Evaluation of a synthetic vaccine construct as antigen for the detection of HIV-induced humoral responses

Synthetic V3 loop peptides hold numerous benefits for the development of HIV vaccines and in immunodiagnosis; however, their use is limited due to the extensive antigenic variability of this region. The effectiveness of a potential HIV vaccine component, which accounts for V3 loop variability, is evaluated here. A branched peptide construct representing multiple sequences and allowing 1.8 × 1016 possible permutations was developed to mimic circulating HIV-1 subtype C, V3 loops. The construct was found to be immunogenic, able to induce neutralizing antibodies and sensitive to HIV-1 subtype B/C and HIV-2. This alternative antigen format also incorporates conformational epitopes.