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Genotypic and Functional Impact of HIV-1 Adaptation to Its Host Population during the North American Epidemic
- Cotton, Laura A;
- Kuang, Xiaomei T;
- Le, Anh Q;
- Carlson, Jonathan M;
- Chan, Benjamin;
- Chopera, Denis R;
- Brumme, Chanson J;
- Markle, Tristan J;
- Martin, Eric;
- Shahid, Aniqa;
- Anmole, Gursev;
- Mwimanzi, Philip;
- Nassab, Pauline;
- Penney, Kali A;
- Rahman, Manal A;
- Milloy, M-J;
- Schechter, Martin T;
- Markowitz, Martin;
- Carrington, Mary;
- Walker, Bruce D;
- Wagner, Theresa;
- Buchbinder, Susan;
- Fuchs, Jonathan;
- Koblin, Beryl;
- Mayer, Kenneth H;
- Harrigan, P Richard;
- Brockman, Mark A;
- Poon, Art FY;
- Brumme, Zabrina L
- Editor(s): Pennings, Pleuni S
- et al.
Published Web Location
https://doi.org/10.1371/journal.pgen.1004295Abstract
HLA-restricted immune escape mutations that persist following HIV transmission could gradually spread through the viral population, thereby compromising host antiviral immunity as the epidemic progresses. To assess the extent and phenotypic impact of this phenomenon in an immunogenetically diverse population, we genotypically and functionally compared linked HLA and HIV (Gag/Nef) sequences from 358 historic (1979-1989) and 382 modern (2000-2011) specimens from four key cities in the North American epidemic (New York, Boston, San Francisco, Vancouver). Inferred HIV phylogenies were star-like, with approximately two-fold greater mean pairwise distances in modern versus historic sequences. The reconstructed epidemic ancestral (founder) HIV sequence was essentially identical to the North American subtype B consensus. Consistent with gradual diversification of a "consensus-like" founder virus, the median "background" frequencies of individual HLA-associated polymorphisms in HIV (in individuals lacking the restricting HLA[s]) were ∼ 2-fold higher in modern versus historic HIV sequences, though these remained notably low overall (e.g. in Gag, medians were 3.7% in the 2000s versus 2.0% in the 1980s). HIV polymorphisms exhibiting the greatest relative spread were those restricted by protective HLAs. Despite these increases, when HIV sequences were analyzed as a whole, their total average burden of polymorphisms that were "pre-adapted" to the average host HLA profile was only ∼ 2% greater in modern versus historic eras. Furthermore, HLA-associated polymorphisms identified in historic HIV sequences were consistent with those detectable today, with none identified that could explain the few HIV codons where the inferred epidemic ancestor differed from the modern consensus. Results are therefore consistent with slow HIV adaptation to HLA, but at a rate unlikely to yield imminent negative implications for cellular immunity, at least in North America. Intriguingly, temporal changes in protein activity of patient-derived Nef (though not Gag) sequences were observed, suggesting functional implications of population-level HIV evolution on certain viral proteins.
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