HLA-Associated Immune Escape Pathways in HIV-1 Subtype B Gag, Pol and Nef Proteins

BACKGROUND: Despite the extensive genetic diversity of HIV-1, viral evolution in response to immune selective pressures follows broadly predictable mutational patterns. Sites and pathways of Human Leukocyte-Antigen (HLA)-associated polymorphisms in HIV-1 have been identified through the analysis of...

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Autores principales: Brumme, Zabrina L., John, Mina, Carlson, Jonathan M., Brumme, Chanson J., Chan, Dennison, Brockman, Mark A., Swenson, Luke C., Tao, Iris, Szeto, Sharon, Rosato, Pamela, Sela, Jennifer, Kadie, Carl M., Frahm, Nicole, Brander, Christian, Haas, David W., Riddler, Sharon A., Haubrich, Richard, Walker, Bruce D., Harrigan, P. Richard, Heckerman, David, Mallal, Simon
Formato: Texto
Lenguaje:English
Publicado: Public Library of Science 2009
Materias:
Research Article
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC2723923/
https://www.ncbi.nlm.nih.gov/pubmed/19690614
http://dx.doi.org/10.1371/journal.pone.0006687
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author Brumme, Zabrina L.
John, Mina
Carlson, Jonathan M.
Brumme, Chanson J.
Chan, Dennison
Brockman, Mark A.
Swenson, Luke C.
Tao, Iris
Szeto, Sharon
Rosato, Pamela
Sela, Jennifer
Kadie, Carl M.
Frahm, Nicole
Brander, Christian
Haas, David W.
Riddler, Sharon A.
Haubrich, Richard
Walker, Bruce D.
Harrigan, P. Richard
Heckerman, David
Mallal, Simon
author_facet Brumme, Zabrina L.
John, Mina
Carlson, Jonathan M.
Brumme, Chanson J.
Chan, Dennison
Brockman, Mark A.
Swenson, Luke C.
Tao, Iris
Szeto, Sharon
Rosato, Pamela
Sela, Jennifer
Kadie, Carl M.
Frahm, Nicole
Brander, Christian
Haas, David W.
Riddler, Sharon A.
Haubrich, Richard
Walker, Bruce D.
Harrigan, P. Richard
Heckerman, David
Mallal, Simon
author_sort Brumme, Zabrina L.
collection PubMed
description BACKGROUND: Despite the extensive genetic diversity of HIV-1, viral evolution in response to immune selective pressures follows broadly predictable mutational patterns. Sites and pathways of Human Leukocyte-Antigen (HLA)-associated polymorphisms in HIV-1 have been identified through the analysis of population-level data, but the full extent of immune escape pathways remains incompletely characterized. Here, in the largest analysis of HIV-1 subtype B sequences undertaken to date, we identify HLA-associated polymorphisms in the three HIV-1 proteins most commonly considered in cellular-based vaccine strategies. Results are organized into protein-wide escape maps illustrating the sites and pathways of HLA-driven viral evolution. METHODOLOGY/PRINCIPAL FINDINGS: HLA-associated polymorphisms were identified in HIV-1 Gag, Pol and Nef in a multicenter cohort of >1500 chronically subtype-B infected, treatment-naïve individuals from established cohorts in Canada, the USA and Western Australia. At q≤0.05, 282 codons commonly mutating under HLA-associated immune pressures were identified in these three proteins. The greatest density of associations was observed in Nef (where close to 40% of codons exhibited a significant HLA association), followed by Gag then Pol (where ∼15–20% of codons exhibited HLA associations), confirming the extensive impact of immune selection on HIV evolution and diversity. Analysis of HIV codon covariation patterns identified over 2000 codon-codon interactions at q≤0.05, illustrating the dense and complex networks of linked escape and secondary/compensatory mutations. CONCLUSIONS/SIGNIFICANCE: The immune escape maps and associated data are intended to serve as a user-friendly guide to the locations of common escape mutations and covarying codons in HIV-1 subtype B, and as a resource facilitating the systematic identification and classification of immune escape mutations. These resources should facilitate research in HIV epitope discovery and host-pathogen co-evolution, and are relevant to the continued search for an effective CTL-based AIDS vaccine.
