Conformational properties of the third variable loop of HIV-1AD8 envelope glycoprotein in the liganded conditions

Abstract

The conformational dynamics of the HIV-1 envelope glycoprotein gp120 and gp41 (Env) remains poorly understood. Here we examined how the V3 loop conformation is regulated in the liganded state using a panel of recombinant HIV-1NL4-3 clones bearing HIV-1AD8 Env by two experimental approaches, one adopting a monoclonal neutralizing antibody KD-247 (suvizumab) that recognizes the tip of the V3 loop, and the other assessing the function of the V3 loop. A significant positive correlation of the Env-KD-247 binding was detected between the liganded and unliganded conditions. Namely, the mutation D163G located in the V2 loop, which enhances viral susceptibility to KD-247 by 59.4-fold, had little effect on the sCD4-induced increment of the virus-KD-247 binding. By contrast, a virus with the S370N mutation in the C3 region increased the virus-KD-247 binding by 91.4-fold, although it did not influence the KD-247-mediated neutralization. Co-receptor usage and the susceptibility to CCR5 inhibitor Maraviroc were unaffected by D163G and S370N mutations. Collectively, these data suggest that the conformation of the liganded V3-loop of HIV-1AD8 Env is still under regulation of other Env domains aside from the V3 loop, including V2 and C3. Our results give an insight into the structural properties of HIV-1 Env and viral resistance to entry inhibitors by non-V3 loop mutations.