Search

Your search keyword '"Zakay-Rones Z"' showing total 196 results
Start Over Author "Zakay-Rones Z"
196 results on '"Zakay-Rones Z"'

8. Abstracts of presentations on plant protection issues at the fifth international Mango Symposium Abstracts of presentations on plant protection issues at the Xth international congress of Virology: September 1–6, 1996 Dan Panorama Hotel, Tel Aviv, Israel August 11-16, 1996 Binyanei haoma, Jerusalem, Israel

Author

Peña, J. E., Wysoki, M., Singh, Gajendra, Boscán de M., Nancy, Godoy, Freddy J., Obligado, A., Rossetto, C. J., Ribeiro, I. J. A., Gallo, P. B., Soares, N. B., Sabino, J. C., Martins, A. L. M., Bortoletto, N., Ploetz, R. C., Benscher, D., Vázquez, Aimé, Colls, A., Nagel, Julianne, Schaffer, B., Pinkas, Y., Maymon, M., Freeman, S., Bostros Bastawros, Mikhail, Gosbee, M. J., Johnson, G. I., Joyce, D. C., Irwin, J. A. G., Saaiman, W. C., Prusky, D., Falik, E., Kobiler, I., Fuchs, Y., Zauberman, G., Pesis, E., Ackerman, M., Roth, I., Weksler, A., Yekutiely, O., Waisblum, A., Keinan, A., Ofek, G., Reved, R., Barak, R., Bel, P., Artes, L., Visarathanonth, N., Xu, Z., Ponce de León, L., Muñoz, C., Pérez, L., Diaz de León, F., Kerbel, C., Esparza, S., Bósquez, E., Trinidad, M., Coates, L. M., Cooke, A. W., Dean, J. R., Lucia Duarte, Ana, Alberto Otto, Paulo, Malavasi, Aldo, Lizado, M. C. C., Bautista, M. L., Artes, L. A., Bacalangco, N. S., Farungsang, U., Farungsang, N., Waskar, D. P., Masalkar, S. D., Gaikwad, R. S., Damame, S. V., Bally, Ian S. E., O’Hare, Tim J., Holmes, Rowland J., Atabekov, J. G., Fauquet, Claude M., Tomori, O., Nuss, D. L., Ahlquist, P., Díez, J., Ishikawa, M., Janda, M., Price, B. D., Restrepo-Hartwig, M., Bol, J. F., van Rossum, C. M. A., Garcia, M. L., van der Vossen, E. A. G., Reusken, Chantal B. E. M., Canto, T. R., Gal-On, A., Palukaitis, P., Roossinck, M. J., Flasinski, S., Restrepo-Hartwig, Maria A., Ahlquist, Paul, Smirnyagina, Ekaterina, Lin, Na-Sheng, Nagy, Peter D., Figlerowicz, Marek, Bujarski, Jozef J., Proll, D. F., Guyatt, K. J., Davidson, A. D., Kim, Kook-Hyung, Miller, Eric, Hemenway, Cynthia, Havelda, Z., Dalmay, T., Burgyán, J., Kearney, C. M., Thomson, M., Roland, K. E., Dawson, W. O., Bao, Y., Carter, S. A., Nelson, R. S., Derrick, P. M., Shun Ding, Xin, Eskarous, J. K., Sarkar, S., El-Shamy, M., Chen, J., Sako, N., Yuichiro, W., Ohshima, K., Okada, Y., Felden, Brice, Kuznetsov, Yuri G., Malkin, Alexander J., Greenwood, Aaron, McPherson, Alexander, Ivanov, K. I., Dorokhov, Y. L., Kim, C. H., Sálanki, Katalin, Carrére, Isabelle, Jacquemond, Mireille, Tepfer, Mark, Balazs, Ervin, Sanz, A. I., Serra, M. T., García-Luque, I., Revers, F., Candresse, T., LeGall, O., Souche, S., Lot, H., Dunez, J., Cecchini, E., Milner, J., Al-Kaff, N., Covey, S., Gong, Z., Geri, C., Covey, S. N., Richert-Pöggeler, K. R., Shepherd, R. J., Casper, R., Meiri, Eti, Raccah, B., Gera, A., Singer, S., Allam, E. K., El Afifi, Soheir I., Abo El Nasr, M. A., Abd El Ghaffar, M. H., Elisabeth Johansen, I., Keller, K. E., Hampton, R. O., SÕrensen, Karina, Bishnoi, S. S., Rishi, Narayan, Gumedzoe, M. Y. D., Atissime, K., Yedibahoma, S., Wellink, Joan, Verver, Jan, Bertens, Peter, van Lent, Jan, Goldbach, Rob W., van Kammen, Ab, Lekkerkerker, Annemarie, Taylor, K. M., Spall, V. E., Lomonossoff, G. P., Yu. Morozov, S., Solovyev, A. G., Zelenina, D. A., Savenkov, E. I., Grdzelishvili, V. Z., Morozov, S. Y., Jansen, K. A. J., Wolfs, C. J. A. M., Lohuis, H., Verduin, B. J. M., Stein-Margolina, V. A., Hsu, Y. H., Chang, B. Y., Lin, N. S., Pilartz, Marcel, Jeske, Holger, Verchot, Jeanmarie, Baulcombe, David C., English, David J., Müller, E., Baulcombe, D. C., Malcuit, Isabelle, Kavanagh, Tony, Valkonen, J. P. T., Puurand, Ü., Merits, A., Rabinstein, F., Sorri, O., Saarma, M., Liao, Y. C., Vaquero-Martin, C., Monecke, M., Rohde, W., Prüfer, D., Fischer, R., Antignus, Y., Lachman, O., Pearlsman, M., Cohen, S., Qiu, W. P., Moyer, J. W., Feldhoff, A., Kikkert, M., Kormelink, R., Krczal, G., Peters, D., Szittya, György, Burgyán, József, Wvpijewski, K., Paduch-Cichal, E., Rezler, A., Skrzeczkowska, S., Augustyniak, J., Nemchinov, L., Maiss, E., Hadidi, A., Wittner, Anita, Palkovics, László, Balázs, Ervin, Crescenzi, A., Piazzolla, P., Kheyr-Pour, A., Dafalla, G. A., Lecoq, H., Gronenborn, B., Bauer, U., Laux, I., Hajimorad, M. R., Ding, X. S., Flasinski, Stanislaw, Cassidy, Pour G., Dugdale, B., Beetham, P. R., Harding, R. M., Dale, J. L., Qiu, G., Shaw, J. G., Molnár, A., Más, P., Balsalobre, J. M., Sánchez-Pina, M. A., Pallás, V., Rahontei, J., López, L., Lázara, J. J., Barón, M., Owens, R. A., Steger, G., Hu, Y., Fels, A., Hammond, R. W., Riesner, D., Schröder, A. R. W., Góra, A., Pawlowicz, J., Kierzek, A., Zagorski, W., Baumstark, T., Schiebel, W., Schiebel, R., Axmann, A., Haas, B., Sänger, H. L., Xicai, Yang, Yin, Yie, Feng, Zhu, Yule, Liu, Liangyi, Kang, Po, Tien, Poliyka, H., Staub, U., Wagner, M., Gross, H. J., Sano, Teruo, Ishiguro, Akiro, Fayos, J., Garro, R., Bellés, J. M., Conejero, V., Bonfiglioli, R. G., Webb, D. R., Symons, R. H., El-Dougdoug, K. A., Abo-Zeid, A. A., Ambrós, S., Hernandez, C., Desvignes, J. C. C., Flores, R., d’Aquilio, M., Lisa, V., Boccardo, G., Vera, A., Daròs, J. A., Henkel, J., Spieker, R., Higgins, C., Turley, R., Chamberlain, D., Bateson, M., Dale, J., d’Aquino, L., Ragozzino, A., Henderson, J., Bateson, M. F., Chaleeprom, W., Gibbs, A. J., Graichen, K., Rabenstein, F., Schliephake, E., Smith, H. G., Stevens, M., Sadowy, E., Hulanicka, D., Wegener, B., Martin, M. T., Wetzel, T., Cook, G., Kasdorf, G. G. F., Pietersen, G., Braithwaite, Kathryn S., Gambley, Cherie F., Smith, Grant R., Druka, Arnis, Villegas, Lucille, Dahal, Ganesh, Hull, Roger, Senchugova, N. A., Büchen-Osmond, C., Dallwitz, M. J., Blaine, L. D., Naik, P. S., Sonone, A. B., Kolaskar, A. S., Sgro, J. Y., Palmenberg, A. C., Leclerc, Denis, Hohn, Thomas, Moriones, E., Batlle, A., Luis, M., Alvarez, J., Bernal, J. J., Alonso, J. L., Spak, J., Kubelkova, D., Kuo, T. T., Gachechiladze, K. K., Adamia, R. S., Balardshishvili, N. S., Chanishvili, T. G., Krüger, D. H., Nagy, Tibor, Élö, Péter, Papp, Péter, Orosz, László, Licis, N., Berzins, V., Sariol-Carbelo, Carlos A., RodrCarlos, C. M., Janzen, D., Ward, Colin W., Scott, S. W., Shiel, P. J., Berger, P. H., Aleman, M. E., Beachy, R. N., Fauquet, C. M., Salm, S. N., Rybicki, E. P., Rey, M. E. C., Briddon, R. W., Harper, G., Druka, A., Phillips, S., Brunt, A. A., Hull, R., Hay, Jo, Dasgupta, Indranil, Zaifeng, Fan, Meehan, Brian M., Todd, Daniel, Bunk, Hans-Jörk, Grieco, F., Martelli, G. P., Saldarelli, P., Minafra, A., Morag, A., Mumcuoglu, M., Baybikov, T., Schlesinger, M., Zakay-Rones, Z., Shohat, B., Shohat, M., Miller, M., Shaklay, M., Kalvatchev, Z., Walder, R., Garzaro, D., Barrios, M., Karagöz, Ali, Kuru, Avni, Karim, M. R., Johnson, A. J., Takida, S., Thompson, M. C., Omer, H. M. K., Omer, O. L. M., Biyiti, L., Amvam, R. H., Lamaty, G., Bouchet, P., Xu, J., Hefferon, K. L., Abou Haidar, M. G., and Meng, A. X. X.

