Viral escape from neutralizing antibodies in early subtype A HIV-1 infection drives an increase in autologous neutralization breadth

Antibodies that neutralize (nAbs) genetically diverse HIV-1 strains have been recovered from a subset of HIV-1 infected subjects during chronic infection. Exact mechanisms that expand the otherwise narrow neutralization capacity observed during early infection are, however, currently undefined. Here...

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Published inPLoS pathogens Vol. 9; no. 2; p. e1003173
Main Authors Murphy, Megan K, Yue, Ling, Pan, Ruimin, Boliar, Saikat, Sethi, Anurag, Tian, Jianhui, Pfafferot, Katja, Karita, Etienne, Allen, Susan A, Cormier, Emmanuel, Goepfert, Paul A, Borrow, Persephone, Robinson, James E, Gnanakaran, S, Hunter, Eric, Kong, Xiang-Peng, Derdeyn, Cynthia A
Format Journal Article
LanguageEnglish
Published United States Public Library of Science 01.02.2013
Public Library of Science (PLoS)
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Summary:Antibodies that neutralize (nAbs) genetically diverse HIV-1 strains have been recovered from a subset of HIV-1 infected subjects during chronic infection. Exact mechanisms that expand the otherwise narrow neutralization capacity observed during early infection are, however, currently undefined. Here we characterized the earliest nAb responses in a subtype A HIV-1 infected Rwandan seroconverter who later developed moderate cross-clade nAb breadth, using (i) envelope (Env) glycoproteins from the transmitted/founder virus and twenty longitudinal nAb escape variants, (ii) longitudinal autologous plasma, and (iii) autologous monoclonal antibodies (mAbs). Initially, nAbs targeted a single region of gp120, which flanked the V3 domain and involved the alpha2 helix. A single amino acid change at one of three positions in this region conferred early escape. One immunoglobulin heavy chain and two light chains recovered from autologous B cells comprised two mAbs, 19.3H-L1 and 19.3H-L3, which neutralized the founder Env along with one or three of the early escape variants carrying these mutations, respectively. Neither mAb neutralized later nAb escape or heterologous Envs. Crystal structures of the antigen-binding fragments (Fabs) revealed flat epitope contact surfaces, where minimal light chain mutation in 19.3H-L3 allowed for additional antigenic interactions. Resistance to mAb neutralization arose in later Envs through alteration of two glycans spatially adjacent to the initial escape signatures. The cross-neutralizing nAbs that ultimately developed failed to target any of the defined V3-proximal changes generated during the first year of infection in this subject. Our data demonstrate that this subject's first recognized nAb epitope elicited strain-specific mAbs, which incrementally acquired autologous breadth, and directed later B cell responses to target distinct portions of Env. This immune re-focusing could have triggered the evolution of cross-clade antibodies and suggests that exposure to a specific sequence of immune escape variants might promote broad humoral responses during HIV-1 infection.
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The authors have declared that no competing interests exist.
Conceived and designed the experiments: MKM CAD XPK PB PAG LY EH JER. Performed the experiments: MKM RP SB LY KP. Analyzed the data: MKM CAD XPK AS JT SG PB PAG EH. Contributed reagents/materials/analysis tools: JER EC SAA EK XPK RP. Wrote the manuscript: MKM CAD XPK JER SG. Contributed to participant recruitment, follow-up, and field site management: SAA EK EC.
ISSN:1553-7374
1553-7366
1553-7374
DOI:10.1371/journal.ppat.1003173