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1. Age and sex influence antibody profiles associated with tuberculosis progression

Author

Davies, Leela R. L., Wang, Chuangqi, Steigler, Pia, Bowman, Kathryn A., Fischinger, Stephanie, Hatherill, Mark, Fisher, Michelle, Mbandi, Stanley Kimbung, Rodo, Miguel, Ottenhoff, Tom H. M., Dockrell, Hazel M., Sutherland, Jayne S., Mayanja-Kizza, Harriet, Boom, W. Henry, Walzl, Gerhard, Kaufmann, Stefan H. E., Nemes, Elisa, Scriba, Thomas J., Lauffenburger, Douglas, Alter, Galit, and Fortune, Sarah M.

Published
2024
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2. Classification of early tuberculosis states to guide research for improved care and prevention: an international Delphi consensus exercise

Author

Alland, David, Behr, Marcel A, Beko, Busisiwe B, Burhan, Erlina, Churchyard, Gavin, Cobelens, Frank, Denholm, Justin T, Dinkele, Ryan, Ellner, Jerrold J, Fatima, Razia, Haigh, Kate A, Hatherill, Mark, Horton, Katherine C, Kendall, Emily A, Khan, Palwasha Y, MacPherson, Peter, Malherbe, Stephanus T, Mave, Vidya, Mendelsohn, Simon C, Musvosvi, Munyaradzi, Nemes, Elisa, Penn-Nicholson, Adam, Ramamurthy, Dharanidharan, Rangaka, Molebogeng X, Sahu, Suvanand, Schwalb, Alvaro, Shah, Divya K, Sheerin, Dylan, Simon, Donald, Steyn, Adrie J C, Thu Anh, Nguyen, Walzl, Gerhard, Weller, Charlotte L, Williams, Caroline ML, Wong, Emily B, Wood, Robin, Xie, Yingda L, Yi, Siyan, Coussens, Anna K, Zaidi, Syed M A, Allwood, Brian W, Dewan, Puneet K, Gray, Glenda, Kohli, Mikashmi, Kredo, Tamara, Marais, Ben J, Marks, Guy B, Martinez, Leo, Ruhwald, Morten, Scriba, Thomas J, Seddon, James A, Tisile, Phumeza, Warner, Digby F, Wilkinson, Robert J, Esmail, Hanif, and Houben, Rein M G J

Published
2024
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4. Mtb HLA-E-tetramer-sorted CD8+ T cells have a diverse TCR repertoire

Author

Voogd, Linda, Drittij, Anne M.H.F., Dingenouts, Calinda K.E., Franken, Kees L.M.C., Unen, Vincent van, van Meijgaarden, Krista E., Ruibal, Paula, Hagedoorn, Renate S., Leitner, Judith A., Steinberger, Peter, Heemskerk, Mirjam H.M., Davis, Mark M., Scriba, Thomas J., Ottenhoff, Tom H.M., and Joosten, Simone A.

Published
2024
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5. Neutrophil degranulation, NETosis and platelet degranulation pathway genes are co-induced in whole blood up to six months before tuberculosis diagnosis

Author

Meier, Stuart, Seddon, James A, Maasdorp, Elizna, Kleynhans, Léanie, du Plessis, Nelita, Loxton, Andre G, Malherbe, Stephanus T, Zak, Daniel E, Thompson, Ethan, Duffy, Fergal J, Kaufmann, Stefan HE, Ottenhoff, Tom HM, Scriba, Thomas J, Suliman, Sara, Sutherland, Jayne S, Winter, Jill, Kuivaniemi, Helena, Walzl, Gerhard, Tromp, Gerard, Consortium, GC6-74, and Consortium, Catalysis TB Biomarkers

Subjects
Biomedical and Clinical Sciences, Clinical Sciences, Lung, Infectious Diseases, Rare Diseases, Clinical Research, Tuberculosis, Genetics, Detection, screening and diagnosis, Aetiology, 4.1 Discovery and preclinical testing of markers and technologies, 2.1 Biological and endogenous factors, Infection, Good Health and Well Being, Humans, Neutrophils, Positron Emission Tomography Computed Tomography, Neutrophil Activation, Mycobacterium tuberculosis, Tuberculosis, Lymph Node, GC6-74 Consortium, Catalysis TB Biomarkers Consortium, General Science & Technology
Abstract

Mycobacterium tuberculosis (M.tb) causes tuberculosis (TB) and remains one of the leading causes of mortality due to an infectious pathogen. Host immune responses have been implicated in driving the progression from infection to severe lung disease. We analyzed longitudinal RNA sequencing (RNAseq) data from the whole blood of 74 TB progressors whose samples were grouped into four six-month intervals preceding diagnosis (the GC6-74 study). We additionally analyzed RNAseq data from an independent cohort of 90 TB patients with positron emission tomography-computed tomography (PET-CT) scan results which were used to categorize them into groups with high and low levels of lung damage (the Catalysis TB Biomarker study). These groups were compared to non-TB controls to obtain a complete whole blood transcriptional profile for individuals spanning from early stages of M.tb infection to TB diagnosis. The results revealed a steady increase in the number of genes that were differentially expressed in progressors at time points closer to diagnosis with 278 genes at 13-18 months, 742 at 7-12 months and 5,131 detected 1-6 months before diagnosis and 9,205 detected in TB patients. A total of 2,144 differentially expressed genes were detected when comparing TB patients with high and low levels of lung damage. There was a large overlap in the genes upregulated in progressors 1-6 months before diagnosis (86%) with those in TB patients. A comprehensive pathway analysis revealed a potent activation of neutrophil and platelet mediated defenses including neutrophil and platelet degranulation, and NET formation at both time points. These pathways were also enriched in TB patients with high levels of lung damage compared to those with low. These findings suggest that neutrophils and platelets play a critical role in TB pathogenesis, and provide details of the timing of specific effector mechanisms that may contribute to TB lung pathology.

Published
2022

6. Antigen-specific B cells direct T follicular-like helper cells into lymphoid follicles to mediate Mycobacterium tuberculosis control

Author

Swanson, Rosemary V., Gupta, Ananya, Foreman, Taylor W., Lu, Lan, Choreno-Parra, Jose Alberto, Mbandi, Stanley Kimbung, Rosa, Bruce A., Akter, Sadia, Das, Shibali, Ahmed, Mushtaq, Garcia-Hernandez, Maria de la Luz, Singh, Dhiraj K., Esaulova, Ekaterina, Artyomov, Maxim N., Gommerman, Jennifer, Mehra, Smriti, Zuniga, Joaquin, Mitreva, Makedonka, Scriba, Thomas J., Rangel-Moreno, Javier, Kaushal, Deepak, and Khader, Shabaana A.

Published
2023
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7. T cell receptor repertoires associated with control and disease progression following Mycobacterium tuberculosis infection

Author

Musvosvi, Munyaradzi, Huang, Huang, Wang, Chunlin, Xia, Qiong, Rozot, Virginie, Krishnan, Akshaya, Acs, Peter, Cheruku, Abhilasha, Obermoser, Gerlinde, Leslie, Alasdair, Behar, Samuel M., Hanekom, Willem A., Bilek, Nicole, Fisher, Michelle, Kaufmann, Stefan H. E., Walzl, Gerhard, Hatherill, Mark, Davis, Mark M., and Scriba, Thomas J.

Published
2023
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8. Integrated analysis of whole blood oxylipin and cytokine responses after bacterial, viral, and T cell stimulation reveals new immune networks

Author

Abel, Laurent, Alcover, Andres, Aschard, Hugues, Bousso, Philippe, Bourke, Nollaig, Brodin, Petter, Bruhns, Pierre, Cerf-Bensussan, Nadine, Cumano, Ana, D’Enfert, Christophe, Deriano, Ludovic, Dillies, Marie-Agnès, Di Santo, James, Eberl, Gérard, Enninga, Jost, Fellay, Jacques, Gomperts-Boneca, Ivo, Hasan, Milena, Hedestam, Gunilla Karlsson, Hercberg, Serge, Ingersoll, Molly A., Lantz, Olivier, Kenny, Rose Anne, Ménager, Mickaël, Mouquet, Hugo, O'Farrelly, Cliona, Patin, Etienne, Pellegrini, Sandra, Rausell, Antonio, Rieux-Laucat, Frédéric, Rogge, Lars, Fontes, Magnus, Sakuntabhai, Anavaj, Schwartz, Olivier, Schwikowski, Benno, Shorte, Spencer, Tangy, Frédéric, Toubert, Antoine, Touvier, Mathilde, Ungeheuer, Marie-Noëlle, Zimmer, Christophe, Albert, Matthew L., Duffy, Darragh, Quintana-Murci, Lluis, Villain, Etienne, Chanson, Aurélie, Mainka, Malwina, Kampschulte, Nadja, Le Faouder, Pauline, Bertrand-Michel, Justine, Brandolini-Bunlon, Marion, Charbit, Bruno, Musvosvi, Munyaradzi, Bilek, Nicole, Scriba, Thomas J., Schebb, Nils Helge, and Gladine, Cécile