Published
1997
Full Text
View/download PDF

13. Abstracts of presentations on plant protection issues at the fifth international Mango Symposium Abstracts of presentations on plant protection issues at the Xth international congress of Virology: September 1-6, 1996 Dan Panorama Hotel, Tel Aviv, Israel August 11-16, 1996 Binyanei haoma, Jerusalem, Israel

Author

Peña, J., Wysoki, M., Singh, Gajendra, Boscán de M., Nancy, Godoy, Freddy, Obligado, A., Rossetto, C., Ribeiro, I., Gallo, P., Soares, N., Sabino, J., Martins, A., Bortoletto, N., Ploetz, R., Benscher, D., Vázquez, Aimé, Colls, A., Nagel, Julianne, Schaffer, B., Pinkas, Y., Maymon, M., Freeman, S., Bostros Bastawros, Mikhail, Gosbee, M., Johnson, G., Joyce, D., Irwin, J., Saaiman, W., Prusky, D., Falik, E., Kobiler, I., Fuchs, Y., Zauberman, G., Pesis, E., Ackerman, M., Roth, I., Weksler, A., Yekutiely, O., Waisblum, A., Keinan, A., Ofek, G., Reved, R., Barak, R., Bel, P., Artes, L., Visarathanonth, N., Xu, Z., Ponce de León, L., Muñoz, C., Pérez, L., Diaz de León, F., Kerbel, C., Esparza, S., Bósquez, E., Trinidad, M., Coates, L., Cooke, A., Dean, J., Lucia Duarte, Ana, Alberto Otto, Paulo, Malavasi, Aldo, Lizado, M., Bautista, M., Bacalangco, N., Farungsang, U., Farungsang, N., Waskar, D., Masalkar, S., Gaikwad, R., Damame, S., Bally, Ian, O'Hare, Tim, Holmes, Rowland, Atabekov, J., Fauquet, Claude, Tomori, O., Nuss, D., Ahlquist, P., Díez, J., Ishikawa, M., Janda, M., Price, B., Restrepo-Hartwig, M., Bol, J., van Rossum, C., Garcia, M., van der Vossen, E., Reusken, Chantal, Canto, T., Gal-On, A., Palukaitis, P., Roossinck, M., Flasinski, S., Restrepo-Hartwig, Maria, Ahlquist, Paul, Smirnyagina, Ekaterina, Lin, Na-Sheng, Nagy, Peter, Figlerowicz, Marek, Bujarski, Jozef, Proll, D., Guyatt, K., Davidson, A., Kim, Kook-Hyung, Miller, Eric, Hemenway, Cynthia, Havelda, Z., Dalmay, T., Burgyán, J., Kearney, C., Thomson, M., Roland, K., Dawson, W., Bao, Y., Carter, S., Nelson, R., Derrick, P., Shun Ding, Xin, Eskarous, J., Sarkar, S., El-Shamy, M., Chen, J., Sako, N., Yuichiro, W., Ohshima, K., Okada, Y., Felden, Brice, Kuznetsov, Yuri, Malkin, Alexander, Greenwood, Aaron, McPherson, Alexander, Ivanov, K., Dorokhov, Y., Kim, C., Sálanki, Katalin, Carrére, Isabelle, Jacquemond, Mireille, Tepfer, Mark, Balazs, Ervin, Sanz, A., Serra, M., García-Luque, I., Revers, F., Candresse, T., LeGall, O., Souche, S., Lot, H., Dunez, J., Cecchini, E., Milner, J., Al-Kaff, N., Covey, S., Gong, Z., Geri, C., Richert-Pöggeler, K., Shepherd, R., Casper, R., Meiri, Eti, Raccah, B., Gera, A., Singer, S., Allam, E., El Afifi, Soheir, Abo El Nasr, M., Abd El Ghaffar, M., Elisabeth Johansen, I., Keller, K., Hampton, R., SÕrensen, Karina, Bishnoi, S., Rishi, Narayan, Gumedzoe, M., Atissime, K., Yedibahoma, S., Wellink, Joan, Verver, Jan, Bertens, Peter, van Lent, Jan, Goldbach, Rob, van Kammen, Ab, Lekkerkerker, Annemarie, Taylor, K., Spall, V., Lomonossoff, G., Yu. Morozov, S., Solovyev, A., Zelenina, D., Savenkov, E., Grdzelishvili, V., Morozov, S., Jansen, K., Wolfs, C., Lohuis, H., Verduin, B., Stein-Margolina, V., Hsu, Y., Chang, B., Lin, N., Pilartz, Marcel, Jeske, Holger, Verchot, Jeanmarie, Baulcombe, David, English, David, Müller, E., Baulcombe, D., Malcuit, Isabelle, Kavanagh, Tony, Valkonen, J., Puurand, Ü., Merits, A., Rabinstein, F., Sorri, O., Saarma, M., Liao, Y., Vaquero-Martin, C., Monecke, M., Rohde, W., Prüfer, D., Fischer, R., Antignus, Y., Lachman, O., Pearlsman, M., Cohen, S., Qiu, W., Moyer, J., Feldhoff, A., Kikkert, M., Kormelink, R., Krczal, G., Peters, D., Szittya, György, Burgyán, József, Wvpijewski, K., Paduch-Cichal, E., Rezler, A., Skrzeczkowska, S., Augustyniak, J., Nemchinov, L., Maiss, E., Hadidi, A., Wittner, Anita, Palkovics, László, Balázs, Ervin, Crescenzi, A., Piazzolla, P., Kheyr-Pour, A., Dafalla, G., Lecoq, H., Gronenborn, B., Bauer, U., Laux, I., Hajimorad, M., Ding, X., Flasinski, Stanislaw, Cassidy, Pour, Dugdale, B., Beetham, P., Harding, R., Dale, J., Qiu, G., Shaw, J., Molnár, A., Más, P., Balsalobre, J., Sánchez-Pina, M., Pallás, V., Rahontei, J., López, L., Lázara, J., Barón, M., Owens, R., Steger, G., Hu, Y., Fels, A., Hammond, R., Riesner, D., Schröder, A., Góra, A., Pawlowicz, J., Kierzek, A., Zagorski, W., Baumstark, T., Schiebel, W., Schiebel, R., Axmann, A., Haas, B., Sänger, H., Xicai, Yang, Yin, Yie, Feng, Zhu, Yule, Liu, Liangyi, Kang, Po, Tien, Poliyka, H., Staub, U., Wagner, M., Gross, H., Sano, Teruo, Ishiguro, Akiro, Fayos, J., Garro, R., Bellés, J., Conejero, V., Bonfiglioli, R., Webb, D., Symons, R., El-Dougdoug, K., Abo-Zeid, A., Ambrós, S., Hernandez, C., Desvignes, J., Flores, R., d'Aquilio, M., Lisa, V., Boccardo, G., Vera, A., Daròs, J., Henkel, J., Spieker, R., Higgins, C., Turley, R., Chamberlain, D., Bateson, M., d'Aquino, L., Ragozzino, A., Henderson, J., Chaleeprom, W., Gibbs, A., Graichen, K., Rabenstein, F., Schliephake, E., Smith, H., Stevens, M., Sadowy, E., Hulanicka, D., Wegener, B., Martin, M., Wetzel, T., Cook, G., Kasdorf, G., Pietersen, G., Braithwaite, Kathryn, Gambley, Cherie, Smith, Grant, Druka, Arnis, Villegas, Lucille, Dahal, Ganesh, Hull, Roger, Senchugova, N., Büchen-Osmond, C., Dallwitz, M., Blaine, L., Naik, P., Sonone, A., Kolaskar, A., Sgro, J., Palmenberg, A., Leclerc, Denis, Hohn, Thomas, Moriones, E., Batlle, A., Luis, M., Alvarez, J., Bernal, J., Alonso, J., Spak, J., Kubelkova, D., Kuo, T., Gachechiladze, K., Adamia, R., Balardshishvili, N., Chanishvili, T., Krüger, D., Nagy, Tibor, Élö, Péter, Papp, Péter, Orosz, László, Licis, N., Berzins, V., Sariol-Carbelo, Carlos, RodrCarlos, C., Janzen, D., Ward, Colin, Scott, S., Shiel, P., Berger, P., Aleman, M., Beachy, R., Fauquet, C., Salm, S., Rybicki, E., Rey, M., Briddon, R., Harper, G., Druka, A., Phillips, S., Brunt, A., Hull, R., Hay, Jo, Dasgupta, Indranil, Zaifeng, Fan, Meehan, Brian, Todd, Daniel, Bunk, Hans-Jörk, Grieco, F., Martelli, G., Saldarelli, P., Minafra, A., Morag, A., Mumcuoglu, M., Baybikov, T., Schlesinger, M., Zakay-Rones, Z., Shohat, B., Shohat, M., Miller, M., Shaklay, M., Kalvatchev, Z., Walder, R., Garzaro, D., Barrios, M., Karagöz, Ali, Kuru, Avni, Karim, M., Johnson, A., Takida, S., Thompson, M., Omer, H., Omer, O., Biyiti, L., Amvam, R., Lamaty, G., Bouchet, P., Xu, J., Hefferon, K., Abou Haidar, M., and Meng, A.

