1 infection. LV transduction of adult CD34+ HSCs had no adverse effect on hemopoiesis for dendritic cell development but T cell development appeared to be impaired based on an in vitro assay. Conclusion We conclude that ectopic expression of CCR5Δ32 in adult CD34+ HSCs using a constitutive expression promoter is cytotoxic because the CCR5Δ32 transgene can activate uncontrollable intracellular T cell signaling. However, miRNAs targeting endogenous CCR5 and multiple HIV sequences is highly effective against HIV infection without cytotoxicity., Background The transition from native to receptor-bound and eventually to the fusion-competent conformation of HIV-1 envelope glycoprotein (Env) Env requires a tightly choreographed interaction among highly conserved structures within the viral envelope glycoprotein. Recent structural information has revealed that these conformational transitions are regulated by three conserved but highly mobile layers stacked between the receptor-binding domain (gp120) and the fusion arm (gp41) of Env. We hypothesized that limiting the mobility of these layers by artificially insertion of covalent bonds will capture Env in a conformation where conserved sites are stably exposed. Methods We scanned residues that lie at the interface of gp120 layers (layers 1, 2 and 3) and identified targets that are predicted to form disulfide bonds if substituted with paired cysteines. We substituted a pair of residues between layers 1 and 2 with cysteine & expressed and purified the disulfide-stabilized gp120 (and gp140) antigens and analyzed them using Surface Plasmon Resonance (SPR) assay. Following in vitro analysis, we immunized rabbits with both the wild-type and disulfide-stabilized gp120 (and gp140) antigens, adjuvanted with Carbopol+MF59, and evaluated serum antibodies for binding, neutralization and epitope-specificity. Results A single disulfide bond inserted between the highly conserved layers 1 and 2 led to enhanced stability of the receptor bound conformation of gp120. This was revealed by lower dissociation constant (Kd) of the mutant gp120 binding to 17b antibody, which recognized a conserved CD4 induced (CD4i)-epitope on gp120. Upon immunization in rabbits, the disulfide-stabilized gp120 (and gp140) antigens, in comparison to wild-type antigens, elicited higher level of antibodies directed to CD4-binding site and CD4i-site. Conclusion We demonstrate that structure guided stabilization of inter-layer interactions within Env can be used to improve and stabilize the exposure of conserved epitopes on the antigen and elicit improved antibody response, with the aid of a potent adjuvant, upon immunization., Background The limited success of vaccines targeting the MPER of HIV-1 gp41, we hypothesize, may in part reflect the difficulty of mimicking its neutralization-competent structure (NCS). We have developed DNA-vaccine candidates meant to emulate the NCS of the MPER, and report on their ability to elicit MPER-specific, neutralizing (Nt) antibodies (Abs). Methods DNA vaccines encoding various gp41 ectodomain fragments, and the transmembrane region (TM) of either the platelet-derived growth factor receptor (PGDFR), or that of gp41 were engineered, transiently expressed in COS-7 cells, and tested for antigenicity. Rabbits were immunized with plasmid DNA of select candidates; sera were collected and tested for MPER reactivity. Results Work with the protein products of these vaccines has shown they mimic the NCS of the MPER by several criteria, including the ability to be bound tightly by well-characterized Nt MAbs, but weakly by their non-neutralizing mutant-MAb counterparts. Immunizations with plasmids expressing the MPER tethered to the PDGFR-TM elicited MPER-specific Abs that targeted the epitope of the 2F5 NtAb. Immunization with DNA vaccines encoding the MPER and gp41 TM, elicited low-titre Abs that cross-reacted weakly with the MPER, and strongly with regions outside the MPER. Both sets of immunizations failed to produce Abs that cross-reacted with the 4E10 epitope, or neutralized pseudoviruses bearing HIV-1 Env. We found that the presence of the PGDFR-TM significantly reduced MPER-binding to 4E10 MAb, but not by 2F5. Putative models suggest that in the PDGFR-TM fusions, the 4E10 epitope faces into the lipid bilayer, thereby altering its exposure. Conclusion Our work reveals key structural features involved in promoting the NCS of the MPER. While the gp41 TM is vital in properly exposing neutralizing epitopes on the MPER, it was also found to elicit Abs against sites outside the MPER. Current work is focused on engineering the gp41 TM to optimally expose MPER epitopes., Background The classical vaccine approach for combating other viruses has failed so far in dealing with HIV-1, a virus infecting a key component of immune system and with greater diversity and rapid mutation. New approaches are needed to develop a preventative vaccine. The protease of HIV-1 is a small 99-amino acid aspartic enzyme mediating the cleavage of Gag, Gag-Pol and Nef