Published
2023
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9. RISK6, a 6-gene transcriptomic signature of TB disease risk, diagnosis and treatment response

Author

Penn-Nicholson, Adam, Mbandi, Stanley Kimbung, Thompson, Ethan, Mendelsohn, Simon C, Suliman, Sara, Chegou, Novel N, Malherbe, Stephanus T, Darboe, Fatoumatta, Erasmus, Mzwandile, Hanekom, Willem A, Bilek, Nicole, Fisher, Michelle, Kaufmann, Stefan HE, Winter, Jill, Murphy, Melissa, Wood, Robin, Morrow, Carl, Van Rhijn, Ildiko, Moody, Branch, Murray, Megan, Andrade, Bruno B, Sterling, Timothy R, Sutherland, Jayne, Naidoo, Kogieleum, Padayatchi, Nesri, Walzl, Gerhard, Hatherill, Mark, Zak, Daniel, and Scriba, Thomas J

Subjects
Biomedical and Clinical Sciences, Clinical Sciences, Clinical Research, Prevention, Infectious Diseases, HIV/AIDS, Lung, Tuberculosis, Rare Diseases, 4.1 Discovery and preclinical testing of markers and technologies, Detection, screening and diagnosis, 4.2 Evaluation of markers and technologies, Infection, Good Health and Well Being, Adolescent, Area Under Curve, Biomarkers, Cohort Studies, Female, HIV Infections, Humans, Male, Mycobacterium tuberculosis, Point-of-Care Systems, Positron-Emission Tomography, Prognosis, RNA, Bacterial, ROC Curve, Real-Time Polymerase Chain Reaction, Sensitivity and Specificity, Adolescent Cohort Study team, GC6-74 Consortium, SATVI Clinical and Laboratory Team, ScreenTB Consortium, AE-TBC Consortium, RePORT Brazil Team, Peruvian Household Contacts Cohort Team, CAPRISA IMPRESS team
Abstract

Improved tuberculosis diagnostics and tools for monitoring treatment response are urgently needed. We developed a robust and simple, PCR-based host-blood transcriptomic signature, RISK6, for multiple applications: identifying individuals at risk of incident disease, as a screening test for subclinical or clinical tuberculosis, and for monitoring tuberculosis treatment. RISK6 utility was validated by blind prediction using quantitative real-time (qRT) PCR in seven independent cohorts. Prognostic performance significantly exceeded that of previous signatures discovered in the same cohort. Performance for diagnosing subclinical and clinical disease in HIV-uninfected and HIV-infected persons, assessed by area under the receiver-operating characteristic curve, exceeded 85%. As a screening test for tuberculosis, the sensitivity at 90% specificity met or approached the benchmarks set out in World Health Organization target product profiles for non-sputum-based tests. RISK6 scores correlated with lung immunopathology activity, measured by positron emission tomography, and tracked treatment response, demonstrating utility as treatment response biomarker, while predicting treatment failure prior to treatment initiation. Performance of the test in capillary blood samples collected by finger-prick was noninferior to venous blood collected in PAXgene tubes. These results support incorporation of RISK6 into rapid, capillary blood-based point-of-care PCR devices for prospective assessment in field studies.

Published
2020

10. Immune Phenotype and Functionality of Mtb-Specific T-Cells in HIV/TB Co-Infected Patients on Antiretroviral Treatment.

Author

Mupfumi, Lucy, Mpande, Cheleka AM, Reid, Tim, Moyo, Sikhulile, Shin, Sanghyuk S, Zetola, Nicola, Mogashoa, Tuelo, Musonda, Rosemary M, Kasvosve, Ishmael, Scriba, Thomas J, Nemes, Elisa, and Gaseitsiwe, Simani

Subjects
CD38, HLA-DR, immune activation, treatment response, Immunology, Medical Microbiology
Abstract

The performance of host blood-based biomarkers for tuberculosis (TB) in HIV-infected patients on antiretroviral therapy (ART) has not been fully assessed. We evaluated the immune phenotype and functionality of antigen-specific T-cell responses in HIV positive (+) participants with TB (n = 12) compared to HIV negative (-) participants with either TB (n = 9) or latent TB infection (LTBI) (n = 9). We show that the cytokine profile of Mtb-specific CD4+ T-cells in participants with TB, regardless of HIV status, was predominantly single IFN-γ or dual IFN-γ/ TNFα. Whilst ESAT-6/CFP-10 responding T-cells were predominantly of an effector memory (CD27-CD45RA-CCR7-) profile, HIV-specific T-cells were mainly of a central (CD27+CD45RA-CCR7+) and transitional memory (CD27+CD45RA+/-CCR7-) phenotype on both CD4+ and CD8+ T-cells. Using receiving operating characteristic (ROC) curve analysis, co-expression of CD38 and HLA-DR on ESAT-6/CFP-10 responding total cytokine-producing CD4+ T-cells had a high sensitivity for discriminating HIV+TB (100%, 95% CI 70-100) and HIV-TB (100%, 95% CI 70-100) from latent TB with high specificity (100%, 95% CI 68-100 for HIV-TB) at a cut-off value of 5% and 13%, respectively. TB treatment reduced the proportion of Mtb-specific total cytokine+CD38+HLA-DR+ CD4+ T-cells only in HIV-TB (p = 0.001). Our results suggest that co-expression of CD38 and HLA-DR on Mtb-specific CD4+ T-cells could serve as a TB diagnosis tool regardless of HIV status.

Published
2020

11. MR1-Independent Activation of Human Mucosal-Associated Invariant T Cells by Mycobacteria

Author

Suliman, Sara, Murphy, Melissa, Musvosvi, Munyaradzi, Gela, Anele, Meermeier, Erin W, Geldenhuys, Hennie, Hopley, Christiaan, Toefy, Asma, Bilek, Nicole, Veldsman, Ashley, Hanekom, Willem A, Johnson, John L, Boom, W Henry, Obermoser, Gerlinde, Huang, Huang, Hatherill, Mark, Lewinsohn, David M, Nemes, Elisa, and Scriba, Thomas J

Subjects
Biomedical and Clinical Sciences, Immunology, Rare Diseases, Vaccine Related, Immunization, HIV/AIDS, Prevention, Infectious Diseases, Clinical Research, Tuberculosis, Tuberculosis Vaccine, Aetiology, 2.1 Biological and endogenous factors, Infection, Good Health and Well Being, Adolescent, Child, Cohort Studies, Cytokines, Histocompatibility Antigens Class I, Humans, Minor Histocompatibility Antigens, Mucosal-Associated Invariant T Cells, Mycobacterium tuberculosis, Receptors, Antigen, T-Cell, Biochemistry and cell biology
Abstract

Tuberculosis (TB) is the leading cause of mortality from a single infectious agent, Mycobacterium tuberculosis Relevant immune targets of the partially efficacious TB vaccine bacille Calmette-Guérin (BCG) remain poorly defined. Mucosal-associated invariant T (MAIT) cells are MHC-related protein 1 (MR1)-restricted T cells, which are reactive against M. tuberculosis, and underexplored as potential TB vaccine targets. We sought to determine whether BCG vaccination activated mycobacteria-specific MAIT cell responses in humans. We analyzed whole blood samples from M. tuberculosis-infected South African adults who were revaccinated with BCG after a six-month course of isoniazid preventative therapy. In vitro BCG stimulation potently induced IFN-γ expression by phenotypic (CD8+CD26+CD161+) MAIT cells, which constituted the majority (75%) of BCG-reactive IFN-γ-producing CD8+ T cells. BCG revaccination transiently expanded peripheral blood frequencies of BCG-reactive IFN-γ+ MAIT cells, which returned to baseline frequencies a year following vaccination. In another cohort of healthy adults who received BCG at birth, 53% of mycobacteria-reactive-activated CD8 T cells expressed CDR3α TCRs, previously reported as MAIT TCRs, expressing the canonical TRAV1-2-TRAJ33 MAIT TCRα rearrangement. CD26 and CD161 coexpression correlated with TRAV1-2+CD161+ phenotype more accurately in CD8+ than CD4-CD8- MAIT cells. Interestingly, BCG-induced IFN-γ expression by MAIT cells in vitro was mediated by the innate cytokines IL-12 and IL-18 more than MR1-induced TCR signaling, suggesting TCR-independent activation. Collectively, the data suggest that activation of blood MAIT cells by innate inflammatory cytokines is a major mechanism of responsiveness to vaccination with whole cell vaccines against TB or in vitro stimulation with mycobacteria (Clinical trial registration: NCT01119521).

