Amino Acid Changes in the HIV-1 gp41 Membrane Proximal Region Control Virus Neutralization Sensitivity

Most HIV-1 vaccines elicit neutralizing antibodies that are active against highly sensitive (tier-1) viruses or rare cases of vaccine-matched neutralization-resistant (tier-2) viruses, but no vaccine has induced antibodies that can broadly neutralize heterologous tier-2 viruses. In this study, we isolated antibodies from an HIV-1-infected individual that targeted the gp41 membrane-proximal external region (MPER) that may have selected single-residue changes in viral variants in the MPER that resulted in neutralization sensitivity to antibodies targeting distal epitopes on the HIV-1 Env. Similarly, a single change in the MPER in a second virus from another infected-individual also conferred enhanced neutralization sensitivity. These gp41 single-residue changes thus transformed tier-2 viruses into tier-1 viruses that were sensitive to vaccine-elicited tier-1 neutralizing antibodies. These data demonstrate that Env amino acid changes within the MPER bnAb epitope of naturally-selected escape viruses can increase neutralization sensitivity to multiple types of neutralizing antibodies, and underscore the critical importance of the MPER for maintaining the integrity of the tier-2 HIV-1 trimer. •Amino acid changes in the HIV gp41 MPER can regulate neutralization sensitivity of distal epitopes.•MPER antibodies isolated early are resistant to MPER changes that enhance neutralization sensitivity.•HIV gp41 MPER is critical for determining overall HIV envelope conformations. The HIV-1 envelope protein (Env) is the primary target for neutralizing antibodies. Most HIV-1 vaccines elicit neutralizing antibodies that are active against highly neutralization-sensitive (tier-1) or rare vaccine-matched more neutralization-resistant (tier-2) viruses, but no vaccine has induced antibodies that can broadly neutralize heterologous tier-2 viruses. In this study, we identified changes that occurred in two HIV-1-infected individuals in the membrane proximal region of the HIV-1 Env that resulted in neutralization sensitivity to antibodies targeting distal epitopes on the HIV Env. These single-residue changes thus transformed tier-2 viruses into tier-1 viruses, highlighting the importance of MPER residues in maintaining neutralization-resistant virus. [Display omitted]