Mapping Polyclonal HIV-1 Antibody Responses via Next-Generation Neutralization Fingerprinting

Computational neutralization fingerprinting, NFP, is an efficient and accurate method for predicting the epitope specificities of polyclonal antibody responses to HIV-1 infection. Here, we present next-generation NFP algorithms that substantially improve prediction accuracy for individual donors and...

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Autores principales: Doria-Rose, Nicole A., Altae-Tran, Han R., Roark, Ryan S., Schmidt, Stephen D., Sutton, Matthew S., Louder, Mark K., Chuang, Gwo-Yu, Bailer, Robert T., Cortez, Valerie, Kong, Rui, McKee, Krisha, O’Dell, Sijy, Wang, Felicia, Abdool Karim, Salim S., Binley, James M., Connors, Mark, Haynes, Barton F., Martin, Malcolm A., Montefiori, David C., Morris, Lynn, Overbaugh, Julie, Kwong, Peter D., Mascola, John R., Georgiev, Ivelin S.
Formato: Online Artículo Texto
Lenguaje:English
Publicado: Public Library of Science 2017
Materias:
Research Article
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC5241146/
https://www.ncbi.nlm.nih.gov/pubmed/28052137
http://dx.doi.org/10.1371/journal.ppat.1006148
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author Doria-Rose, Nicole A.
Altae-Tran, Han R.
Roark, Ryan S.
Schmidt, Stephen D.
Sutton, Matthew S.
Louder, Mark K.
Chuang, Gwo-Yu
Bailer, Robert T.
Cortez, Valerie
Kong, Rui
McKee, Krisha
O’Dell, Sijy
Wang, Felicia
Abdool Karim, Salim S.
Binley, James M.
Connors, Mark
Haynes, Barton F.
Martin, Malcolm A.
Montefiori, David C.
Morris, Lynn
Overbaugh, Julie
Kwong, Peter D.
Mascola, John R.
Georgiev, Ivelin S.
author_facet Doria-Rose, Nicole A.
Altae-Tran, Han R.
Roark, Ryan S.
Schmidt, Stephen D.
Sutton, Matthew S.
Louder, Mark K.
Chuang, Gwo-Yu
Bailer, Robert T.
Cortez, Valerie
Kong, Rui
McKee, Krisha
O’Dell, Sijy
Wang, Felicia
Abdool Karim, Salim S.
Binley, James M.
Connors, Mark
Haynes, Barton F.
Martin, Malcolm A.
Montefiori, David C.
Morris, Lynn
Overbaugh, Julie
Kwong, Peter D.
Mascola, John R.
Georgiev, Ivelin S.
author_sort Doria-Rose, Nicole A.
collection PubMed
description Computational neutralization fingerprinting, NFP, is an efficient and accurate method for predicting the epitope specificities of polyclonal antibody responses to HIV-1 infection. Here, we present next-generation NFP algorithms that substantially improve prediction accuracy for individual donors and enable serologic analysis for entire cohorts. Specifically, we developed algorithms for: (a) selection of optimized virus neutralization panels for NFP analysis, (b) estimation of NFP prediction confidence for each serum sample, and (c) identification of sera with potentially novel epitope specificities. At the individual donor level, the next-generation NFP algorithms particularly improved the ability to detect multiple epitope specificities in a sample, as confirmed both for computationally simulated polyclonal sera and for samples from HIV-infected donors. Specifically, the next-generation NFP algorithms detected multiple specificities in twice as many samples of simulated sera. Further, unlike the first-generation NFP, the new algorithms were able to detect both of the previously confirmed antibody specificities, VRC01-like and PG9-like, in donor CHAVI 0219. At the cohort level, analysis of ~150 broadly neutralizing HIV-infected donor samples suggested a potential connection between clade of infection and types of elicited epitope specificities. Most notably, while 10E8-like antibodies were observed in infections from different clades, an enrichment of such antibodies was predicted for clade B samples. Ultimately, such large-scale analyses of antibody responses to HIV-1 infection can help guide the design of epitope-specific vaccines that are tailored to take into account the prevalence of infecting clades within a specific geographic region. Overall, the next-generation NFP technology will be an important tool for the analysis of broadly neutralizing polyclonal antibody responses against HIV-1.