Published
2019

13. Discovery and validation of a prognostic proteomic signature for tuberculosis progression: A prospective cohort study

Author

Penn-Nicholson, Adam, Hraha, Thomas, Thompson, Ethan G, Sterling, David, Mbandi, Stanley Kimbung, Wall, Kirsten M, Fisher, Michelle, Suliman, Sara, Shankar, Smitha, Hanekom, Willem A, Janjic, Nebojsa, Hatherill, Mark, Kaufmann, Stefan HE, Sutherland, Jayne, Walzl, Gerhard, De Groote, Mary Ann, Ochsner, Urs, Zak, Daniel E, and Scriba, Thomas J

Subjects
Biomedical and Clinical Sciences, Clinical Sciences, Infectious Diseases, Rare Diseases, HIV/AIDS, Tuberculosis, Clinical Research, Prevention, Detection, screening and diagnosis, 4.1 Discovery and preclinical testing of markers and technologies, 4.2 Evaluation of markers and technologies, Infection, Good Health and Well Being, Adolescent, Biomarkers, Child, Cohort Studies, Diagnostic Tests, Routine, Disease Progression, Female, Humans, Longitudinal Studies, Male, Point-of-Care Testing, Prognosis, Prospective Studies, Proteome, Proteomics, ACS and GC6–74 cohort study groups, Medical and Health Sciences, General & Internal Medicine, Biomedical and clinical sciences, Health sciences
Abstract

BackgroundA nonsputum blood test capable of predicting progression of healthy individuals to active tuberculosis (TB) before clinical symptoms manifest would allow targeted treatment to curb transmission. We aimed to develop a proteomic biomarker of risk of TB progression for ultimate translation into a point-of-care diagnostic.Methods and findingsProteomic TB risk signatures were discovered in a longitudinal cohort of 6,363 Mycobacterium tuberculosis-infected, HIV-negative South African adolescents aged 12-18 years (68% female) who participated in the Adolescent Cohort Study (ACS) between July 6, 2005 and April 23, 2007, through either active (every 6 months) or passive follow-up over 2 years. Forty-six individuals developed microbiologically confirmed TB disease within 2 years of follow-up and were selected as progressors; 106 nonprogressors, who remained healthy, were matched to progressors. Over 3,000 human proteins were quantified in plasma with a highly multiplexed proteomic assay (SOMAscan). Three hundred sixty-one proteins of differential abundance between progressors and nonprogressors were identified. A 5-protein signature, TB Risk Model 5 (TRM5), was discovered in the ACS training set and verified by blind prediction in the ACS test set. Poor performance on samples 13-24 months before TB diagnosis motivated discovery of a second 3-protein signature, 3-protein pair-ratio (3PR) developed using an orthogonal strategy on the full ACS subcohort. Prognostic performance of both signatures was validated in an independent cohort of 1,948 HIV-negative household TB contacts from The Gambia (aged 15-60 years, 66% female), longitudinally followed up for 2 years between March 5, 2007 and October 21, 2010, sampled at baseline, month 6, and month 18. Amongst these contacts, 34 individuals progressed to microbiologically confirmed TB disease and were included as progressors, and 115 nonprogressors were included as controls. Prognostic performance of the TRM5 signature in the ACS training set was excellent within 6 months of TB diagnosis (area under the receiver operating characteristic curve [AUC] 0.96 [95% confidence interval, 0.93-0.99]) and 6-12 months (AUC 0.76 [0.65-0.87]) before TB diagnosis. TRM5 validated with an AUC of 0.66 (0.56-0.75) within 1 year of TB diagnosis in the Gambian validation cohort. The 3PR signature yielded an AUC of 0.89 (0.84-0.95) within 6 months of TB diagnosis and 0.72 (0.64-0.81) 7-12 months before TB diagnosis in the entire South African discovery cohort and validated with an AUC of 0.65 (0.55-0.75) within 1 year of TB diagnosis in the Gambian validation cohort. Signature validation may have been limited by a systematic shift in signal magnitudes generated by differences between the validation assay when compared to the discovery assay. Further validation, especially in cohorts from non-African countries, is necessary to determine how generalizable signature performance is.ConclusionsBoth proteomic TB risk signatures predicted progression to incident TB within a year of diagnosis. To our knowledge, these are the first validated prognostic proteomic signatures. Neither meet the minimum criteria as defined in the WHO Target Product Profile for a progression test. More work is required to develop such a test for practical identification of individuals for investigation of incipient, subclinical, or active TB disease for appropriate treatment and care.

Published
2019

14. Developing tuberculosis vaccines for people with HIV: consensus statements from an international expert panel

Author

Miner, Maurine D, Hatherill, Mark, Mave, Vidya, Gray, Glenda E, Nachman, Sharon, Read, Sarah W, White, Richard G, Hesseling, Anneke, Cobelens, Frank, Patel, Sheral, Frick, Mike, Bailey, Theodore, Seder, Robert, Flynn, Joanne, Rengarajan, Jyothi, Kaushal, Deepak, Hanekom, Willem, Schmidt, Alexander C, Scriba, Thomas J, Nemes, Elisa, Andersen-Nissen, Erica, Landay, Alan, Dorman, Susan E, Aldrovandi, Grace, Cranmer, Lisa M, Day, Cheryl L, Garcia-Basteiro, Alberto L, Fiore-Gartland, Andrew, Mogg, Robin, Kublin, James G, Gupta, Amita, and Churchyard, Gavin

Published
2022
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18. Prospective multicentre head-to-head validation of host blood transcriptomic biomarkers for pulmonary tuberculosis by real-time PCR

Author

Mendelsohn, Simon C., Mbandi, Stanley Kimbung, Fiore-Gartland, Andrew, Penn-Nicholson, Adam, Musvosvi, Munyaradzi, Mulenga, Humphrey, Fisher, Michelle, Hadley, Katie, Erasmus, Mzwandile, Nombida, Onke, Tameris, Michèle, Walzl, Gerhard, Naidoo, Kogieleum, Churchyard, Gavin, Hatherill, Mark, and Scriba, Thomas J.

Published
2022
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23. Co-regulation of innate and adaptive immune responses induced by ID93+GLA-SE vaccination in humans.

Author

Fiore-Gartland, Andrew, Srivastava, Himangi, Seese, Aaron, Day, Tracey, Penn-Nicholson, Adam, Kany Luabeya, Angelique Kany, Du Plessis, Nelita, Loxton, Andre G., Bekker, Linda-Gail, Diacon, Andreas, Walzl, Gerhard, Sagawa, Zachary K., Reed, Steven G., Scriba, Thomas J., Hatherill, Mark, and Coler, Rhea

Subjects
VACCINE effectiveness, GENE regulatory networks, TUBERCULOSIS vaccines, GLOBAL burden of disease, T cells
Abstract

Introduction: Development of an effective vaccine against tuberculosis is a critical step towards reducing the global burden of disease. A therapeutic vaccine might also reduce the high rate of TB recurrence and help address the challenges of drug-resistant strains. ID93+GLA-SE is a candidate subunit vaccine that will soon be evaluated in a phase 2b efficacy trial for prevention of recurrent TB among patients undergoing TB treatment. ID93+GLA-SE vaccination was shown to elicit robust CD4+ T cell and IgG antibody responses among recently treated TB patients in the TBVPX-203 Phase 2a study (NCT02465216), but the mechanisms underlying these responses are not well understood. Methods: In this study we used specimens from TBVPX-203 participants to describe the changes in peripheral blood gene expression that occur after ID93 +GLA-SE vaccination. Results: Analyses revealed several distinct modules of co-varying genes that were either up-or down-regulated after vaccination, including genes associated with innate immune pathways at 3 days post-vaccination and genes associated with lymphocyte expansion and B cell activation at 7 days post-vaccination. Notably, the regulation of these gene modules was affected by the dose schedule and by participant sex, and early innate gene signatures were correlated with the ID93-specific CD4+ T cell response. vDiscussion: The results provide insight into the complex interplay of the innate and adaptive arms of the immune system in developing responses to vaccination with ID93+GLA-SE and demonstrate how dosing and schedule can affect vaccine responses. [ABSTRACT FROM AUTHOR]

Published
2024
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24. Mtb -Specific HLA-E-Restricted T Cells Are Induced during Mtb Infection but Not after BCG Administration in Non-Human Primates and Humans.

Author

Voogd, Linda, van Wolfswinkel, Marjolein, Satti, Iman, White, Andrew D., Dijkman, Karin, Gela, Anele, van Meijgaarden, Krista E., Franken, Kees L. M. C., Marshall, Julia L., Ottenhoff, Tom H. M., Scriba, Thomas J., McShane, Helen, Sharpe, Sally A., Verreck, Frank A. W., and Joosten, Simone A.