precursor polyproteins. The process is highly specific, temporally regulated and essential for the production of infectious virions. A total of 12 proteolytic reactions are required to generate a viable virion. Therefore, a vaccine targeting the 12 protease cleavage sites(PCS) could be effective. The PCS of HIV-1 are highly conserved, direct immune responses against these sites would yield several advantages. First, the immune response could destroy the virus before its establishment in the host. Second, it could force the virus to accumulate mutations eliminating the normal function of the HIV protease. Third, restricting the immune responses to these sites can avoid distracting immune responses that often generate unwanted inflammatory responses, induce excess immune activation, and attract more targets for HIV-1 infection, establishment and spread. Methods We conducted a pilot study to investigate the feasibility and effectiveness of this approach. The recombinant VSV-peptides were used to immunize cynomolgus macaques and nanopackaged peptides were used to boost the immune response to the 12 PCS of SIVmac239. The controls and immunized macaques were repeatedly challenged intrarectally with an increased dosage of SIVmac239. Results Antibody and T cell responses to the 12 PCS can protect macaques against higher dosage of SIVmac239 challenge (p=0.0005, R=0.8005) and the vaccine group maintains significantly higher CD4+ counts (p=0.0002) than the controls weeks after being infected. Population coverage analysis showed that this approach can be applied to >95% populations in the world. Conclusion Targeting 12 PCS of HIV-1 is a viable approach., Background A strategy combining Canarypox based vaccine, ALVAC-HIV with gp120 protein has resulted in limited but significant protection from HIV infection in The RV144 vaccine efficacy trial. We have previously tested a similar strategy in the non-human primate model of HIV infection obtaining a similar efficacy to what observed in humans. Methods To study the contribution of innate immune responses as correlate of protection, we have performed microarray analysis in the blood collected from 6 macaques at 16, 24 48 and 72 hours after the first two immunizations with ALVAC (V1 and V2 respectively) and the 3rd immunization with ALVAC/gp120 protein (V3). Results Our results show that 1) 24h after the 1st immunization with ALVAC-SIV (V1) genes with antiviral activity were up regulated (MX1, HERC-5, CD79b), but interestingly inflammatory genes where down regulated (IL1, IL18RAP, IFNR1), suggesting a reciprocal regulation of genes for IFN type I and II; 2) similar patterns of gene expression where observed earlier, at 16h from V2, suggesting the presence of "memory -innate" anti viral responses; 3) the 3rd boost with ALVAC, given simultaneously to the gp120 protein adjuvanted in Alum (V3), resulted in significant changes in the gene expression profile when compared to the first two vaccinations. At 24h from this immunization there were a far less number of IFN-related genes that were significantly up regulated (V3=3) when compared to the first and second immunization (V1= 17; V2=27), and the IFN-responses still up regulated were associated with NK cells, B cell- (CD79B) and T cell- (PKC, CD28 TCR) responses. Conclusion These results suggest that each component of vaccination could have contributed to the protection from infection underscored the ALVA/gp120 strategy. Understanding how to induce different types of immune responses that are protective for HIV may be relevant for the generation of more effective vaccine strategies., Background One of the most frequent complications associated with antiretroviral therapy (ART) in HIV-tuberculosis (TB) co-infected patients is the Immune Reconstitution Inflammatory Syndrome (IRIS). While monocytes/macrophages play a major role in both HIV- and TB-infection individually, the putative contribution of monocytes to the development of TB-IRIS remains uncharacterized. We therefore applied a parallel approach of genome-wide microarray analysis and focused gene expression profiling in monocytes from Ugandan HIV-TB co-infected patients before and shortly after ART initiation, to investigate the possible functional contribution of monocytes to the development of IRIS. Methods Monocyte gene expression of TB-IRIS patients and non-TB-IRIS patients was analyzed by Affymetrix GeneChip® Human Gene 1.0 ST Arrays and was confirmed using the nCounter system; datasets were analyzed for overrepresented pathways using Ingenuity Pathway Analysis. Expression levels of and enzymatic activities of proteins of interest were characterized in the isolated monocyte fractions and in the plasma of IRIS patients. Results Pathway analysis indicated that the complement system was significantly modulated in monocytes of TB-IRIS patients, both before initiation of therapy (baseline) and after two weeks of therapy. At baseline, expression of both C1q and C1-inhibitor was higher in TB-IRIS patients. After two weeks, the C1q mRNA