We have investigated whether peptides representing the HIV-1 principal neutralization domain (V3) can be used as antigens in antibody-binding assays to predict the genotypes of the subjects' virus. Serum samples collected from HIV-1-infected subjects from the four WHO-sponsored vaccine evaluation sites (Uganda, Rwanda, Thailand, and Brazil) were characterized by antibody binding to a panel of synthetic V3 peptides that were derived from the consensus sequences of the V3 region of the HIV-1 subgroups according to the env phylogenetic analysis (A-E). An indirect V3 peptide-binding assay was used for primary screening, and a V3 peptide antigen-limiting ELISA was then used as a secondary assay to discriminate cross-reactivity if the screening assay was equivocal. In general, V3 peptide serology could predict HIV-1 genotypes. In sera for which the genotype of the virus was known, peptide assays could predict the correct genotype in approximately 90% of cases for genotypes A, B, C, and E; Ugandan sera of genotype D were more broadly reactive. There was considerable serological cross-reactivity between some HIV-1 genotypes, in particular between A and C, and, to a lesser extent, B and D subtypes. Owing to polymorphism at the crown of the V3 loop, an additional B peptide (B') was required to type Brazilian B genotype sera. These simple assays may help facilitate the determination and distribution of HIV-1 genotypes circulating in populations.
The antibody recognition of the major neutralization epitopes of human immunodeficiency virus type 1 (HIV-1) in 829 HIV-1-seropositive subjects from North America (106), Europe (241), Africa (342), and Asia (100) was investigated. Peptides derived from diverse published V3 loop sequences were used as antigen, and serum reactivity was detected by sensitive ELISAs. Antibody binding to peptides derived from the V3 loop sequence of HIV-1 isolates varies considerably depending on the geographic origin of the antibody and is associated with neutralization titer against homologous isolates. Serotype reactivity to peptides may be a simple and rapid approach to investigation of HIV-1 env diversity worldwide and may assist the choice of immunogen for development of future AIDS vaccines.
Serologic V3 loop peptide-binding assays have been used to predict divergent human immunodeficiency virus type 1 (HIV-1) strains from the Commonwealth of Independent States (former Soviet Union) that have been subsequently confirmed by sequencing of the V3 region. Initial screening was done by MN V3 peptide binding; 12 parenterally infected HIV-1-positive subjects from Elista and Rostov (group 1) with low-titer MN binding and 6 heterosexually infected HIV-1-positive adults from Byelorussia (group 2) with high-titer MN binding were selected. A consensus sequence from the Elista and Rostov areas was generated; a corresponding 14-mer peptide was synthesized and used in an indirect ELISA to screen sera from 392 individuals from diverse geographic areas. Reactivity to the consensus peptide was 82% in subjects from the homologous areas and 11%-38% in other areas. Antibody binding to a panel of synthetic V3 peptides may be used to predict the presence of diverse strains of HIV-1 within virally heterogenous populations.
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