Abstract

Background: Novel vaccines targeting the world's deadliest pathogen Mycobacterium tuberculosis (Mtb) are urgently needed as the efficacy of the Bacillus Calmette–Guérin (BCG) vaccine in its current use is limited. HLA-E is a virtually monomorphic unconventional antigen presentation molecule, and HLA-E-restricted Mtb-specific CD8+ T cells can control intracellular Mtb growth, making HLA-E a promising vaccine target for Mtb. Methods: In this study, we evaluated the frequency and phenotype of HLA-E-restricted Mtb-specific CD4+/CD8+ T cells in the circulation and bronchoalveolar lavage fluid of two independent non-human primate (NHP) studies and from humans receiving BCG either intradermally or mucosally. Results: BCG vaccination followed by Mtb challenge in NHPs did not affect the frequency of circulating and local HLA-E–Mtb CD4+ and CD8+ T cells, and we saw the same in humans receiving BCG. HLA-E–Mtb T cell frequencies were significantly increased after Mtb challenge in unvaccinated NHPs, which was correlated with higher TB pathology. Conclusions: Together, HLA-E–Mtb-restricted T cells are minimally induced by BCG in humans and rhesus macaques (RMs) but can be elicited after Mtb infection in unvaccinated RMs. These results give new insights into targeting HLA-E as a potential immune mechanism against TB. [ABSTRACT FROM AUTHOR]

Published
2024
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25. Poly(ADP-ribose) polymerase 9 mediates early protection against Mycobacterium tuberculosis infection by regulating type I IFN production

Author

Thirunavukkarasu, Shyamala, Ahmed, Mushtaq, Rosa, Bruce A., Boothby, Mark, Cho, Sung Hoon, Rangel-Moreno, Javier, Mbandi, Stanley K., Schreiber, Valerie, Gupta, Ananya, Zuniga, Joaquin, Mitreva, Makedonka, Kaushal, Deepak, Scriba, Thomas J., and Khader, Shabaana A.

Subjects
Interferon -- Health aspects, Tuberculosis -- Development and progression, Cellular proteins -- Health aspects, Immune response -- Regulation, Health care industry
Abstract

The ADP ribosyltransferases (PARPs 1-17) regulate diverse cellular processes, including DNA damage repair. PARPs are classified on the basis of their ability to catalyze poly-ADP-ribosylation (PARylation) or mono-ADP-ribosylation (MARylation). Although PARP9 mRNA expression is significantly increased in progressive tuberculosis (TB) in humans, its participation in host immunity to TB is unknown. Here, we show that PARP9 mRNA encoding the MARylating PARP9 enzyme was upregulated during TB in humans and mice and provide evidence of a critical modulatory role for PARP9 in DNA damage, cyclic GMP-AMP synthase (cGAS) expression, and type I IFN production during TB. Thus, Parp9-deficient mice were susceptible to Mycobacterium tuberculosis infection and exhibited increased TB disease, cGAS and 2'3'-cyclic GMP-AMP (cGAMP) expression, and type I IFN production, along with upregulation of complement and coagulation pathways. Enhanced M. tuberculosis susceptibility is type I IFN dependent, as blockade of IFN a receptor (IFNAR) signaling reversed the enhanced susceptibility of [Parp9.sup.-/-] mice. Thus, in sharp contrast to PARP9 enhancement of type I IFN production in viral infections, this member of the MAR family plays a protective role by limiting type I IFN responses during TB., Introduction Mycobacterium tuberculosis infects approximately 25% of the world's population and causes tuberculosis (TB), a leading infectious disease that results in approximately 1.3 million deaths annually. Although a majority of [...]

Published
2023
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26. Four-Gene Pan-African Blood Signature Predicts Progression to Tuberculosis

Author

Suliman, Sara, Thompson, Ethan G, Sutherland, Jayne, Weiner, January, Ota, Martin OC, Shankar, Smitha, Penn-Nicholson, Adam, Thiel, Bonnie, Erasmus, Mzwandile, Maertzdorf, Jeroen, Duffy, Fergal J, Hill, Philip C, Hughes, E Jane, Stanley, Kim, Downing, Katrina, Fisher, Michelle L, Valvo, Joe, Parida, Shreemanta K, van der Spuy, Gian, Tromp, Gerard, Adetifa, Ifedayo MO, Donkor, Simon, Howe, Rawleigh, Mayanja-Kizza, Harriet, Boom, W Henry, Dockrell, Hazel M, Ottenhoff, Tom HM, Hatherill, Mark, Aderem, Alan, Hanekom, Willem A, Scriba, Thomas J, Kaufmann, Stefan HE, Zak, Daniel E, Walzl, Gerhard, Black, Gillian F, Kriel, Magdalena, Du Plessis, Nelita, Nene, Nonhlanhla, Roberts, Teri, Kleynhans, Leanie, Gutschmidt, Andrea, Smith, Bronwyn, Loxton, Andre G, Chegou, Novel N, Tromp, Gerhardus, Tabb, David, Klein, Michel R, Haks, Marielle C, Franken, Kees LMC, Geluk, Annemieke, van Meijgaarden, Krista E, Joosten, Simone A, Joloba, Moses, Zalwango, Sarah, Nsereko, Mary, Okwera, Brenda, Kisingo, Hussein, Golinski, Robert, Jacobson, Marc, Dockrell, Hazel, Smith, Steven, Gorak-Stolinska, Patricia, Hur, Yun-Gyoung, Lalor, Maeve, Lee, Ji-Sook, Crampin, Amelia C, French, Neil, Ngwira, Bagrey, Ben-Smith, Anne, Watkins, Kate, Ambrose, Lyn, Simukonda, Felanji, Mvula, Hazzie, Chilongo, Femia, Saul, Jacky, Branson, Keith, Mahomed, Hassan, Bilek, Nicole, Xasa, Onke, Veldsman, Ashley, Fisher, Michelle, and Mulenga, Humphrey

Subjects
HIV/AIDS, Rare Diseases, Infectious Diseases, Tuberculosis, Clinical Research, Emerging Infectious Diseases, Prevention, Genetics, 2.1 Biological and endogenous factors, 4.2 Evaluation of markers and technologies, 4.1 Discovery and preclinical testing of markers and technologies, Aetiology, Detection, screening and diagnosis, Infection, Good Health and Well Being, GC6-74 cohort study team, The ACS cohort study team, biomarkers, gene expression, tuberculosis, Medical and Health Sciences, Respiratory System
Abstract

Rationale: Contacts of patients with tuberculosis (TB) constitute an important target population for preventive measures because they are at high risk of infection with Mycobacterium tuberculosis and progression to disease.Objectives: We investigated biosignatures with predictive ability for incident TB.Methods: In a case-control study nested within the Grand Challenges 6-74 longitudinal HIV-negative African cohort of exposed household contacts, we employed RNA sequencing, PCR, and the pair ratio algorithm in a training/test set approach. Overall, 79 progressors who developed TB between 3 and 24 months after diagnosis of index case and 328 matched nonprogressors who remained healthy during 24 months of follow-up were investigated.Measurements and Main Results: A four-transcript signature derived from samples in a South African and Gambian training set predicted progression up to two years before onset of disease in blinded test set samples from South Africa, the Gambia, and Ethiopia with little population-associated variability, and it was also validated in an external cohort of South African adolescents with latent M. tuberculosis infection. By contrast, published diagnostic or prognostic TB signatures were predicted in samples from some but not all three countries, indicating site-specific variability. Post hoc meta-analysis identified a single gene pair, C1QC/TRAV27 (complement C1q C-chain / T-cell receptor-α variable gene 27) that would consistently predict TB progression in household contacts from multiple African sites but not in infected adolescents without known recent exposure events.Conclusions: Collectively, we developed a simple whole blood-based PCR test to predict TB in recently exposed household contacts from diverse African populations. This test has potential for implementation in national TB contact investigation programs.