Published
2018

14. Therapeutic potential of oncolytic Newcastle disease virus a critical review

Author

Tayeb S, Zakay-Rones Z, and Panet A

Subjects
animal structures, NDV, NDV-HUJ, Models, animal diseases, viruses, embryonic structures, Immunotherapy, biochemical phenomena, metabolism, and nutrition, Oncolysis, lcsh:Neoplasms. Tumors. Oncology. Including cancer and carcinogens, lcsh:RC254-282
Abstract

Shay Tayeb,1,2 Zichria Zakay-Rones,2 Amos Panet21Department of Biotechnology, Hadassah Academic College, Jerusalem, Israel; 2Department of Biochemistry and Molecular Biology, The Chanock Center for Virology, Institute of Medical Research Israel-Canada, The Hebrew University-Hadassah Medical School, Jerusalem, IsraelAbstract: Newcastle disease virus (NDV) features a natural preference for replication in many tumor cells compared with normal cells. The observed antitumor effect of NDV appears to be a result of both selective killing of tumor cells and induction of immune responses. Genetic manipulations to change viral tropism and arming the virus with genes encoding for cytokines improved the oncolytic capacity of NDV. Several intracellular proteins in tumor cells, including antiapoptotic proteins (Livin) and oncogenic proteins (H-Ras), are relevant for the oncolytic activity of NDV. Defects in the interferon system, found in some tumor cells, also contribute to the oncolytic selectivity of NDV. Notwithstanding, NDV displays effective oncolytic activity in many tumor types, despite having intact interferon signaling. Taken together, several cellular systems appear to dictate the selective oncolytic activity of NDV. Some barriers, such as neutralizing antibodies elicited during NDV treatment and the extracellular matrix in tumor tissue appear to interfere with spread of NDV and reduce oncolysis. To further understand the oncolytic activity of NDV, we compared two NDV strains, ie, an attenuated virus (NDV-HUJ) and a pathogenic virus (NDV-MTH-68/H). Significant differences in amino acid sequence were noted in several viral proteins, including the fusion precursor (F0) glycoprotein, an important determinant of replication and pathogenicity. However, no difference in the oncolytic activity of the two strains was noted using human tumor tissues maintained as organ cultures or in mouse tumor models. To optimize virotherapy in clinical trials, we describe here a unique organ culture methodology, using a biopsy taken from a patient's tumor before treatment for ex vivo infection with NDV to determine the oncolytic potential on an individual basis. In conclusion, oncolytic NDV is an excellent candidate for cancer therapy, but more knowledge is needed to ensure success in clinical trials.Keywords: Newcastle disease virus, NDV-HUJ, oncolysis, immunotherapy, models

Published
2015

33. Sensitivity of Oral Tissues to Herpes Simplex Virus—in Vitro

Author

Rones, Y., Hochman, N., Ehrlich, J., and Zakay‐Rones, Z.

Abstract

Epithelial andfibroblast cells from the human gingival sulcus area were cultivated in vitro, and their sensitivity to the herpes simplex virus (HSV) was studied. Fibroblasts were sensitive to HSV infection and supported virus multiplication as evidenced by nuclear inclusion bodies and a cytopathogenic effect. Epithelial cells which were primarily devoid of HSV antigens were infected with HSV as demonstrated by positive immunofluorescent staining and damage to the cells at a later stage. Epithelial cells that were found to harbor HSV antigens upon removal from the patients prior to infection in vitro, maintained these antigens throughout the period of in vitrocultivation. The sensitivity of both epithelial cells and fibroblasts from the gingival sulcus area to HSV infection in vitrois significant for the understanding of the role of these tissues as a primary site of infection and as a possible reservoir for the latent virus between recurrences.

Published
1983
Full Text
View/download PDF

36. Abstracts of presentations on plant protection issues at the fifth international Mango Symposium Abstracts of presentations on plant protection issues at the Xth international congress of Virology: September 1-6, 1996 Dan Panorama Hotel, Tel Aviv, Israel August 11-16, 1996 Binyanei haoma, Jerusalem, Israel

