Role for HLA class II molecules in HIV-1 suppression and cellular immunity following antiretroviral treatment
Uma Malhotra, Sarah Holte, Sujay Dutta, M. Michelle Berrey, Elizabeth Delpit, David M. Koelle, Alessandro Sette, Lawrence Corey, M. Juliana McElrath
Uma Malhotra, Sarah Holte, Sujay Dutta, M. Michelle Berrey, Elizabeth Delpit, David M. Koelle, Alessandro Sette, Lawrence Corey, M. Juliana McElrath
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Role for HLA class II molecules in HIV-1 suppression and cellular immunity following antiretroviral treatment

Abstract

HIV-1–infected patients treated early with combination antiretrovirals respond favorably, but not all maintain viral suppression and improved HIV-specific Th function. To understand if genetic factors contribute to this variation, we prospectively evaluated over 18 months 21 early-treated patients stratified by alleles of class II haplotypes. All seven subjects with the DRB1*13-DQB1*06 haplotype, but only 21% of other subjects, maintained virus suppression at every posttreatment measurement. Following HIV-1 p24 antigen stimulation, PBMCs from patients with this haplotype demonstrated higher mean lymphoproliferation and IFN-γ secretion than did cells from patients with other haplotypes. Two DRB1*13-restricted Gag epitope regions were identified, a promiscuous one that bound its putative restriction element with nanomolar affinity, and another that mapped to a highly conserved region. These findings suggest that class II molecules, particularly the DRB1*13 haplotype, have an important impact on virologic and immunologic responses. The advantage of the haplotype may relate to selection of key HIV-1 Th1 epitopes in highly conserved regions with avid binding to class II molecules. Eliciting responses to the promiscuous epitope region may be beneficial in vaccine strategies.

Authors

Uma Malhotra, Sarah Holte, Sujay Dutta, M. Michelle Berrey, Elizabeth Delpit, David M. Koelle, Alessandro Sette, Lawrence Corey, M. Juliana McElrath

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HIV-1 p24–specific CD4+ T-cell clones from subject 1291 map to epitopes ...
HIV-1 p24–specific CD4+ T-cell clones from subject 1291 map to epitopes between aa 251–270 (Gag 26) and aa 291–310 (Gag 30). (a) Clone number 7 proliferates when stimulated with sequential peptides spanning HIV-1 p24 amino acids (aa) 251–270 (TNNPPIPVGEIYKRWIILGL) and aa 261–280 (IYKRWIILGLNKIVRMYSPT), but not with HIV-1 p24 peptide spanning aa 291–310 (EPFRDYVDRFYKTLRAEQAS). Clone number 21 proliferates when stimulated with HIV-1 p24 peptide spanning aa 291–310 (EPFRDYVDRFYKTLRAEQAS), but not with HIV-1 p24 peptides spanning aa 251–270 (TNNPPIPVGEIYKRWIILGL) and aa 261–280 (IYKRWIILGLNKIVRMYSPT). (b) Peptide-specific lymphoproliferation of clones 7 and 21 is inhibited by anti-DR but not anti-DQ and anti-DP Ab. (c) Proliferation of clones 7 and 21 is stimulated with peptide-pulsed autologous (DRB1*1302, 0701), partially mismatched allo-1 (DRB1*0101, 1302), but not allo-2 (DRB1*0408, 0701), and completely mismatched allo-3 (DRB1*04, 08) B-LCL.