Published
2018

30. Validation of a host blood transcriptomic biomarker for pulmonary tuberculosis in people living with HIV: a prospective diagnostic and prognostic accuracy study

Author

Abrahams, Charmaine, Africa, Hadn, Ahlers, Petri, Arendsen, Denis, Badimo, Tebogo, Baepanye, Kagiso, Baepanye, Kesenogile Edna, Bande, Bianca, Batyi, Nomfuneko Cynthia, Beukes, Roslyn, Bontsi, Laudicia Tshenolo, Booi, Obakeng Peter, Botha, Mari Cathrin, Braaf, Samentra, Buhlungu, Sivuyile, Carstens, Alida, Chauke, Kgomotso Violet, Chinappa, Thilagavathy, Chung, Eva, Chung, Michelle, Clarke, Ken, Cloete, Yolundi, Coetzee, Lorraine, Collignon, Marelize, Companie, Alessandro, Corris, Cara-mia, Cwaile, Mooketsi Theophillius, Cwele, Thobelani, Davids, Ilse, Davies, Isabella Johanna, De Klerk, Emilia, de Kock, Marwou, Dhlamini, Audrey Lebohang, Diamond, Bongani, Didloff, Maria, Dlamini, Celaphiwe, Dolo, Palesa, Eyre, Candice, Feni, Tebogo, Ferreira, Juanita, Ferus, Christal, Fisher, Michelle, Flinn, Marika, Fransman, Bernadine, Galane, Welseh Phindile, Geldenhuys, Hennie, Gempies, Diann, Goliath, Thelma, Govender, Dhineshree, Gregg, Yolande, Gumede, Goodness, Gwamada, Zanele, Halti, Senzo, Hassiem, Rieyaat, Herling, Roxane, Herselman, Yulandi, Hughes, Ellis, Issel, Henry, Iyemosolo, Blanchard Mbay, Jali, Zandile, Janse Van Rensburg, Bonita, Jansen, Ruwiyda, Jeleni, James Michael, Jonkane, Olebogeng, Julies, Fabio, Kafaar, Fazlin, Kasongo, Christian Mabika, Keffers, Sophie, Kekana, Boitumelo Sophy, Kekana, Sebaetseng Jeanette, Kelepu, Xoliswa, Khanyile, Lungile, Khobedi, Gomotsegang Virginia, Khomba, Gloria, Khoza, Lucky Sipho, King, Marietjie, Kolobe, Gloria Keitumetse, Kruger, Sandra, Kruger, Jaftha, Kunene, Ndlela Israel, Lakay, Sunelza, Lakhi, Aneesa, Langa, Nondumiso, Ledwaba, Hildah, Lekagane, Lerato Julia, Lekotloane, Sheiley Christina, Leopeng, Thelma, Louw, Ilze Jeanette, Luabeya, Angelique Kany Kany, Lusale, Sarah Teboso, Maatjie, Perfect Tiisetso, Mabasa, Immaculate, Mabe, Tshegofatso Dorah, Mabena, Kamogelo Fortunate, Mabuza, Nkosinathi Charles, Mabwe, Simbarashe, Madikwe, Johanna Thapelo, Madikwe, Octavia Mahkosazana, Maebana, Rapontwana Letlhogonolo, Magwasha, Malobisa Sylvester, Majola, Molly, Makhetha, Mantai, Makhethe, Lebohang, Malay, Vernon, Manzini, Vutlhari-I-Vunhenha Fairlord, Maphanga, Jabu, Maphanga, Nonhle, Market, Juanita, Maroele, Isholedi Samuel, Masibi, Omphile Petunia, Mathabanzini, July Rocky, Mathode, Tendamudzimu Ivan, Matsane, Ellen Ditaba, Mbata, Lungile, Meyer, Faheema, Mhandire, Nyasha Karen, Miga, Thembisiwe, Mkhize, Nosisa Charity Thandeka, Mkhokho, Caroline, Mkwalase, Neo Hilda, Mnqonywa, Nondzakazi, Moche, Karabo, Modisaotsile, Brenda Matshidiso, Mokgetsengoane, Patricia Pakiso, Mokone, Selemeng Matseliso Carol, Molatlhegi, Kegomoditswe Magdeline, Molefe, Thuso Andrew, Moloko, Joseph Panie, Molosi, Kabelo, Molotsi, Motlatsi Evelyn, Montwedi, Tebogo Edwin, Monyemangene, Boikanyo Dinah, Mooketsi, Hellen Mokopi, Moses, Miriam, Mosito, Boitumelo, Mosito, Tshplpfelo Mapula, Mosweu, Ireen Lesebang, Mothaga, Primrose, Motlagomang, Banyana Olga, Mouton, Angelique, Mpofu, Onesisa, Mthembu, Funeka Nomvula, Mtlali, Mpho, Ndlovu, Nhlamulo, Ngcobo, Nompumelelo, Noble, Julia, Ntamo, Bantubonke Bertrum, Ntanjana, Gloria, Ntshauba, Tedrius, Opperman, Fajwa, Padayatchi, Nesri, Papalagae, Thandiwe, Petersen, Christel, Phakathi, Themba, Phatshwane, Mapule Ozma, Plaatjie, Patiswa, Pretorius, Abe, Rameetse, Victor Kgothatso, Ramjit, Dirhona, Ratangee, Frances, Ratangee, Maigan, Sanyaka, Pearl Nomsa, Sato, Alicia, Schoeman, Elisma, Schreuder, Constance, Seabela, Letlhogonolo, Segaetsho, Kelebogile Magdeline, Sein, Ni Ni, Selepe, Raesibe Agnes Pearl, Senne, Melissa Neo, September, Alison, September, Cashwin, Serake, Moeti, Shenje, Justin, Shezi, Thandiwe, Shezi, Sifiso Cornelius, Sing, Phindile, Singh, Chandrapharbha, Sithetho, Zona, Solomons, Dorothy, Stanley, Kim, Steyn, Marcia, Stofile, Bongiwe, Stryers, Sonia, Swanepoel, Liticia, Swarts, Anne, Thaba, Mando Mmakhora, Theko, Lethabo Collen, Thembela, Philile, Thompo, Mugwena, Toefy, Asma, Toto, Khayalethu, Tsagae, Dimakatso Sylvia, Tsamane, Ayanda, Tshikovhi, Vincent, Tswaile, Lebogang Isaac, Tyambetyu, Petrus, Tönsing, Susanne, Valley, Habibullah, van der Merwe, Linda, van Rooyen, Elma, Veldsman, Ashley, Veldtsman, Helen, Vollenhoven, Kelvin, Zaca, Londiwe, Zimri, Elaine, Zulu, Mbali, Mendelsohn, Simon C, Fiore-Gartland, Andrew, Penn-Nicholson, Adam, Mulenga, Humphrey, Mbandi, Stanley Kimbung, Borate, Bhavesh, Hadley, Katie, Hikuam, Chris, Musvosvi, Munyaradzi, Bilek, Nicole, Erasmus, Mzwandile, Jaxa, Lungisa, Raphela, Rodney, Nombida, Onke, Kaskar, Masooda, Sumner, Tom, White, Richard G, Innes, Craig, Brumskine, William, Hiemstra, Andriëtte, Malherbe, Stephanus T, Hassan-Moosa, Razia, Tameris, Michèle, Walzl, Gerhard, Naidoo, Kogieleum, Churchyard, Gavin, Scriba, Thomas J, and Hatherill, Mark

Published
2021
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31. Safety and immunogenicity of the adjunct therapeutic vaccine ID93 + GLA-SE in adults who have completed treatment for tuberculosis: a randomised, double-blind, placebo-controlled, phase 2a trial

Author

Beckmann, Anna Marie, Hsu, Fan-Chi, Albertson, Sarah, Veldsman, Ashley, Schreuder, Constance, Smit, Erica, Cloete, Yolundi, Ontong, Cynthia, Filander, Elisabeth, Jacobs, Gail, Keyser, Alana, Africa, Hadn, Mulenga, Humphrey, Noble, Julia, Makhethe, Lebohang, Steyn, Marcia, de Kock, Marwou, Quaqua, Nambitha, Lu, Yiwen, Gutschmidt, Andrea, Thienemann, Friedrich, Kahn, Stuart, Mouton, Angelique, Van Rooyen, Elma, Opperman, Fajwa, Swarts, Ann, Van Schalkwyk, Amaryl, Herselman, Yolandi, Hofmeester, Devona, Amsterdam, Julia, Hassanally, Leya, van der Merwe, Linda, Companie, Alessandro, Rossouw, Susan, Jones, Carolyn, Botes, Natasja, van der Riet, Elize, Goliath, Sandra, Kruger, Sandra, Sinandile, Eunice, Day, Tracey A, Penn-Nicholson, Adam, Luabeya, Angelique Kany Kany, Fiore-Gartland, Andrew, Du Plessis, Nelita, Loxton, Andre G, Vergara, Julie, Rolf, Tom A, Reid, Tim D, Toefy, Asma, Shenje, Justin, Geldenhuys, Hendrik, Tameris, Michele, Mabwe, Simbarashe, Bilek, Nicole, Bekker, Linda-Gail, Diacon, Andreas, Walzl, Gerhard, Ashman, Jill, Frevol, Aude, Sagawa, Zachary K, Lindestam Arlehamn, Cecilia, Sette, Alessandro, Reed, Steven G, Coler, Rhea N, Scriba, Thomas J, and Hatherill, Mark