Author

Peña, J., Wysoki, M., Singh, Gajendra, Boscán de M., Nancy, Godoy, Freddy, Obligado, A., Rossetto, C., Ribeiro, I., Gallo, P., Soares, N., Sabino, J., Martins, A., Bortoletto, N., Ploetz, R., Benscher, D., Vázquez, Aimé, Colls, A., Nagel, Julianne, Schaffer, B., Pinkas, Y., Maymon, M., Freeman, S., Bostros Bastawros, Mikhail, Gosbee, M., Johnson, G., Joyce, D., Irwin, J., Saaiman, W., Prusky, D., Falik, E., Kobiler, I., Fuchs, Y., Zauberman, G., Pesis, E., Ackerman, M., Roth, I., Weksler, A., Yekutiely, O., Waisblum, A., Keinan, A., Ofek, G., Reved, R., Barak, R., Bel, P., Artes, L., Visarathanonth, N., Xu, Z., Ponce de León, L., Muñoz, C., Pérez, L., Diaz de León, F., Kerbel, C., Esparza, S., Bósquez, E., Trinidad, M., Coates, L., Cooke, A., Dean, J., Lucia Duarte, Ana, Alberto Otto, Paulo, Malavasi, Aldo, Lizado, M., Bautista, M., Bacalangco, N., Farungsang, U., Farungsang, N., Waskar, D., Masalkar, S., Gaikwad, R., Damame, S., Bally, Ian, O'Hare, Tim, Holmes, Rowland, Atabekov, J., Fauquet, Claude, Tomori, O., Nuss, D., Ahlquist, P., Díez, J., Ishikawa, M., Janda, M., Price, B., Restrepo-Hartwig, M., Bol, J., van Rossum, C., Garcia, M., van der Vossen, E., Reusken, Chantal, Canto, T., Gal-On, A., Palukaitis, P., Roossinck, M., Flasinski, S., Restrepo-Hartwig, Maria, Ahlquist, Paul, Smirnyagina, Ekaterina, Lin, Na-Sheng, Nagy, Peter, Figlerowicz, Marek, Bujarski, Jozef, Proll, D., Guyatt, K., Davidson, A., Kim, Kook-Hyung, Miller, Eric, Hemenway, Cynthia, Havelda, Z., Dalmay, T., Burgyán, J., Kearney, C., Thomson, M., Roland, K., Dawson, W., Bao, Y., Carter, S., Nelson, R., Derrick, P., Shun Ding, Xin, Eskarous, J., Sarkar, S., El-Shamy, M., Chen, J., Sako, N., Yuichiro, W., Ohshima, K., Okada, Y., Felden, Brice, Kuznetsov, Yuri, Malkin, Alexander, Greenwood, Aaron, McPherson, Alexander, Ivanov, K., Dorokhov, Y., Kim, C., Sálanki, Katalin, Carrére, Isabelle, Jacquemond, Mireille, Tepfer, Mark, Balazs, Ervin, Sanz, A., Serra, M., García-Luque, I., Revers, F., Candresse, T., LeGall, O., Souche, S., Lot, H., Dunez, J., Cecchini, E., Milner, J., Al-Kaff, N., Covey, S., Gong, Z., Geri, C., Richert-Pöggeler, K., Shepherd, R., Casper, R., Meiri, Eti, Raccah, B., Gera, A., Singer, S., Allam, E., El Afifi, Soheir, Abo El Nasr, M., Abd El Ghaffar, M., Elisabeth Johansen, I., Keller, K., Hampton, R., SÕrensen, Karina, Bishnoi, S., Rishi, Narayan, Gumedzoe, M., Atissime, K., Yedibahoma, S., Wellink, Joan, Verver, Jan, Bertens, Peter, van Lent, Jan, Goldbach, Rob, van Kammen, Ab, Lekkerkerker, Annemarie, Taylor, K., Spall, V., Lomonossoff, G., Yu. Morozov, S., Solovyev, A., Zelenina, D., Savenkov, E., Grdzelishvili, V., Morozov, S., Jansen, K., Wolfs, C., Lohuis, H., Verduin, B., Stein-Margolina, V., Hsu, Y., Chang, B., Lin, N., Pilartz, Marcel, Jeske, Holger, Verchot, Jeanmarie, Baulcombe, David, English, David, Müller, E., Baulcombe, D., Malcuit, Isabelle, Kavanagh, Tony, Valkonen, J., Puurand, Ü., Merits, A., Rabinstein, F., Sorri, O., Saarma, M., Liao, Y., Vaquero-Martin, C., Monecke, M., Rohde, W., Prüfer, D., Fischer, R., Antignus, Y., Lachman, O., Pearlsman, M., Cohen, S., Qiu, W., Moyer, J., Feldhoff, A., Kikkert, M., Kormelink, R., Krczal, G., Peters, D., Szittya, György, Burgyán, József, Wvpijewski, K., Paduch-Cichal, E., Rezler, A., Skrzeczkowska, S., Augustyniak, J., Nemchinov, L., Maiss, E., Hadidi, A., Wittner, Anita, Palkovics, László, Balázs, Ervin, Crescenzi, A., Piazzolla, P., Kheyr-Pour, A., Dafalla, G., Lecoq, H., Gronenborn, B., Bauer, U., Laux, I., Hajimorad, M., Ding, X., Flasinski, Stanislaw, Cassidy, Pour, Dugdale, B., Beetham, P., Harding, R., Dale, J., Qiu, G., Shaw, J., Molnár, A., Más, P., Balsalobre, J., Sánchez-Pina, M., Pallás, V., Rahontei, J., López, L., Lázara, J., Barón, M., Owens, R., Steger, G., Hu, Y., Fels, A., Hammond, R., Riesner, D., Schröder, A., Góra, A., Pawlowicz, J., Kierzek, A., Zagorski, W., Baumstark, T., Schiebel, W., Schiebel, R., Axmann, A., Haas, B., Sänger, H., Xicai, Yang, Yin, Yie, Feng, Zhu, Yule, Liu, Liangyi, Kang, Po, Tien, Poliyka, H., Staub, U., Wagner, M., Gross, H., Sano, Teruo, Ishiguro, Akiro, Fayos, J., Garro, R., Bellés, J., Conejero, V., Bonfiglioli, R., Webb, D., Symons, R., El-Dougdoug, K., Abo-Zeid, A., Ambrós, S., Hernandez, C., Desvignes, J., Flores, R., d'Aquilio, M., Lisa, V., Boccardo, G., Vera, A., Daròs, J., Henkel, J., Spieker, R., Higgins, C., Turley, R., Chamberlain, D., Bateson, M., d'Aquino, L., Ragozzino, A., Henderson, J., Chaleeprom, W., Gibbs, A., Graichen, K., Rabenstein, F., Schliephake, E., Smith, H., Stevens, M., Sadowy, E., Hulanicka, D., Wegener, B., Martin, M., Wetzel, T., Cook, G., Kasdorf, G., Pietersen, G., Braithwaite, Kathryn, Gambley, Cherie, Smith, Grant, Druka, Arnis, Villegas, Lucille, Dahal, Ganesh, Hull, Roger, Senchugova, N., Büchen-Osmond, C., Dallwitz, M., Blaine, L., Naik, P., Sonone, A., Kolaskar, A., Sgro, J., Palmenberg, A., Leclerc, Denis, Hohn, Thomas, Moriones, E., Batlle, A., Luis, M., Alvarez, J., Bernal, J., Alonso, J., Spak, J., Kubelkova, D., Kuo, T., Gachechiladze, K., Adamia, R., Balardshishvili, N., Chanishvili, T., Krüger, D., Nagy, Tibor, Élö, Péter, Papp, Péter, Orosz, László, Licis, N., Berzins, V., Sariol-Carbelo, Carlos, RodrCarlos, C., Janzen, D., Ward, Colin, Scott, S., Shiel, P., Berger, P., Aleman, M., Beachy, R., Fauquet, C., Salm, S., Rybicki, E., Rey, M., Briddon, R., Harper, G., Druka, A., Phillips, S., Brunt, A., Hull, R., Hay, Jo, Dasgupta, Indranil, Zaifeng, Fan, Meehan, Brian, Todd, Daniel, Bunk, Hans-Jörk, Grieco, F., Martelli, G., Saldarelli, P., Minafra, A., Morag, A., Mumcuoglu, M., Baybikov, T., Schlesinger, M., Zakay-Rones, Z., Shohat, B., Shohat, M., Miller, M., Shaklay, M., Kalvatchev, Z., Walder, R., Garzaro, D., Barrios, M., Karagöz, Ali, Kuru, Avni, Karim, M., Johnson, A., Takida, S., Thompson, M., Omer, H., Omer, O., Biyiti, L., Amvam, R., Lamaty, G., Bouchet, P., Xu, J., Hefferon, K., Abou