Dual Role of Glycosylation in Resistance to CD4-binding Site Broadly Neutralizing Antibodies

Broadly neutralizing antibodies (bNAbs) provide a useful tool for HIV cure strategies because of their ability to target conserved regions on the envelope (Env) protein in the context of both virions and infected cells. One of the most well studied bNAbs is the CD4 binding site (CD4bs) antibody, VRC01 and others in its class. A major obstacle to effective cure strategies with bNAbs is viral immune escape. A deeper understanding of escape pathways from VRC01-class antibodies in genetically diverse samples is needed. Using an in vitro viral escape assay where infected CD4 ⁺ T cells were cultured in the presence of increasing VRC01 concentrations, complete resistance to VRC01 was detected in Env 246.F3 by day 42. We determined that resistance was due to a mutation at position N276 that resulted in elimination of the glycan-attachment site. As the loss of a glycan at this site is known to increase virus sensitivity to CD4bs antibodies, we explored this finding further. Specifically, we introduced N276D mutation into the 12-virus global Env panel and measured neutralization susceptibility to a panel of CD4bs bNAbs. This N276D mutation increased resistance or sensitivity depending on the Env and bNAb in question, emphasizing a dual role of glycan N276 in VRC01-class bNAb neutralization. The role of this glycan in escape was demonstrated to be dependent on the context of the Env, the bNAb and the glycosylation complexity of the virus due to producer cells. These findings underscore the complexity of glycosylation in genetically diverse HIV escape from antibodies.