levels in the majority of TB-IRIS patients increased, whereas C1-inhibitor mRNA levels decreased pronouncedly. Additionally, the inhibitory activity of C1-inhibitor was significantly higher in TB-IRIS patients compared with non-TB-IRIS patients at baseline but reduced to the level of C1-inhibitor activity in non-TB-IRIS patients at week 2. Conclusion For the first time, we provide evidence that monocytes at least partially contribute to the development of TB-IRIS, probably through the complement system response. An intriguing possibility is that the relative balance between C1q and C1-inhibitor may be affecting the inflammatory function of C1q in the complement cascade., Background We have shown that leishmaniasis contributes to heightened T-cell activation in HIV-1/Visceral leishmaniasis (AVL) patients. Now we investigate whether lipopolysaccharide (LPS) has a crucial role in the pathogenesis of this co-infection. Methods 10 healthy volunteers, 17 AVL/HIV-1 and 16 HIV-1/AIDS patients were recruited. CD4+T counts and CD8+T cells expressing CD38 were analyzed by flow cytometry. LPS and sCD14 levels were measured by enzymatic assays. Plasmatic pro-inflammatory cytokines (IL-1/IL-6/IL-8/IL-17/IFN-γ/TNF-a) were assessed by multiplex analysis. The macrophage migration inhibition factor (MIF) and intestinal fatty acid binding protein (IFABP) were quantified by ELISA. Mann-Whitney and Spearman correlation test were employed for statistical analysis. Multivariate linear regression was used to determine influence of intervenient factors over T-cell activation. Results AVL/HIV-1 patients in leishmaniasis remission presented equal CD4+T counts or T-cell activation levels in comparison to patients in the active phase of leishmaniaisis. Higher levels of CD8+/CD38+ were seen independently of leishmaniasis clinical phase when compared to HIV/AIDS cases (p< 0.05). Viral load levels had no influence in CD8+/CD38+ levels. Co-infected and HIV+ patients presented similar LPS and IFABP levels, but higher than healthy donors (p< 0.001). Pro-inflammatory cytokines levels, but not MIF were significantly augmented in co-infected cases. LPS levels were positively correlated with MIF (r=0.40;p< 0.05). We found positive correlation between LPS levels and CD38 on CD8+ T lymphocytes(p, Background The incidence of HPV-associated lesions is higher in HIV-infected than in HIV-uninfected individuals. Oral and anogenital mucosal epithelia of HIV/AIDS-positive individuals contain infiltrating HIV-infected immune cells that express viral tat and gp120, and proinflammatory cytokines TNF-a and IFN-g. These proteins may disrupt tight junctions (TJ) of mucosal epithelium, facilitating HPV penetration. Our aims were to investigate how HIV-associated disruption of mucosal epithelium promotes HPV infection. Methods Polarized oral and cervical epithelial cells and tissue explants from HIV-uninfected individuals were treated with recombinant HIV-1 tat, gp120, TNF-a and IFN-g independently and together. The cells and tissue explants were exposed to HPV 16 pseudovirions labeled with fluorescent dyes. Paracellular HPV penetration through disrupted epithelium was evaluated by confocal microscopy. Results Treatment of oral and cervical epithelial cells with tat, gp120, TNF-a, or IFN-g independently for 24 h did not induce significant disruption of TJ but the combination of all 4 proteins caused disruption of TJ in about 90% of cells. Prolonged treatment of cells with these proteins independently for 5 days also induced substantial disruption of TJ. Epithelial disruption mediated by these proteins facilitated paracellular PsV passage through polarized cells-30-45% of apically applied virions were detected in the basolateral compartment. Treatment of oral epithelial explants with HIV tat, gp120, TNF-a, and IFN-g led to disruption of epithelial TJ with paracellular HPV penetration into epithelium and entry of HPV into basal cells. Conclusion Our data indicate that HIV tat, gp120, TNF-a, and/or IFN-g in the epithelial microenvironment disrupt epithelial TJ in a time-dependent manner. Alone or together, they potentiate HPV penetration into basal epithelial cells where HPV infection is initiated. Interference with the effects of these proteins may be useful to reduce the risk of HPV infection when applied topically to at-risk genital mucosal epithelium prior to sexual exposure., Background TT virus is genetically variable and widespread among the general population without apparent pathological effects. It has been detected in the peripheral blood and a variety of body fluids such as semen and cervical fluids. Studies from North America and Europe have reported that TTV infection is more prevalent in HIV-1-infected individuals than in healthy control, but its prognostic significance has been controversial. No study has been reported for TTV co-infection in HIV-1-infected Asian people. This study was aimed to demonstrate prevalence, genotypic variability and prognostic significance of TTV coinfection in northern Thailand HIV cohort. Methods A total of 756 HIV-1-infected adults were enrolled in the Lampang HIV cohort in northern Thailand, and their blood samples were collected. HIV-1 plasma viral loads and CD4 counts were measured at enrollment, and their clinical courses had been monitored. 