Haidar, M., Meng, A., Peña, J., Wysoki, M., Singh, Gajendra, Boscán de M., Nancy, Godoy, Freddy, Obligado, A., Rossetto, C., Ribeiro, I., Gallo, P., Soares, N., Sabino, J., Martins, A., Bortoletto, N., Ploetz, R., Benscher, D., Vázquez, Aimé, Colls, A., Nagel, Julianne, Schaffer, B., Pinkas, Y., Maymon, M., Freeman, S., Bostros Bastawros, Mikhail, Gosbee, M., Johnson, G., Joyce, D., Irwin, J., Saaiman, W., Prusky, D., Falik, E., Kobiler, I., Fuchs, Y., Zauberman, G., Pesis, E., Ackerman, M., Roth, I., Weksler, A., Yekutiely, O., Waisblum, A., Keinan, A., Ofek, G., Reved, R., Barak, R., Bel, P., Artes, L., Visarathanonth, N., Xu, Z., Ponce de León, L., Muñoz, C., Pérez, L., Diaz de León, F., Kerbel, C., Esparza, S., Bósquez, E., Trinidad, M., Coates, L., Cooke, A., Dean, J., Lucia Duarte, Ana, Alberto Otto, Paulo, Malavasi, Aldo, Lizado, M., Bautista, M., Bacalangco, N., Farungsang, U., Farungsang, N., Waskar, D., Masalkar, S., Gaikwad, R., Damame, S., Bally, Ian, O'Hare, Tim, Holmes, Rowland, Atabekov, J., Fauquet, Claude, Tomori, O., Nuss, D., Ahlquist, P., Díez, J., Ishikawa, M., Janda, M., Price, B., Restrepo-Hartwig, M., Bol, J., van Rossum, C., Garcia, M., van der Vossen, E., Reusken, Chantal, Canto, T., Gal-On, A., Palukaitis, P., Roossinck, M., Flasinski, S., Restrepo-Hartwig, Maria, Ahlquist, Paul, Smirnyagina, Ekaterina, Lin, Na-Sheng, Nagy, Peter, Figlerowicz, Marek, Bujarski, Jozef, Proll, D., Guyatt, K., Davidson, A., Kim, Kook-Hyung, Miller, Eric, Hemenway, Cynthia, Havelda, Z., Dalmay, T., Burgyán, J., Kearney, C., Thomson, M., Roland, K., Dawson, W., Bao, Y., Carter, S., Nelson, R., Derrick, P., Shun Ding, Xin, Eskarous, J., Sarkar, S., El-Shamy, M., Chen, J., Sako, N., Yuichiro, W., Ohshima, K., Okada, Y., Felden, Brice, Kuznetsov, Yuri, Malkin, Alexander, Greenwood, Aaron, McPherson, Alexander, Ivanov, K., Dorokhov, Y., Kim, C., Sálanki, Katalin, Carrére, Isabelle, Jacquemond, Mireille, Tepfer, Mark, Balazs, Ervin, Sanz, A., Serra, M., García-Luque, I., Revers, F., Candresse, T., LeGall, O., Souche, S., Lot, H., Dunez, J., Cecchini, E., Milner, J., Al-Kaff, N., Covey, S., Gong, Z., Geri, C., Richert-Pöggeler, K., Shepherd, R., Casper, R., Meiri, Eti, Raccah, B., Gera, A., Singer, S., Allam, E., El Afifi, Soheir, Abo El Nasr, M., Abd El Ghaffar, M., Elisabeth Johansen, I., Keller, K., Hampton, R., SÕrensen, Karina, Bishnoi, S., Rishi, Narayan, Gumedzoe, M., Atissime, K., Yedibahoma, S., Wellink, Joan, Verver, Jan, Bertens, Peter, van Lent, Jan, Goldbach, Rob, van Kammen, Ab, Lekkerkerker, Annemarie, Taylor, K., Spall, V., Lomonossoff, G., Yu. Morozov, S., Solovyev, A., Zelenina, D., Savenkov, E., Grdzelishvili, V., Morozov, S., Jansen, K., Wolfs, C., Lohuis, H., Verduin, B., Stein-Margolina, V., Hsu, Y., Chang, B., Lin, N., Pilartz, Marcel, Jeske, Holger, Verchot, Jeanmarie, Baulcombe, David, English, David, Müller, E., Baulcombe, D., Malcuit, Isabelle, Kavanagh, Tony, Valkonen, J., Puurand, Ü., Merits, A., Rabinstein, F., Sorri, O., Saarma, M., Liao, Y., Vaquero-Martin, C., Monecke, M., Rohde, W., Prüfer, D., Fischer, R., Antignus, Y., Lachman, O., Pearlsman, M., Cohen, S., Qiu, W., Moyer, J., Feldhoff, A., Kikkert, M., Kormelink, R., Krczal, G., Peters, D., Szittya, György, Burgyán, József, Wvpijewski, K., Paduch-Cichal, E., Rezler, A., Skrzeczkowska, S., Augustyniak, J., Nemchinov, L., Maiss, E., Hadidi, A., Wittner, Anita, Palkovics, László, Balázs, Ervin, Crescenzi, A., Piazzolla, P., Kheyr-Pour, A., Dafalla, G., Lecoq, H., Gronenborn, B., Bauer, U., Laux, I., Hajimorad, M., Ding, X., Flasinski, Stanislaw, Cassidy, Pour, Dugdale, B., Beetham, P., Harding, R., Dale, J., Qiu, G., Shaw, J., Molnár, A., Más, P., Balsalobre, J., Sánchez-Pina, M., Pallás, V., Rahontei, J., López, L., Lázara, J., Barón, M., Owens, R., Steger, G., Hu, Y., Fels, A., Hammond, R., Riesner, D., Schröder, A., Góra, A., Pawlowicz, J., Kierzek, A., Zagorski, W., Baumstark, T., Schiebel, W., Schiebel, R., Axmann, A., Haas, B., Sänger, H., Xicai, Yang, Yin, Yie, Feng, Zhu, Yule, Liu, Liangyi, Kang, Po, Tien, Poliyka, H., Staub, U., Wagner, M., Gross, H., Sano, Teruo, Ishiguro, Akiro, Fayos, J., Garro, R., Bellés, J., Conejero, V., Bonfiglioli, R., Webb, D., Symons, R., El-Dougdoug, K., Abo-Zeid, A., Ambrós, S., Hernandez, C., Desvignes, J., Flores, R., d'Aquilio, M., Lisa, V., Boccardo, G., Vera, A., Daròs, J., Henkel, J., Spieker, R., Higgins, C., Turley, R., Chamberlain, D., Bateson, M., d'Aquino, L., Ragozzino, A., Henderson, J., Chaleeprom, W., Gibbs, A., Graichen, K., Rabenstein, F., Schliephake, E., Smith, H., Stevens, M., Sadowy, E., Hulanicka, D., Wegener, B., Martin, M., Wetzel, T., Cook, G., Kasdorf, G., Pietersen, G., Braithwaite, Kathryn, Gambley, Cherie, Smith, Grant, Druka, Arnis, Villegas, Lucille, Dahal, Ganesh, Hull, Roger, Senchugova, N., Büchen-Osmond, C., Dallwitz, M., Blaine, L., Naik, P., Sonone, A., Kolaskar, A., Sgro, J., Palmenberg, A., Leclerc, Denis, Hohn, Thomas, Moriones, E., Batlle, A., Luis, M., Alvarez, J., Bernal, J., Alonso, J., Spak, J., Kubelkova, D., Kuo, T., Gachechiladze, K., Adamia, R., Balardshishvili, N., Chanishvili, T., Krüger, D., Nagy, Tibor, Élö, Péter, Papp, Péter, Orosz, László, Licis, N., Berzins, V., Sariol-Carbelo, Carlos, RodrCarlos, C., Janzen, D., Ward, Colin, Scott, S., Shiel, P., Berger, P., Aleman, M., Beachy, R., Fauquet, C., Salm, S., Rybicki, E., Rey, M., Briddon, R., Harper, G., Druka, A., Phillips, S., Brunt, A., Hull, R., Hay, Jo, Dasgupta, Indranil, Zaifeng, Fan, Meehan, Brian, Todd, Daniel, Bunk, Hans-Jörk, Grieco, F., Martelli, G., Saldarelli, P., Minafra, A., Morag, A., Mumcuoglu, M., Baybikov, T., Schlesinger, M., Zakay-Rones, Z., Shohat, B., Shohat, M., Miller, M., Shaklay, M., Kalvatchev, Z., Walder, R., Garzaro, D., Barrios, M., Karagöz, Ali, Kuru, Avni, Karim, M., Johnson, A., Takida, S., Thompson, M., Omer, H., Omer, O., Biyiti, L., Amvam, R., Lamaty, G., Bouchet, P., Xu, J., Hefferon, K., Abou Haidar, M., and Meng, A.