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spelling pubmed-52411462017-02-17 Mapping Polyclonal HIV-1 Antibody Responses via Next-Generation Neutralization Fingerprinting Doria-Rose, Nicole A. Altae-Tran, Han R. Roark, Ryan S. Schmidt, Stephen D. Sutton, Matthew S. Louder, Mark K. Chuang, Gwo-Yu Bailer, Robert T. Cortez, Valerie Kong, Rui McKee, Krisha O’Dell, Sijy Wang, Felicia Abdool Karim, Salim S. Binley, James M. Connors, Mark Haynes, Barton F. Martin, Malcolm A. Montefiori, David C. Morris, Lynn Overbaugh, Julie Kwong, Peter D. Mascola, John R. Georgiev, Ivelin S. PLoS Pathog Research Article Computational neutralization fingerprinting, NFP, is an efficient and accurate method for predicting the epitope specificities of polyclonal antibody responses to HIV-1 infection. Here, we present next-generation NFP algorithms that substantially improve prediction accuracy for individual donors and enable serologic analysis for entire cohorts. Specifically, we developed algorithms for: (a) selection of optimized virus neutralization panels for NFP analysis, (b) estimation of NFP prediction confidence for each serum sample, and (c) identification of sera with potentially novel epitope specificities. At the individual donor level, the next-generation NFP algorithms particularly improved the ability to detect multiple epitope specificities in a sample, as confirmed both for computationally simulated polyclonal sera and for samples from HIV-infected donors. Specifically, the next-generation NFP algorithms detected multiple specificities in twice as many samples of simulated sera. Further, unlike the first-generation NFP, the new algorithms were able to detect both of the previously confirmed antibody specificities, VRC01-like and PG9-like, in donor CHAVI 0219. At the cohort level, analysis of ~150 broadly neutralizing HIV-infected donor samples suggested a potential connection between clade of infection and types of elicited epitope specificities. Most notably, while 10E8-like antibodies were observed in infections from different clades, an enrichment of such antibodies was predicted for clade B samples. Ultimately, such large-scale analyses of antibody responses to HIV-1 infection can help guide the design of epitope-specific vaccines that are tailored to take into account the prevalence of infecting clades within a specific geographic region. Overall, the next-generation NFP technology will be an important tool for the analysis of broadly neutralizing polyclonal antibody responses against HIV-1. Public Library of Science 2017-01-04 /pmc/articles/PMC5241146/ /pubmed/28052137 http://dx.doi.org/10.1371/journal.ppat.1006148 Text en https://creativecommons.org/publicdomain/zero/1.0/ This is an open access article, free of all copyright, and may be freely reproduced, distributed, transmitted, modified, built upon, or otherwise used by anyone for any lawful purpose. The work is made available under the Creative Commons CC0 (https://creativecommons.org/publicdomain/zero/1.0/) public domain dedication.
spellingShingle Research Article
Doria-Rose, Nicole A.
Altae-Tran, Han R.
Roark, Ryan S.
Schmidt, Stephen D.
Sutton, Matthew S.
Louder, Mark K.
Chuang, Gwo-Yu
Bailer, Robert T.
Cortez, Valerie
Kong, Rui
McKee, Krisha
O’Dell, Sijy
Wang, Felicia
Abdool Karim, Salim S.
Binley, James M.
Connors, Mark
Haynes, Barton F.
Martin, Malcolm A.
Montefiori, David C.
Morris, Lynn
Overbaugh, Julie
Kwong, Peter D.
Mascola, John R.
Georgiev, Ivelin S.
Mapping Polyclonal HIV-1 Antibody Responses via Next-Generation Neutralization Fingerprinting
title Mapping Polyclonal HIV-1 Antibody Responses via Next-Generation Neutralization Fingerprinting
title_full Mapping Polyclonal HIV-1 Antibody Responses via Next-Generation Neutralization Fingerprinting
title_fullStr Mapping Polyclonal HIV-1 Antibody Responses via Next-Generation Neutralization Fingerprinting
title_full_unstemmed Mapping Polyclonal HIV-1 Antibody Responses via Next-Generation Neutralization Fingerprinting
title_short Mapping Polyclonal HIV-1 Antibody Responses via Next-Generation Neutralization Fingerprinting
title_sort mapping polyclonal hiv-1 antibody responses via next-generation neutralization fingerprinting
topic Research Article
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC5241146/
https://www.ncbi.nlm.nih.gov/pubmed/28052137
http://dx.doi.org/10.1371/journal.ppat.1006148
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