40 healthy Japanese adults were also tested as controls. DNA of 5 TTV genogroups (G1 to G5) was detected by PCR using genogroup-specific primer pairs. Results 753 (99.9%) of 754 HIV-1-infected adults were infected with any genogroup of TTV: G1 (700/754, 93%), G2 (0/754, 0%), G3a (740/754, 98%), G3b (732/754, 97%), G4 (601/754, 80%) and G5 (562/754, 75%). On the other hand, 38 (95%) of 40 healthy Japanese adults were infected with any TTV genogroup: G1 (63%), G2 (3%), G3a (70%), G3b (68%), G4 (63%) and G5 (20%). Infection with more than one genogroup is more common in HIV-1-infected adults (99%) than in controls (68%). 62% HIV-1-infected and only 13% healthy adults were infected with all of G1, G3a, G3b, G4 and G5. Conclusion TTV infection is highly prevalent in both HIV-1-infected and uninfected Asian adults; however, mixed genogroups were much more common in the former. Correlations between certain TTV genogroup or TTV loads and CD4 counts or HIV-1 load will be determined., Background Secreted proteins play an important role in intercellular interactions, especially between cells of the immune system. Infection of human lymphoid tissues by HIV-1 may alter secretion patterns. Here, we describe a novel, easy, inexpensive, and versatile method, which allows the identification and isolation of a living cell actually secreting any protein of interest. Methods We coupled carboxylated magnetic iron oxyde nanoparticles (IONPs) or quantum dots to polyclonal goat anti-mouse IgG(H+L) antibodies (GAM) and used them as a platform to bind a cell-specific antibody, conferring cell targeting, and an antibody specific for a secreted protein. Purified complexed IONPs form an affinity matrix on the cell surface and capture the cell-secreted product, which can then be detected on the surface of the secreting cell by another secreted-protein-specific labeled antibody. Results GAM-IONPs complexed with anti-CD45 antibody and either anti-IL-2 or anti-IFNgamma. This capture assay was as efficient as a commercial assay and intracellular cytokine staining in identifying cells that secrete IL-2 and IFNg. Respectively, these assays detected IL-2 secretion on 16.9±4%, 14.7±1.8% and 16.3±1.4% of T cells (N=6, P, Background Monitoring of antiretroviral treatment (ART) with human immunodeficiency virus (HIV) viral loads, is rarely available in resource-limited settings because of the high costs, stringent requirements for storage and transport of plasma. Monitoring of antiretroviral therapy (ART) with HIV-1 viral load assays to determine virological treatment failure and to decide when to change to second line therapy is highly recommended. Requirements for -80 degrees Celsius freezers for sample storage prohibit implementation of this level of care in resource poor settings. Dried blood spots (DBS) can be used as an alternative to plasma, but the use of DBS for HIV-1 assays has not been assessed in Zimbabwe. This study investigates the performance of DBS for HIV viral load monitoring of patients on ART in Zimbabwe. Methods Parallel forty eight (48) plasma samples and 48 DBS samples were used in this study. They were selected from samples stored at Flow Cytometry Laboratory, Zimbabwe, collected from patients with ART failure and who were being monitored for HIV drug resistance. Viral load assays were performed on 48 samples using plasma and dried blood spots methods. Plasma was separated and frozen at -80 degrees Celsius and DBS were kept at room temperature for 30days. Results The correlation between plasma and DBS viral load was high (R2=0.75). Mean difference was 0.05 log10 copies/mL (SD 0.58), and only 8 samples showed >1 log10 difference. Sensitivity and specificity of DBS to detect virological failure (plasma viral load >400 copies/mL) was 82.5 and 93.1%, respectively. Conclusion There was a very good correlation between DBS stored at room temperature for 30 days and plasma viral load assays. The evaluation shows that DBS can be a feasible and reliable method for virological monitoring of patients on ARVs in rural areas with transport facilities for referring samples to a central laboratory. Abstract Coding GuideExample: MOAA01=(Weekday) MO – (Session type) AA – (Session order) 01 Weekdays: SU (Sunday), MO (Monday), TU (Tuesday), WE (Wednesday), TH (Thursday), FR (Friday) Session types: oral abstract sessions – AA (Track A), AB (Track B), AC (Track C), AD (Track D), AE (Track E), AX (Cross-Track), LBA (Late Breaker Track A), LBB (Late Breaker Track B), LBC (Late Breaker Track C), LBD (Late Breaker Track D), LBE (Late Breaker Track E), LBX (Late Breaker Cross-Track); oral poster discussions sessions – PDA (Track A), PDB (Track B), PDC (Track C), PDD (Track D), PDE (Track E) PDX (Cross-Track) Session order: 01, 02, 03, 04, etc.