40. Decidual-tissue-resident memory T cells protect against nonprimary human cytomegalovirus infection at the maternal-fetal interface.

Author

Alfi O, Cohen M, Bar-On S, Hashimshony T, Levitt L, Raz Y, Blecher Y, Chaudhry MZ, Cicin-Sain L, Ben-El R, Oiknine-Djian E, Lahav T, Vorontsov O, Cohen A, Zakay-Rones Z, Daniel L, Berger M, Mandel-Gutfreund Y, Panet A, and Wolf DG

Subjects
Infant, Humans, Female, CD8-Positive T-Lymphocytes, Memory T Cells, Fetus, Cytomegalovirus, Cytomegalovirus Infections
Abstract

Congenital cytomegalovirus (cCMV) is the most common intrauterine infection, leading to infant neurodevelopmental disabilities. An improved knowledge of correlates of protection against cCMV is needed to guide prevention strategies. Here, we employ an ex vivo model of human CMV (HCMV) infection in decidual tissues of women with and without preconception immunity against CMV, recapitulating nonprimary vs. primary infection at the authentic maternofetal transmission site. We show that decidual tissues of women with preconception immunity against CMV exhibit intrinsic resistance to HCMV, mounting a rapid activation of tissue-resident memory CD8 + and CD4 + T cells upon HCMV reinfection. We further reveal the role of HCMV-specific decidual-tissue-resident CD8 + T cells in local protection against nonprimary HCMV infection. The findings could inform the development of a vaccine against cCMV and provide insights for further studies of the integrity of immune defense against HCMV and other pathogens at the human maternal-fetal interface., Competing Interests: Declaration of interests The authors declare no competing interests., (Copyright © 2024 The Author(s). Published by Elsevier Inc. All rights reserved.)

Published
2024
Full Text
View/download PDF

41. SARS-CoV-2 Omicron Induces Enhanced Mucosal Interferon Response Compared to other Variants of Concern, Associated with Restricted Replication in Human Lung Tissues.

Author

Alfi O, Hamdan M, Wald O, Yakirevitch A, Wandel O, Oiknine-Djian E, Gvili B, Knoller H, Rozendorn N, Golan Berman H, Adar S, Vorontsov O, Mandelboim M, Zakay-Rones Z, Oberbaum M, Panet A, and Wolf DG

Subjects
Humans, SARS-CoV-2 physiology, Virus Replication, COVID-19 immunology, Interferons immunology, Lung immunology, Lung virology
Abstract

SARS-CoV-2 Omicron variant has been characterized by decreased clinical severity, raising the question of whether early variant-specific interactions within the mucosal surfaces of the respiratory tract could mediate its attenuated pathogenicity. Here, we employed ex vivo infection of native human nasal and lung tissues to investigate the local-mucosal susceptibility and innate immune response to Omicron compared to Delta and earlier SARS-CoV-2 variants of concern (VOC). We show that the replication of Omicron in lung tissues is highly restricted compared to other VOC, whereas it remains relatively unchanged in nasal tissues. Mechanistically, Omicron induced a much stronger antiviral interferon response in infected tissues compared to Delta and earlier VOC-a difference, which was most striking in the lung tissues, where the innate immune response to all other SARS-CoV-2 VOC was blunted. Notably, blocking the innate immune signaling restored Omicron replication in the lung tissues. Our data provide new insights to the reduced lung involvement and clinical severity of Omicron.

Published
2022
Full Text
View/download PDF

42. Amniotic fluid biomarkers predict the severity of congenital cytomegalovirus infection.

Author

Vorontsov O, Levitt L, Lilleri D, Vainer GW, Kaplan O, Schreiber L, Arossa A, Spinillo A, Furione M, Alfi O, Oiknine-Djian E, Kupervaser M, Nevo Y, Elgavish S, Yassour M, Zavattoni M, Bdolah-Abram T, Baldanti F, Geal-Dor M, Zakay-Rones Z, Yanay N, Yagel S, Panet A, and Wolf DG

Subjects
Amniotic Fluid, Biomarkers, Cytomegalovirus, Female, Humans, Infant, Pregnancy, Proteome, Cytomegalovirus Infections diagnosis, Pregnancy Complications, Infectious
Abstract

BACKGROUNDCytomegalovirus (CMV) is the most common intrauterine infection, leading to infant brain damage. Prognostic assessment of CMV-infected fetuses has remained an ongoing challenge in prenatal care, in the absence of established prenatal biomarkers of congenital CMV (cCMV) infection severity. We aimed to identify prognostic biomarkers of cCMV-related fetal brain injury.METHODSWe performed global proteome analysis of mid-gestation amniotic fluid samples, comparing amniotic fluid of fetuses with severe cCMV with that of asymptomatic CMV-infected fetuses. The levels of selected differentially excreted proteins were further determined by specific immunoassays.RESULTSUsing unbiased proteome analysis in a discovery cohort, we identified amniotic fluid proteins related to inflammation and neurological disease pathways, which demonstrated distinct abundance in fetuses with severe cCMV. Amniotic fluid levels of 2 of these proteins - the immunomodulatory proteins retinoic acid receptor responder 2 (chemerin) and galectin-3-binding protein (Gal-3BP) - were highly predictive of the severity of cCMV in an independent validation cohort, differentiating between fetuses with severe (n = 17) and asymptomatic (n = 26) cCMV, with 100%-93.8% positive predictive value, and 92.9%-92.6% negative predictive value (for chemerin and Gal-3BP, respectively). CONCLUSIONAnalysis of chemerin and Gal-3BP levels in mid-gestation amniotic fluids could be used in the clinical setting to profoundly improve the prognostic assessment of CMV-infected fetuses.FUNDINGIsrael Science Foundation (530/18 and IPMP 3432/19); Research Fund - Hadassah Medical Organization.

Published
2022
Full Text
View/download PDF

43. Human Nasal and Lung Tissues Infected Ex Vivo with SARS-CoV-2 Provide Insights into Differential Tissue-Specific and Virus-Specific Innate Immune Responses in the Upper and Lower Respiratory Tract.

Author

Alfi O, Yakirevitch A, Wald O, Wandel O, Izhar U, Oiknine-Djian E, Nevo Y, Elgavish S, Dagan E, Madgar O, Feinmesser G, Pikarsky E, Bronstein M, Vorontsov O, Jonas W, Ives J, Walter J, Zakay-Rones Z, Oberbaum M, Panet A, and Wolf DG

Subjects
Animals, COVID-19 pathology, Chlorocebus aethiops, Dogs, Humans, Influenza, Human immunology, Influenza, Human pathology, Lung pathology, Madin Darby Canine Kidney Cells, Nasal Mucosa pathology, Nasal Mucosa virology, Organ Specificity immunology, RNA, Messenger immunology, RNA, Viral immunology, Vero Cells, COVID-19 immunology, Immunity, Innate, Lung immunology, Nasal Mucosa immunology, SARS-CoV-2 immunology
Abstract

The nasal mucosa constitutes the primary entry site for respiratory viruses, including severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2). While the imbalanced innate immune response of end-stage coronavirus disease 2019 (COVID-19) has been extensively studied, the earliest stages of SARS-CoV-2 infection at the mucosal entry site have remained unexplored. Here, we employed SARS-CoV-2 and influenza virus infection in native multi-cell-type human nasal turbinate and lung tissues ex vivo , coupled with genome-wide transcriptional analysis, to investigate viral susceptibility and early patterns of local mucosal innate immune response in the authentic milieu of the human respiratory tract. SARS-CoV-2 productively infected the nasal turbinate tissues, predominantly targeting respiratory epithelial cells, with a rapid increase in tissue-associated viral subgenomic mRNA and secretion of infectious viral progeny. Importantly, SARS-CoV-2 infection triggered robust antiviral and inflammatory innate immune responses in the nasal mucosa. The upregulation of interferon-stimulated genes, cytokines, and chemokines, related to interferon signaling and immune-cell activation pathways, was broader than that triggered by influenza virus infection. Conversely, lung tissues exhibited a restricted innate immune response to SARS-CoV-2, with a conspicuous lack of type I and III interferon upregulation, contrasting with their vigorous innate immune response to influenza virus. Our findings reveal differential tissue-specific innate immune responses in the upper and lower respiratory tracts that are specific to SARS-CoV-2. The studies shed light on the role of the nasal mucosa in active viral transmission and immune defense, implying a window of opportunity for early interventions, whereas the restricted innate immune response in early-SARS-CoV-2-infected lung tissues could underlie the unique uncontrolled late-phase lung damage of advanced COVID-19. IMPORTANCE In order to reduce the late-phase morbidity and mortality of COVID-19, there is a need to better understand and target the earliest stages of SARS-CoV-2 infection in the human respiratory tract. Here, we have studied the initial steps of SARS-CoV-2 infection and the consequent innate immune responses within the natural multicellular complexity of human nasal mucosal and lung tissues. Comparing the global innate response patterns of nasal and lung tissues infected in parallel with SARS-CoV-2 and influenza virus, we found distinct virus-host interactions in the upper and lower respiratory tract, which could determine the outcome and unique pathogenesis of SARS-CoV-2 infection. Studies in the nasal mucosal infection model can be employed to assess the impact of viral evolutionary changes and evaluate new therapeutic and preventive measures against SARS-CoV-2 and other human respiratory pathogens.

