Antibodies are known to enhance in vitro infection by human immunodeficiency virus (HIV) and simian immunodeficiency virus (SIV). We measured the ability of antibodies induced by ALVAC-SIV/gp120 vaccination, given with alum or MF59 adjuvant, to capture infectious SIVmac251 and determined the association between capture and infection outcomes following low-dose, repeated rectal challenge of rhesus macaques. We found that capture correlated with the number of transmitted/founder (T/F) variants that established infection, such that animals whose plasma captured more virus were infected with a higher number of T/F strains. Capture also correlated with results of Env binding assays, indicating that greater immunogenicity resulted in greater capture. Although vaccination elicited negligible neutralizing activity against the challenge strain (50% inhibitory dilutions of >1/80 in all cases), animals with low capture and whose plasma, at a fixed dilution, inhibited a higher fraction of virus were infected at a lower rate than animals with high capture and low neutralization (P = 0.039); only animals with the low capture/high neutralization response profile were protected compared with unvaccinated control animals (P = 0.026). In a sieve analysis, high capture and low capture were distinguishable on the basis of polymorphisms in the V1 loop of Env at amino acids 144 and 145. Our results indicate that vaccine-induced antibody that binds to and captures infectious virus but does not inhibit its infectivity may enhance the likelihood of infection following rectal challenge with SIVmac251. Higher immunogenicity resulting in better antibody capture but similar anti-infectivity may not improve vaccine efficacy.
Importance: Vaccines generally prevent viral infections by eliciting antibodies that inhibit virus infectivity. However, antibodies, including those induced by vaccination, have the potential to enhance, rather than prevent infection. We measured the ability of vaccine-induced antibodies to capture infectious simian immunodeficiency virus (SIV) and explored the relationship between virus capture and infection outcomes. We found that capture correlated with the number of SIV variants that established infection, such that animals whose plasma captured more virus were infected with a higher number of unique strains. In addition, animals whose sera had high capture but weak anti-infectivity activity were infected at a higher rate than were animals with low capture and stronger anti-infectivity activity. These results suggest that vaccines that induce antibodies that bind to and capture infectious virus but do not inhibit virus infectivity will not be effective in preventing infection.
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