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spelling pubmed-27239232009-08-19 HLA-Associated Immune Escape Pathways in HIV-1 Subtype B Gag, Pol and Nef Proteins Brumme, Zabrina L. John, Mina Carlson, Jonathan M. Brumme, Chanson J. Chan, Dennison Brockman, Mark A. Swenson, Luke C. Tao, Iris Szeto, Sharon Rosato, Pamela Sela, Jennifer Kadie, Carl M. Frahm, Nicole Brander, Christian Haas, David W. Riddler, Sharon A. Haubrich, Richard Walker, Bruce D. Harrigan, P. Richard Heckerman, David Mallal, Simon PLoS One Research Article BACKGROUND: Despite the extensive genetic diversity of HIV-1, viral evolution in response to immune selective pressures follows broadly predictable mutational patterns. Sites and pathways of Human Leukocyte-Antigen (HLA)-associated polymorphisms in HIV-1 have been identified through the analysis of population-level data, but the full extent of immune escape pathways remains incompletely characterized. Here, in the largest analysis of HIV-1 subtype B sequences undertaken to date, we identify HLA-associated polymorphisms in the three HIV-1 proteins most commonly considered in cellular-based vaccine strategies. Results are organized into protein-wide escape maps illustrating the sites and pathways of HLA-driven viral evolution. METHODOLOGY/PRINCIPAL FINDINGS: HLA-associated polymorphisms were identified in HIV-1 Gag, Pol and Nef in a multicenter cohort of >1500 chronically subtype-B infected, treatment-naïve individuals from established cohorts in Canada, the USA and Western Australia. At q≤0.05, 282 codons commonly mutating under HLA-associated immune pressures were identified in these three proteins. The greatest density of associations was observed in Nef (where close to 40% of codons exhibited a significant HLA association), followed by Gag then Pol (where ∼15–20% of codons exhibited HLA associations), confirming the extensive impact of immune selection on HIV evolution and diversity. Analysis of HIV codon covariation patterns identified over 2000 codon-codon interactions at q≤0.05, illustrating the dense and complex networks of linked escape and secondary/compensatory mutations. CONCLUSIONS/SIGNIFICANCE: The immune escape maps and associated data are intended to serve as a user-friendly guide to the locations of common escape mutations and covarying codons in HIV-1 subtype B, and as a resource facilitating the systematic identification and classification of immune escape mutations. These resources should facilitate research in HIV epitope discovery and host-pathogen co-evolution, and are relevant to the continued search for an effective CTL-based AIDS vaccine. Public Library of Science 2009-08-19 /pmc/articles/PMC2723923/ /pubmed/19690614 http://dx.doi.org/10.1371/journal.pone.0006687 Text en Brumme et al. http://creativecommons.org/licenses/by/4.0/ This is an open-access article distributed under the terms of the Creative Commons Attribution License, which permits unrestricted use, distribution, and reproduction in any medium, provided the original author and source are properly credited.
spellingShingle Research Article
Brumme, Zabrina L.
John, Mina
Carlson, Jonathan M.
Brumme, Chanson J.
Chan, Dennison
Brockman, Mark A.
Swenson, Luke C.
Tao, Iris
Szeto, Sharon
Rosato, Pamela
Sela, Jennifer
Kadie, Carl M.
Frahm, Nicole
Brander, Christian
Haas, David W.
Riddler, Sharon A.
Haubrich, Richard
Walker, Bruce D.
Harrigan, P. Richard
Heckerman, David
Mallal, Simon
HLA-Associated Immune Escape Pathways in HIV-1 Subtype B Gag, Pol and Nef Proteins
title HLA-Associated Immune Escape Pathways in HIV-1 Subtype B Gag, Pol and Nef Proteins
title_full HLA-Associated Immune Escape Pathways in HIV-1 Subtype B Gag, Pol and Nef Proteins
title_fullStr HLA-Associated Immune Escape Pathways in HIV-1 Subtype B Gag, Pol and Nef Proteins
title_full_unstemmed HLA-Associated Immune Escape Pathways in HIV-1 Subtype B Gag, Pol and Nef Proteins
title_short HLA-Associated Immune Escape Pathways in HIV-1 Subtype B Gag, Pol and Nef Proteins
title_sort hla-associated immune escape pathways in hiv-1 subtype b gag, pol and nef proteins
topic Research Article
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC2723923/
https://www.ncbi.nlm.nih.gov/pubmed/19690614
http://dx.doi.org/10.1371/journal.pone.0006687
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