Published
2021
Full Text
View/download PDF

44. Human Nasal Turbinate Tissues in Organ Culture as a Model for Human Cytomegalovirus Infection at the Mucosal Entry Site.

Author

Alfi O, From I, Yakirevitch A, Drendel M, Wolf M, Meir K, Zakay-Rones Z, Nevo Y, Elgavish S, Ilan O, Weisblum Y, Tayeb S, Gross M, Jonas W, Ives J, Oberbaum M, Panet A, and Wolf DG

Subjects
Cell Line, Cytomegalovirus Infections pathology, Cytomegalovirus Infections transmission, Endothelial Cells, Female, Fibroblasts, Foreskin, Humans, Immunity, Innate, Infectious Disease Transmission, Vertical, Male, Mucous Membrane, Organ Culture Techniques, Pregnancy, Cytomegalovirus physiology, Cytomegalovirus Infections virology, Turbinates virology, Virus Internalization
Abstract

The initial events of viral infection at the primary mucosal entry site following horizontal person-to-person transmission have remained ill defined. Our limited understanding is further underscored by the absence of animal models in the case of human-restricted viruses, such as human cytomegalovirus (HCMV), a leading cause of congenital infection and a major pathogen in immunocompromised individuals. Here, we established a novel ex vivo model of HCMV infection in native human nasal turbinate tissues. Nasal turbinate tissue viability and physiological functionality were preserved for at least 7 days in culture. We found that nasal mucosal tissues were susceptible to HCMV infection, with predominant infection of ciliated respiratory epithelial cells. A limited viral spread was demonstrated, involving mainly stromal and vascular endothelial cells within the tissue. Importantly, functional antiviral and proleukocyte chemotactic signaling pathways were significantly upregulated in the nasal mucosa in response to infection. Conversely, HCMV downregulated the expression of nasal epithelial cell-related genes. We further revealed tissue-specific innate immune response patterns to HCMV, comparing infected human nasal mucosal and placental tissues, representing the viral entry and the maternal-to-fetal transmission sites, respectively. Taken together, our studies provide insights into the earliest stages of HCMV infection. Studies in this model could help evaluate new interventions against the horizontal transmission of HCMV. IMPORTANCE HCMV is a ubiquitous human pathogen causing neurodevelopmental disabilities in congenitally infected children and severe disease in immunocompromised patients. The earliest stages of HCMV infection in the human host have remained elusive in the absence of a model for the viral entry site. Here, we describe the establishment and use of a novel nasal turbinate organ culture to study the initial steps of viral infection and the consequent innate immune responses within the natural complexity and the full cellular repertoire of human nasal mucosal tissues. This model can be applied to examine new antiviral interventions against the horizontal transmission of HCMV and potentially that of other viruses., (Copyright © 2020 American Society for Microbiology.)

Published
2020
Full Text
View/download PDF

46. APOBEC3A Is Upregulated by Human Cytomegalovirus (HCMV) in the Maternal-Fetal Interface, Acting as an Innate Anti-HCMV Effector.

Author

Weisblum Y, Oiknine-Djian E, Zakay-Rones Z, Vorontsov O, Haimov-Kochman R, Nevo Y, Stockheim D, Yagel S, Panet A, and Wolf DG

Subjects
Amniotic Fluid immunology, Amniotic Fluid virology, Cytidine Deaminase immunology, Cytomegalovirus genetics, Cytomegalovirus immunology, Cytomegalovirus pathogenicity, Cytomegalovirus Infections congenital, Cytomegalovirus Infections immunology, Decidua cytology, Decidua virology, Female, Gene Editing, Genome, Viral, Humans, Infant, Newborn, Infectious Disease Transmission, Vertical, Organ Culture Techniques, Placenta cytology, Placenta virology, Pregnancy, Pregnancy Complications, Infectious immunology, Pregnancy Complications, Infectious virology, Proteins immunology, Up-Regulation, Virus Replication, Cytidine Deaminase genetics, Cytidine Deaminase metabolism, Cytomegalovirus Infections virology, Decidua immunology, Immunity, Innate, Placenta immunology, Proteins genetics, Proteins metabolism
Abstract

Human cytomegalovirus (HCMV) is the leading cause of congenital infection and is associated with a wide range of neurodevelopmental disabilities and intrauterine growth restriction. Yet our current understanding of the mechanisms modulating transplacental HCMV transmission is poor. The placenta, given its critical function in protecting the fetus, has evolved effective yet largely uncharacterized innate immune barriers against invading pathogens. Here we show that the intrinsic cellular restriction factor apo lipoprotein B e diting c atalytic subunit-like 3A (APOBEC3A [A3A]) is profoundly upregulated following ex vivo HCMV infection in human decidual tissues-constituting the maternal aspect of the placenta. We directly demonstrated that A3A severely restricted HCMV replication upon controlled overexpression in epithelial cells, acting by a cytidine deamination mechanism to introduce hypermutations into the viral genome. Importantly, we further found that A3 editing of HCMV DNA occurs both ex vivo in HCMV-infected decidual organ cultures and in vivo in amniotic fluid samples obtained during natural congenital infection. Our results reveal a previously unexplored role for A3A as an innate anti-HCMV effector, activated by HCMV infection in the maternal-fetal interface. These findings pave the way to new insights into the potential impact of APOBEC proteins on HCMV pathogenesis. IMPORTANCE In view of the grave outcomes associated with congenital HCMV infection, there is an urgent need to better understand the innate mechanisms acting to limit transplacental viral transmission. Toward this goal, our findings reveal the role of the intrinsic cellular restriction factor A3A (which has never before been studied in the context of HCMV infection and vertical viral transmission) as a potent anti-HCMV innate barrier, activated by HCMV infection in the authentic tissues of the maternal-fetal interface. The detection of naturally occurring hypermutations in clinical amniotic fluid samples of congenitally infected fetuses further supports the idea of the occurrence of A3 editing of the viral genome in the setting of congenital HCMV infection. Given the widely differential tissue distribution characteristics and biological functions of the members of the A3 protein family, our findings should pave the way to future studies examining the potential impact of A3A as well as of other A3s on HCMV pathogenesis., (Copyright © 2017 American Society for Microbiology.)

Published
2017
Full Text
View/download PDF

47. Zika Virus Infects Early- and Midgestation Human Maternal Decidual Tissues, Inducing Distinct Innate Tissue Responses in the Maternal-Fetal Interface.

Author

Weisblum Y, Oiknine-Djian E, Vorontsov OM, Haimov-Kochman R, Zakay-Rones Z, Meir K, Shveiky D, Elgavish S, Nevo Y, Roseman M, Bronstein M, Stockheim D, From I, Eisenberg I, Lewkowicz AA, Yagel S, Panet A, and Wolf DG

Subjects
Animals, Cell Line, Chorionic Villi virology, Cytomegalovirus immunology, Cytomegalovirus Infections immunology, Cytomegalovirus Infections transmission, Cytomegalovirus Infections virology, Disease Susceptibility, Female, Gene Expression, Gestational Age, Humans, Infectious Disease Transmission, Vertical, Interferons genetics, Interferons metabolism, Pregnancy, Signal Transduction, Zika Virus Infection metabolism, Zika Virus Infection transmission, Decidua virology, Immunity, Innate, Placenta virology, Pregnancy Complications, Infectious, Zika Virus physiology, Zika Virus Infection immunology, Zika Virus Infection virology
Abstract