Published
2021
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32. Biomarker-guided tuberculosis preventive therapy (CORTIS): a randomised controlled trial

Author

Baepanye, Kesenogile, Baepanye, Tshepiso, Clarke, Ken, Collignon, Marelize, Dlamini, Audrey, Eyre, Candice, Feni, Tebogo, Fikizolo, Moogo, Galane, Phinda, Goliath, Thelma, Gangat, Alia, Malefo-Grootboom, Shirley, Janse van Rensburg, Elba, Janse van Rensburg, Bonita, Kekana, Sophy, Zietsman, Marietjie, Kock, Adrianne, Kunene, Israel, Lakhi, Aneessa, Langa, Nondumiso, Ledwaba, Hilda, Luphoko, Marillyn, Mabasa, Immaculate, Mabe, Dorah, Mabuza, Nkosinathi, Majola, Molly, Makhetha, Mantai, Makoanyane, Mpho, Makhubalo, Blossom, Malay, Vernon, Market, Juanita, Matshego, Selvy, Mbipa, Nontsikelelo, Mmotsa, Tsiamo, Modipa, Sylvester, Mopati, Samuel, Moswegu, Palesa, Mothaga, Primrose, Muller, Dorothy, Nchwe, Grace, Nel, Maryna, Nhlangulela, Lindiwe, Ntamo, Bantubonke, Ntoahae, Lawerence, Ntshauba, Tedrius, Sanyaka, Nomsa, Seabela, Letlhogonolo, Selepe, Pearl, Senne, Melissa, Serake, MG, Thlapi, Maria, Tshikovhi, Vincent, Tswaile, Lebogang, van Aswegen, Amanda, Mbata, Lungile, Takavamanya, Constance, Pinho, Pedro, Mdlulu, John, Taljaard, Marthinette, Slabbert, Naydene, Sayed, Sharfuddin, Nielson, Tanya, Ni Sein, Ni, Govender, Dhineshree, Chinappa, Tilagavathy, Zulu, Mbali Ignatia, Maphanga, Nonhle Bridgette, Hlathi, Senzo Ralph, Gumede, Goodness Khanyisile, Shezi, Thandiwe Yvonne, Maphanga, Jabulisiwe Lethabo, Jali, Zandile Patrica, Cwele, Thobelani, Gwamanda, Nonhlanhla Zanele Elsie, Dlamini, Celaphiwe, Sing, Zibuyile Phindile Penlee, Ntanjana, Ntombozuko Gloria, Nzimande, Sphelele Simo, Mbatha, Siyabonga, Maharaj, Bhavna, Moosa, Atika, Corris, Cara-Mia, Kafaar, Fazlin, Geldenhuys, Hennie, Luabeya, Angelique Kany Kany, Shenje, Justin, Botes, Natasja, Rossouw, Susan, Africa, Hadn, Diamond, Bongani, Braaf, Samentra, Stryers, Sonia, Carstens, Alida, Jansen, Ruwiyda, Mabwe, Simbarashe, Mulenga, Humphrey, Herling, Roxane, Veldsman, Ashley, Makhete, Lebohgang, Steyn, Marcia, Buhlungu, Sivuyile, Erasmus, Margareth, Davids, Ilse, Plaatjie, Patiswa, Companie, Alessandro, Ratangee, Frances, Veldtsman, Helen, Petersen, Christel, Abrahams, Charmaine, Moses, Miriam, Kelepu, Xoliswa, Gregg, Yolande, Swanepoel, Liticia, Magawu, Nomsitho, Cetywayo, Nompumelelo, Mactavie, Lauren, Valley, Habibullah, Filander, Elizabeth, Nqakala, Nambitha, Maasdorp, Elizna, Khoury, Justine, Kriel, Belinda, Smith, Bronwyn, Muller, Liesel, Tonsing, Susanne, Loxton, Andre, Hiemstra, Andriette, Ahlers, Petri, Flinn, Marika, Chung, Eva, Chung, Michelle, Sato, Alicia, Scriba, Thomas J, Fiore-Gartland, Andrew, Penn-Nicholson, Adam, Kimbung Mbandi, Stanley, Borate, Bhavesh, Mendelsohn, Simon C, Hadley, Katie, Hikuam, Chris, Kaskar, Masooda, Musvosvi, Munyaradzi, Bilek, Nicole, Self, Steven, Sumner, Tom, White, Richard G, Erasmus, Mzwandile, Jaxa, Lungisa, Raphela, Rodney, Innes, Craig, Brumskine, William, Hiemstra, Andriëtte, Malherbe, Stephanus T, Hassan-Moosa, Razia, Tameris, Michèle, Walzl, Gerhard, Naidoo, Kogieleum, Churchyard, Gavin, and Hatherill, Mark

Published
2021
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33. Sequential inflammatory processes define human progression from M. tuberculosis infection to tuberculosis disease

Author

Scriba, Thomas J, Penn-Nicholson, Adam, Shankar, Smitha, Hraha, Tom, Thompson, Ethan G, Sterling, David, Nemes, Elisa, Darboe, Fatoumatta, Suliman, Sara, Amon, Lynn M, Mahomed, Hassan, Erasmus, Mzwandile, Whatney, Wendy, Johnson, John L, Boom, W Henry, Hatherill, Mark, Valvo, Joe, De Groote, Mary Ann, Ochsner, Urs A, Aderem, Alan, Hanekom, Willem A, and Zak, Daniel E

Subjects
Biomedical and Clinical Sciences, Immunology, Genetics, Tuberculosis Vaccine, Tuberculosis, Emerging Infectious Diseases, Lung, Vaccine Related, Immunization, Clinical Research, Infectious Diseases, Prevention, Rare Diseases, Biotechnology, Aetiology, 2.1 Biological and endogenous factors, Inflammatory and immune system, Infection, Good Health and Well Being, Adolescent, Child, Disease Progression, Humans, Inflammation, Mycobacterium tuberculosis, T-Lymphocytes, Vaccines, other members of the ACS cohort study team, Microbiology, Medical Microbiology, Virology, Medical microbiology
Abstract

Our understanding of mechanisms underlying progression from Mycobacterium tuberculosis infection to pulmonary tuberculosis disease in humans remains limited. To define such mechanisms, we followed M. tuberculosis-infected adolescents longitudinally. Blood samples from forty-four adolescents who ultimately developed tuberculosis disease (“progressors”) were compared with those from 106 matched controls, who remained healthy during two years of follow up. We performed longitudinal whole blood transcriptomic analyses by RNA sequencing and plasma proteome analyses using multiplexed slow off-rate modified DNA aptamers. Tuberculosis progression was associated with sequential modulation of immunological processes. Type I/II interferon signalling and complement cascade were elevated 18 months before tuberculosis disease diagnosis, while changes in myeloid inflammation, lymphoid, monocyte and neutrophil gene modules occurred more proximally to tuberculosis disease. Analysis of gene expression in purified T cells also revealed early suppression of Th17 responses in progressors, relative to M. tuberculosis-infected controls. This was confirmed in an independent adult cohort who received BCG re-vaccination; transcript expression of interferon response genes in blood prior to BCG administration was associated with suppression of IL-17 expression by BCG-specific CD4 T cells 3 weeks post-vaccination. Our findings provide a timeline to the different immunological stages of disease progression which comprise sequential inflammatory dynamics and immune alterations that precede disease manifestations and diagnosis of tuberculosis disease. These findings have important implications for developing diagnostics, vaccination and host-directed therapies for tuberculosis.Trial registrationClincialtrials.gov, NCT01119521.

