Resource type
Date created
2009
Authors/Contributors
Author: Brumme, Zabrina L.
Author: John, Mina
Author: Mallal, Simon
Author: Carlson, Jonathan
Author: Chan, Dennison
Author: Brockman, Mark
Author: Swenson, Luke C.
Author: Tao, Iris
Author: Szeto, Sharon
Author: Rosato, Pamela
Author: Sela, Jennifer
Author: Kadie, Carl M.
Author: Brander, Christian
Author: Haas, David
Author: Riddler, Sharon
Author: Haubrich, Richard
Author: Walker, Bruce
Author: Harrigan, Richard
Author: Heckerman, David
Author: Mallal, Simon
Abstract
BackgroundDespite 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 FindingsHLA-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/SignificanceThe 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.
Document
Published as
Brumme ZL, John M, Carlson JM, Brumme CJ, Chan D, et al. (2009) HLA-Associated Immune Escape Pathways in HIV-1 Subtype B Gag, Pol and Nef Proteins. PLoS ONE 4(8): e6687. doi:10.1371/journal.pone.0006687
Publication details
Publication title
PLoS ONE
Document title
HLA-Associated Immune Escape Pathways in HIV-1 Subtype B Gag, Pol and Nef Proteins
Date
2009
Volume
4
Issue
8
Publisher DOI
10.1371/journal.pone.0006687
Copyright statement
Copyright is held by the author(s).
Scholarly level
Peer reviewed?
Yes
Funder
Language
English
Member of collection
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