Zika virus (ZIKV) has emerged as a cause of congenital brain anomalies and a range of placenta-related abnormalities, highlighting the need to unveil the modes of maternal-fetal transmission. The most likely route of vertical ZIKV transmission is via the placenta. The earliest events of ZIKV transmission in the maternal decidua, representing the maternal uterine aspect of the chimeric placenta, have remained unexplored. Here, we show that ZIKV replicates in first-trimester human maternal-decidual tissues grown ex vivo as three-dimensional (3D) organ cultures. An efficient viral spread in the decidual tissues was demonstrated by the rapid upsurge and continued increase of tissue-associated ZIKV load and titers of infectious cell-free virus progeny, released from the infected tissues. Notably, maternal decidual tissues obtained at midgestation remained similarly susceptible to ZIKV, whereas fetus-derived chorionic villi demonstrated reduced ZIKV replication with increasing gestational age. A genome-wide transcriptome analysis revealed that ZIKV substantially upregulated the decidual tissue innate immune responses. Further comparison of the innate tissue response patterns following parallel infections with ZIKV and human cytomegalovirus (HCMV) revealed that unlike HCMV, ZIKV did not induce immune cell activation or trafficking responses in the maternal-fetal interface but rather upregulated placental apoptosis and cell death molecular functions. The data identify the maternal uterine aspect of the human placenta as a likely site of ZIKV transmission to the fetus and further reveal distinct patterns of innate tissue responses to ZIKV. Our unique experimental model and findings could further serve to study the initial stages of congenital ZIKV transmission and pathogenesis and evaluate the effect of new therapeutic interventions., Importance: In view of the rapid spread of the current ZIKV epidemic and the severe manifestations of congenital ZIKV infection, it is crucial to learn the fundamental mechanisms of viral transmission from the mother to the fetus. Our studies of ZIKV infection in the authentic tissues of the human maternal-fetal interface unveil a route of transmission whereby virus originating from the mother could reach the fetal compartment via efficient replication within the maternal decidual aspect of the placenta, coinhabited by maternal and fetal cells. The identified distinct placental tissue innate immune responses and damage pathways could provide a mechanistic basis for some of the placental developmental abnormalities associated with ZIKV infection. The findings in the unique model of the human decidua should pave the way to future studies examining the interaction of ZIKV with decidual immune cells and to evaluation of therapeutic interventions aimed at the earliest stages of transmission., (Copyright © 2017 American Society for Microbiology.)

Published
2017
Full Text
View/download PDF

48. Human cytomegalovirus induces a distinct innate immune response in the maternal-fetal interface.

Author

Weisblum Y, Panet A, Zakay-Rones Z, Vitenshtein A, Haimov-Kochman R, Goldman-Wohl D, Oiknine-Djian E, Yamin R, Meir K, Amsalem H, Imbar T, Mandelboim O, Yagel S, and Wolf DG

Subjects
Antibodies, Neutralizing immunology, Antibodies, Viral immunology, Cytokines genetics, Cytokines metabolism, Cytomegalovirus Infections genetics, Cytomegalovirus Infections metabolism, Cytomegalovirus Infections virology, Decidua immunology, Decidua metabolism, Decidua pathology, Decidua virology, Female, Gene Expression, Heparin metabolism, Humans, Inflammation Mediators metabolism, Placenta metabolism, Placenta pathology, Placenta virology, Pregnancy, Virion immunology, Cytomegalovirus immunology, Cytomegalovirus Infections immunology, Host-Pathogen Interactions immunology, Immunity, Innate, Placenta immunology
Abstract

The initial interplay between human cytomegalovirus (HCMV) and innate tissue response in the human maternal-fetal interface, though crucial for determining the outcome of congenital HCMV infection, has remained unknown. We studied the innate response to HCMV within the milieu of the human decidua, the maternal aspect of the maternal-fetal interface, maintained ex vivo as an integral tissue. HCMV infection triggered a rapid and robust decidual-tissue innate immune response predominated by interferon (IFN)γ and IP-10 induction, dysregulating the decidual cytokine/chemokine environment in a distinctive fashion. The decidual-tissue response was already elicited during viral-tissue contact, and was not affected by neutralizing HCMV antibodies. Of note, IFNγ induction, reflecting immune-cell activation, was distinctive to the maternal decidua, and was not observed in concomitantly-infected placental (fetal) villi. Our studies in a clinically-relevant surrogate human model, provide a novel insight into the first-line decidual tissue response which could affect the outcome of congenital infection., (Copyright © 2015 Elsevier Inc. All rights reserved.)

Published
2015
Full Text
View/download PDF

49. Extracellular matrix constituents interfere with Newcastle disease virus spread in solid tissue and diminish its potential oncolytic activity.

Author

Yaacov B, Lazar I, Tayeb S, Frank S, Izhar U, Lotem M, Perlman R, Ben-Yehuda D, Zakay-Rones Z, and Panet A

Subjects
Animals, Humans, Lung Neoplasms metabolism, Mice, Mice, SCID, Neoplasm Transplantation, Reverse Transcriptase Polymerase Chain Reaction, Time Factors, Tissue Culture Techniques, Virus Replication, Carcinoma metabolism, Carcinoma virology, Extracellular Matrix metabolism, Melanoma metabolism, Melanoma virology, Newcastle disease virus physiology
Abstract

Advanced melanoma cells, characterized by resistance to chemotherapy, have been shown to be highly sensitive to oncolysis by Newcastle disease virus (NDV). In the present study, we investigated the capacity of NDV to specifically infect and spread into solid tissues of human melanoma and lung carcinoma, in vivo and ex vivo. For this purpose a new model of SCID-beige mice implanted with human melanoma was developed. Surprisingly, the replication competent NDV-MTH and the attenuated, single-cycle replication NDV-HUJ strains, demonstrated a similar oncolytic activity in the melanoma-implanted mice. Further, ex vivo analysis, using organ cultures derived from the melanoma tissues indicated a limited spread of the two NDV strains in the tissue. Extracellular matrix (ECM) molecules, notably heparin sulfate and collagen, were found to limit viral spread in the tissue. This observation was validated with yet another solid tumour of human lung carcinoma. Taken together, the results indicate that the ECM acts as a barrier to virus spread within solid tumour tissues and that this restriction must be overcome to achieve effective oncolysis with NDV.

Published
2012
Full Text
View/download PDF

50. High molecular weight constituents of cranberry interfere with influenza virus neuraminidase activity in vitro.

Author

Oiknine-Djian E, Houri-Haddad Y, Weiss EI, Ofek I, Greenbaum E, Hartshorn K, and Zakay-Rones Z

Subjects
Animals, Anti-Bacterial Agents pharmacology, Cell Line, Dogs, Drug Evaluation, Preclinical, Enzyme Activation, Erythrocytes, Hemagglutination Tests methods, Influenza A Virus, H1N1 Subtype enzymology, Influenza A Virus, H3N2 Subtype drug effects, Influenza A Virus, H3N2 Subtype enzymology, Influenza B virus enzymology, Inhibitory Concentration 50, Microbial Sensitivity Tests methods, Molecular Weight, Neuraminidase antagonists & inhibitors, Plant Extracts chemistry, Streptococcus drug effects, Streptococcus enzymology, Viral Proteins antagonists & inhibitors, Virus Cultivation methods, Antiviral Agents pharmacology, Enzyme Inhibitors pharmacology, Influenza A Virus, H1N1 Subtype drug effects, Influenza B virus drug effects, Plant Extracts pharmacology, Vaccinium macrocarpon chemistry
Abstract

Cranberry juice contains high molecular weight non-dialyzable material (NDM) which was found to inhibit hemagglutination induced by the influenza virus (IV) as well as to neutralize the cytotoxicity of IV in cell cultures. Because influenza virus surface glycoproteins hemagglutinin (HA) and neuraminidase (NA) are involved in viral replication and in the infectious process, we sought in the present study to examine the effect of NDM on neuraminidases which are the target of most anti-influenza drugs today. NDM inhibited the NA enzymatic activity of influenza A and B strains as well as that of Streptococcus pneumoniae. This finding is of importance considering the emergence of influenza isolates resistant to antiviral drugs, reaching 90 % in some places. The anti-NA activity of NDM, evaluated by the MUNANA method and expressed as the concentration required for 50 % inhibition (IC₅₀), was most potent against N1 (IC₅₀, 192 µg/mL), less active against BN and N2 (IC₅₀, 509 µg/mL and 1128 µg/mL, respectively), and moderately active against Streptococcus pneumoniae NA (IC₅₀, 594 µg/mL). The in vitro findings of the present study suggest that cranberry constituents may have a therapeutic potential against both A and B influenza virus infections and might also interfere with the development of secondary bacterial complications., (Georg Thieme Verlag KG Stuttgart · New York.)

Published
2012
Full Text
View/download PDF

Catalog

Books, media, physical & digital resources
See catalog results