A seven-amino acid epitope GPGRAFY at the tip of the V3 loop in HIV-1 gp120 is the principal neutralizing epitope, and a subset of anti-V3 antibodies specific for this epitope shows a broad range of neu-tralizing acti...A seven-amino acid epitope GPGRAFY at the tip of the V3 loop in HIV-1 gp120 is the principal neutralizing epitope, and a subset of anti-V3 antibodies specific for this epitope shows a broad range of neu-tralizing activity. GPGRAFY-epitope-specific neutralizing antibodies were produced using predefined GPGRAFY-epitope-specific peptides instead of a natural or recombinant gp120 bearing this epitope. All six monoclonal antibodies (mAbs) could recognize the GPGRAFY-epitope on peptides and two of the antibod-ies, 9D8 and 2D7, could recognize recombinant gp120 in enzymelinked immunosorkentassy (ELISA) as-says. In the flow cytometry analysis, the mAbs 9D8 and 2D7 could bind to HIV-Env+ CHO-WT cells and the specific bindings could be inhibited by the GPGRAFY-epitope peptide, which suggests that these two mAbs could recognize the native envelope protein gp120 expressed on the cell membrane. However, in syncytium assays, none of the mAbs was capable of inhibiting HIV-Env-mediated cell membrane fusion. The different activities for recognizing native HIV-1 gp120 might be associated with different antibody affinities against the epitopes. The development of conformational mimics of the neutralization epitope in the gp120 V3 loop could elicit neutralizing mAbs with high affinity.展开更多
基金the National Natural Science Foundation of China (No.30270286) and the Fund for Doctoral Station of the Ministry of Education China (No. 20010003054)
文摘A seven-amino acid epitope GPGRAFY at the tip of the V3 loop in HIV-1 gp120 is the principal neutralizing epitope, and a subset of anti-V3 antibodies specific for this epitope shows a broad range of neu-tralizing activity. GPGRAFY-epitope-specific neutralizing antibodies were produced using predefined GPGRAFY-epitope-specific peptides instead of a natural or recombinant gp120 bearing this epitope. All six monoclonal antibodies (mAbs) could recognize the GPGRAFY-epitope on peptides and two of the antibod-ies, 9D8 and 2D7, could recognize recombinant gp120 in enzymelinked immunosorkentassy (ELISA) as-says. In the flow cytometry analysis, the mAbs 9D8 and 2D7 could bind to HIV-Env+ CHO-WT cells and the specific bindings could be inhibited by the GPGRAFY-epitope peptide, which suggests that these two mAbs could recognize the native envelope protein gp120 expressed on the cell membrane. However, in syncytium assays, none of the mAbs was capable of inhibiting HIV-Env-mediated cell membrane fusion. The different activities for recognizing native HIV-1 gp120 might be associated with different antibody affinities against the epitopes. The development of conformational mimics of the neutralization epitope in the gp120 V3 loop could elicit neutralizing mAbs with high affinity.