Published
2017

34. A Functional Toll-Interacting Protein Variant Is Associated with Bacillus Calmette-Guérin–Specific Immune Responses and Tuberculosis

Author

Shah, Javeed A, Musvosvi, Munyaradzi, Shey, Muki, Horne, David J, Wells, Richard D, Peterson, Glenna J, Cox, Jeffery S, Daya, Michelle, Hoal, Eileen G, Lin, Lin, Gottardo, Raphael, Hanekom, Willem A, Scriba, Thomas J, Hatherill, Mark, and Hawn, Thomas R

Subjects
Infectious Diseases, Genetics, Tuberculosis Vaccine, Prevention, Vaccine Related, Rare Diseases, Immunization, Tuberculosis, Aetiology, 2.1 Biological and endogenous factors, Infection, Inflammatory and immune system, Good Health and Well Being, Humans, Immunity, Innate, Intracellular Signaling Peptides and Proteins, Mycobacterium bovis, Polymorphism, Single Nucleotide, Prospective Studies, bacillus Calmette-Guerin, tuberculosis, Toll interacting protein, adaptiye immunity, genetics, Toll-interacting protein, adaptive immunity, bacillus Calmette-Guérin, Medical and Health Sciences, Respiratory System
Abstract

RationaleThe molecular mechanisms that regulate tuberculosis susceptibility and bacillus Calmette-Guérin (BCG)-induced immunity are mostly unknown. However, induction of the adaptive immune response is a critical step in host control of Mycobacterium tuberculosis. Toll-interacting protein (TOLLIP) is a ubiquitin-binding protein that regulates innate immune responses, including Toll-like receptor signaling, which initiate adaptive immunity. TOLLIP variation is associated with susceptibility to tuberculosis, but the mechanism by which it regulates tuberculosis immunity is poorly understood.ObjectivesTo identify functional TOLLIP variants and evaluate the role of TOLLIP variation on innate and adaptive immune responses to mycobacteria and susceptibility to tuberculosis.MethodsWe used human cellular immunology approaches to characterize the role of a functional TOLLIP variant on monocyte mRNA expression and M. tuberculosis-induced monocyte immune functions. We also examined the association of TOLLIP variation with BCG-induced T-cell responses and susceptibility to latent tuberculosis infection.Measurements and main resultsWe identified a functional TOLLIP promoter region single-nucleotide polymorphism, rs5743854, which was associated with decreased TOLLIP mRNA expression in infant monocytes. After M. tuberculosis infection, TOLLIP-deficient monocytes demonstrated increased IL-6, increased nitrite, and decreased bacterial replication. The TOLLIP-deficiency G/G genotype was associated with decreased BCG-specific IL-2+ CD4+ T-cell frequency and proliferation. This genotype was also associated with increased susceptibility to latent tuberculosis infection.ConclusionsTOLLIP deficiency is associated with decreased BCG-specific T-cell responses and increased susceptibility to tuberculosis. We hypothesize that the heightened antibacterial monocyte responses after vaccination of TOLLIP-deficient infants are responsible for decreased BCG-specific T-cell responses. Activating TOLLIP may provide a novel adjuvant strategy for BCG vaccination.

Published
2017

35. Classification of early tuberculosis states to guide research for improved care and prevention: an international Delphi consensus exercise.

Author

Coussens, Anna K, Zaidi, Syed M A, Allwood, Brian W, Dewan, Puneet K, Gray, Glenda, Kohli, Mikashmi, Kredo, Tamara, Marais, Ben J, Marks, Guy B, Martinez, Leo, Ruhwald, Morten, Scriba, Thomas J, Seddon, James A, Tisile, Phumeza, Warner, Digby F, Wilkinson, Robert J, Esmail, Hanif, and Houben, Rein M G J

Subjects
DELPHI method, TUBERCULOSIS, MYCOBACTERIUM tuberculosis, EVIDENCE gaps, SYMPTOMS
Abstract

The current active–latent paradigm of tuberculosis largely neglects the documented spectrum of disease. Inconsistency with regard to definitions, terminology, and diagnostic criteria for different tuberculosis states has limited the progress in research and product development that are needed to achieve tuberculosis elimination. We aimed to develop a new framework of classification for tuberculosis that accommodates key disease states but is sufficiently simple to support pragmatic research and implementation. Through an international Delphi exercise that involved 71 participants representing a wide range of disciplines, sectors, income settings, and geographies, consensus was reached on a set of conceptual states, related terminology, and research gaps. The International Consensus for Early TB (ICE-TB) framework distinguishes disease from infection by the presence of macroscopic pathology and defines two subclinical and two clinical tuberculosis states on the basis of reported symptoms or signs of tuberculosis, further differentiated by likely infectiousness. The presence of viable Mycobacterium tuberculosis and an associated host response are prerequisites for all states of infection and disease. Our framework provides a clear direction for tuberculosis research, which will, in time, improve tuberculosis clinical care and elimination policies. [ABSTRACT FROM AUTHOR]

Published
2024
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36. γδ T cell antigen receptor polyspecificity enables T cell responses to a broad range of immune challenges

Author

Guo, Jing, primary, Chowdhury, Roshni Roy, additional, Mallajosyula, Vamsee, additional, Xie, Jianming, additional, Dubey, Megha, additional, Liu, Yuanyuan, additional, Li, Jing, additional, Wei, Yu-ling, additional, Palanski, Brad A., additional, Wang, Conghua, additional, Qiu, Lingfeng, additional, Ohanyan, Mané, additional, Kask, Oliver, additional, Sola, Elsa, additional, Kamalyan, Lilit, additional, Lewis, David B., additional, Scriba, Thomas J., additional, Davis, Mark M., additional, Dodd, Dylan, additional, Zeng, Xun, additional, and Chien, Yueh-hsiu, additional

Published
2024
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37. A Quantitative Analysis of Complexity of Human Pathogen-Specific CD4 T Cell Responses in Healthy M. tuberculosis Infected South Africans.

Author

Lindestam Arlehamn, Cecilia S, McKinney, Denise M, Carpenter, Chelsea, Paul, Sinu, Rozot, Virginie, Makgotlho, Edward, Gregg, Yolande, van Rooyen, Michele, Ernst, Joel D, Hatherill, Mark, Hanekom, Willem A, Peters, Bjoern, Scriba, Thomas J, and Sette, Alessandro

Subjects
CD4-Positive T-Lymphocytes, Humans, Mycobacterium tuberculosis, Tuberculosis, Antigens, Bacterial, HLA Antigens, Epitopes, T-Lymphocyte, Fluorescent Antibody Technique, Adult, South Africa, Female, Male, Enzyme-Linked Immunospot Assay, Antigens, Bacterial, Epitopes, T-Lymphocyte, Virology, Microbiology, Immunology, Medical Microbiology
Abstract

We performed a quantitative analysis of the HLA restriction, antigen and epitope specificity of human pathogen specific responses in healthy individuals infected with M. tuberculosis (Mtb), in a South African cohort as a test case. The results estimate the breadth of T cell responses for the first time in the context of an infection and human population setting. We determined the epitope repertoire of eleven representative Mtb antigens and a large panel of previously defined Mtb epitopes. We estimated that our analytic methods detected 50-75% of the total response in a cohort of 63 individuals. As expected, responses were highly heterogeneous, with responses to a total of 125 epitopes detected. The 66 top epitopes provided 80% coverage of the responses identified in our study. Using a panel of 48 HLA class II-transfected antigen-presenting cells, we determined HLA class II restrictions for 278 epitope/donor recognition events (36% of the total). The majority of epitopes were restricted by multiple HLA alleles, and 380 different epitope/HLA combinations comprised less than 30% of the estimated Mtb-specific response. Our results underline the complexity of human T cell responses at a population level. Efforts to capture and characterize this broad and highly HLA promiscuous Mtb-specific T cell epitope repertoire will require significant peptide multiplexing efforts. We show that a comprehensive "megapool" of Mtb peptides captured a large fraction of the Mtb-specific T cells and can be used to characterize this response.

Published
2016

38. A Quantitative Analysis of Complexity of Human Pathogen-Specific CD4 T Cell Responses in Healthy M. tuberculosis Infected South Africans

Author

Arlehamn, Cecilia S Lindestam, McKinney, Denise M, Carpenter, Chelsea, Paul, Sinu, Rozot, Virginie, Makgotlho, Edward, Gregg, Yolande, van Rooyen, Michele, Ernst, Joel D, Hatherill, Mark, Hanekom, Willem A, Peters, Bjoern, Scriba, Thomas J, and Sette, Alessandro

Subjects
Vaccine Related, Clinical Research, Biodefense, Infectious Diseases, Tuberculosis, Rare Diseases, Emerging Infectious Diseases, Prevention, HIV/AIDS, Aetiology, 2.1 Biological and endogenous factors, Infection, Good Health and Well Being, Adult, Antigens, Bacterial, CD4-Positive T-Lymphocytes, Enzyme-Linked Immunospot Assay, Epitopes, T-Lymphocyte, Female, Fluorescent Antibody Technique, HLA Antigens, Humans, Male, Mycobacterium tuberculosis, South Africa, Microbiology, Immunology, Medical Microbiology, Virology
Abstract

We performed a quantitative analysis of the HLA restriction, antigen and epitope specificity of human pathogen specific responses in healthy individuals infected with M. tuberculosis (Mtb), in a South African cohort as a test case. The results estimate the breadth of T cell responses for the first time in the context of an infection and human population setting. We determined the epitope repertoire of eleven representative Mtb antigens and a large panel of previously defined Mtb epitopes. We estimated that our analytic methods detected 50-75% of the total response in a cohort of 63 individuals. As expected, responses were highly heterogeneous, with responses to a total of 125 epitopes detected. The 66 top epitopes provided 80% coverage of the responses identified in our study. Using a panel of 48 HLA class II-transfected antigen-presenting cells, we determined HLA class II restrictions for 278 epitope/donor recognition events (36% of the total). The majority of epitopes were restricted by multiple HLA alleles, and 380 different epitope/HLA combinations comprised less than 30% of the estimated Mtb-specific response. Our results underline the complexity of human T cell responses at a population level. Efforts to capture and characterize this broad and highly HLA promiscuous Mtb-specific T cell epitope repertoire will require significant peptide multiplexing efforts. We show that a comprehensive "megapool" of Mtb peptides captured a large fraction of the Mtb-specific T cells and can be used to characterize this response.