Published
2012

50. European guidelines on the clinical management of HIV-1 tropism testing

Author

Vandekerckhove, L.P., Wensing, A.M., Kaiser, R., Brun-Vézinet, F., Clotet, B., de Luca, A., Dressler, S., Garcia, F., Geretti, A.M., Klimkait, T., Korn, K., Masquelier, B., Perno, C.F., Schapiro, J.M., Soriano, V., Sönnerborg, A., Vandamme, A.M., Verhofstede, C., Walter, H., Zazzi, M., Boucher, C.A., Židovec-Lepej, Snježana, and Deenan, Pillay

Subjects
medicine.medical_specialty, Anti-HIV Agents, HIV Infections, HIV-1, Humans, Practice Guidelines as Topic, Viral Tropism, viruses, Population, V3 loop, Settore MED/17 - MALATTIE INFETTIVE, medicine, HIV tropism, Intensive care medicine, education, Genotyping, Tropism, education.field_of_study, business.industry, virus diseases, Settore MED/07 - Microbiologia e Microbiologia Clinica, Infectious Diseases, Tolerability, Immunology, Tissue tropism, tropism testing, European guidelines, clinical management, HIV-1 tropism testing, business, Trofile assay
Abstract

Viral tropism is the ability of viruses to enter and infect specific host cells and is based on the ability of viruses to bind to receptors on those cells. Testing for HIV tropism is recommended before prescribing a chemokine receptor blocker. In most European countries, HIV tropism is identified with tropism phenotype testing. New data support genotype analysis of the HIV third hypervariable loop (V3) for the identification of tropism. The European Consensus Group on clinical management of tropism testing was established to make recommendations to clinicians and clinical virologists. The panel recommends HIV-tropism testing for the following groups: drug-naive patients in whom toxic effects are anticipated or for whom few treatment options are available ; patients who have poor tolerability to or toxic effects from current treatment or who have CNS pathology ; and patients for whom therapy has failed and a change in treatment is considered. In general, an enhanced sensitivity Trofile assay and V3 population genotyping are the recommended methods. Genotypic methods are anticipated to be used more frequently in the clinical setting because of their greater accessibility, lower cost, and faster turnaround time than other methods. For the interpretation of V3 loop genotyping, clinically validated systems should be used when possible. Laboratories doing HIV tropism tests should have adequate quality assurance measures. Similarly, close collaboration between HIV clinicians and virologists is needed to ensure adequate diagnostic and treatment decisions.

Published
2011

Catalog

Books, media, physical & digital resources
See catalog results