Published
2016

42. S100A8/A9 regulates CD11b expression and neutrophil recruitment during chronic tuberculosis

Author

Scott, Ninecia R., Swanson, Rosemary V., Hammadi, Noor Al-, Domingo-Gonzalez, Racquel, Rangel-Moreno, Javier, Kriel, Belinda A., Bucsan, Allison N., Das, Shibali, Ahmed, Mushtaq, Mehra, Smriti, Treerat, Puthayalai, Cruz- Lagunas, Alfredo, Jimenez-Alvarez, Luis, Munoz-Torrico, Marcela, Bobadilla-Lozoya, Karen, Vogl, Thomas, Walzl, Gerhard, Plessis, Nelita du, Kaushal, Deepak, Scriba, Thomas J., Zuniga, Joaquin, and Khader, Shabaana A.

Subjects
Tree Star Inc., BCG -- Analysis -- Health aspects, Medical research -- Analysis -- Health aspects, Software industry -- Analysis -- Health aspects, Integrins -- Analysis -- Health aspects, Tuberculosis -- Development and progression, RNA -- Analysis -- Health aspects, Health care industry
Abstract

Neutrophil accumulation is associated with lung pathology during active tuberculosis (ATB). However, the molecular mechanism or mechanisms by which neutrophils accumulate in the lung and contribute to TB immunopathology are not fully delineated. Using the well-established mouse model of TB, our new data provide evidence that the alarmin S100A8/A9 mediates neutrophil accumulation during progression to chronic TB. Depletion of neutrophils or S100A8/A9 deficiency resulted in improved Mycobacterium tuberculosis (Mtb) control during chronic but not acute TB. Mechanistically, we demonstrate that, following Mtb infection, S100A8/A9 expression is required for upregulation of the integrin molecule CD11b specifically on neutrophils, mediating their accumulation during chronic TB disease. These findings are further substantiated by increased expression of S100A8 and S100A9 mRNA in whole blood in human TB progressors when compared with nonprogressors and rapidly decreased S100A8/A9 protein levels in the serum upon TB treatment. Furthermore, we demonstrate that S100A8/ A9 serum levels along with chemokines are useful in distinguishing between ATB and asymptomatic Mtb-infected latent individuals. Thus, our results support targeting S100A8/A9 pathways as host- directed therapy for TB., Introduction Mycobacterium tuberculosis (Mtb), the causative agent of the disease tuberculosis (TB), is estimated to infect one-fourth of the world's population and results in approximately 1.6 million deaths each year [...]

Published
2020
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44. Live-attenuated Mycobacterium tuberculosis vaccine MTBVAC versus BCG in adults and neonates: a randomised controlled, double-blind dose-escalation trial

Author

Africa, Hadn, Arendsen, Denis, Botes, Natasja, Cloete, Yolundi, De Kock, Marwou, Erasmus, Margaret, Jack, Lungisa, Kafaar, Fazlin, Kalepu, Xoliswa, Khomba, Nondumiso Gloria, Kruger, Sandra, Leopeng, Thelma, Makhethe, Lebohang, Mouton, Angelique, Mulenga, Humphrey, Musvosvi, Munyaradzi, Noble, Julia, Opperman, Fajwa, Reid, Tim, Rossouw, Susan, Schreuder, Constance, Smit, Erica, Steyn, Marcia, Tyambethu, Petrus, Van Rooyen, Elma, Veldsman, Ashley, Tameris, Michele, Mearns, Helen, Penn-Nicholson, Adam, Gregg, Yolande, Bilek, Nicole, Mabwe, Simbarashe, Geldenhuys, Hennie, Shenje, Justin, Luabeya, Angelique Kany Kany, Murillo, Ingrid, Doce, Juana, Aguilo, Nacho, Marinova, Dessislava, Puentes, Eugenia, Rodríguez, Esteban, Gonzalo-Asensio, Jesús, Fritzell, Bernard, Thole, Jelle, Martin, Carlos, Scriba, Thomas J, and Hatherill, Mark

Published
2019
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46. OMIP-101: 27-color flow cytometry panel for immunophenotyping of major leukocyte populations in fixed whole blood.

Author

Imbratta, Claire, Reid, Timothy D., Toefy, Asma, Scriba, Thomas J., and Nemes, Elisa

Abstract

This 27-color flow cytometry antibody panel allows broad immune-profiling of major leukocyte subsets in human whole blood (WB). It includes lineage markers to identify myeloid and lymphoid cell populations including granulocytes, monocytes, myeloid dendritic cells (mDCs), natural killer (NK) cells, NKT-like cells, B cells, conventional CD4 and CD8 T cells, γδ T cells, mucosa-associated invariant T (MAIT) cells and innate lymphoid cells (ILC). To further characterize each of these populations, markers defining stages of cell differentiation (CCR7, CD27, CD45RA, CD127, CD57), cytotoxic potential (perforin, granzyme B) and cell activation/proliferation (HLA-DR, CD38, Ki-67) were included. This panel was developed for quantifying absolute counts and phenotyping major leukocyte populations in cryopreserved, fixed WB collected from participants enrolled in large multi-site tuberculosis (TB) vaccine clinical trials. This antibody panel can be applied to profile major leukocyte subsets in other sample types such as fresh WB or peripheral blood mononuclear cells (PBMCs) with only minor additional optimization. [ABSTRACT FROM AUTHOR]

Published
2024
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47. Conference report: WHO meeting summary on mRNA-based tuberculosis vaccine development

Author

Looney, Monika M., primary, Hatherill, Mark, additional, Musvosvi, Munyaradzi, additional, Flynn, JoAnne, additional, Kagina, Benjamin M, additional, Frick, Mike, additional, Kafuko, Zacharia, additional, Schmidt, Alex, additional, Southern, James, additional, Wilder-Smith, Annelies, additional, Tippoo, Patrick, additional, Paradkar, Vikram, additional, Popadić, Dušan, additional, Scriba, Thomas J., additional, Hanekom, Willem, additional, and Giersing, Brigitte, additional

Published
2023
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48. Safety and Immunogenicity of Newborn MVA85A Vaccination and Selective, Delayed Bacille Calmette-Guerin for Infants of Human Immunodeficiency Virus-Infected Mothers : A Phase 2 Randomized, Controlled Trial

Author

MVA029 Study Team, Nemes, Elisa, Hesseling, Anneke C., Tameris, Michele, Mauff, Katya, Downing, Katrina, Mulenga, Humphrey, Rose, Penelope, van der Zalm, Marieke, Mbaba, Sharon, Van As, Danelle, Hanekom, Willem A., Walzl, Gerhard, Scriba, Thomas J., McShane, Helen, and Hatherill, Mark

Published
2018

49. CD1b Tetramers Identify T Cells that Recognize Natural and Synthetic Diacylated Sulfoglycolipids from Mycobacterium tuberculosis

Author

James, Charlotte A., Yu, Krystle K.Q., Gilleron, Martine, Prandi, Jacques, Yedulla, Vijayendar R., Moleda, Zuzanna Z., Diamanti, Eleonora, Khan, Momin, Aggarwal, Varinder K., Reijneveld, Josephine F., Reinink, Peter, Lenz, Stefanie, Emerson, Ryan O., Scriba, Thomas J., Souter, Michael N.T., Godfrey, Dale I., Pellicci, Daniel G., Moody, D. Branch, Minnaard, Adriaan J., Seshadri, Chetan, and Van Rhijn, Ildiko

Published
2018
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50. Safety and immunogenicity of the novel tuberculosis vaccine ID93 + GLA-SE in BCG-vaccinated healthy adults in South Africa: a randomised, double-blind, placebo-controlled phase 1 trial

Author

Penn-Nicholson, Adam, Tameris, Michele, Smit, Erica, Day, Tracey A, Musvosvi, Munyaradzi, Jayashankar, Lakshmi, Vergara, Julie, Mabwe, Simbarashe, Bilek, Nicole, Geldenhuys, Hendrik, Luabeya, Angelique Kany-Kany, Ellis, Ruth, Ginsberg, Ann M, Hanekom, Willem A, Reed, Steven G, Coler, Rhea N, Scriba, Thomas J, and Hatherill, Mark

Published
2018
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