Inflammatory Genital Infections Mitigate a Severe Genetic Bottleneck in Heterosexual Transmission of Subtype A and C HIV-1

Abstract

The HIV-1 epidemic in sub-Saharan Africa is driven largely by heterosexual transmission of non-subtype B viruses, of which subtypes C and A are predominant. Previous studies of subtype B and subtype C transmission pairs have suggested that a single variant from the chronically infected partner can establish infection in their newly infected partner. However, in subtype A infected individuals from a sex worker cohort and subtype B individuals from STD clinics, infection was frequently established by multiple variants. This study examined over 1750 single-genome amplified viral sequences derived from epidemiologically linked subtype C and subtype A transmission pairs very early after infection. In 90% (18/20) of the pairs, HIV-1 infection is initiated by a single viral variant that is derived from the quasispecies of the transmitting partner. In addition, the virus initiating infection in individuals who were infected by someone other than their spouse was characterized to determine if genital infections mitigated the severe genetic bottleneck observed in a majority of epidemiologically linked heterosexual HIV-1 transmission events. In nearly 50% (3/7) of individuals infected by someone other than their spouse, multiple genetic variants from a single individual established infection. A statistically significant association was observed between infection by multiple genetic variants and an inflammatory genital infection in the newly infected individual. Thus, in the vast majority of HIV-1 transmission events in cohabiting heterosexual couples, a single genetic variant establishes infection. Nevertheless, this severe genetic bottleneck can be mitigated by the presence of inflammatory genital infections in the at risk partner, suggesting that this restriction on genetic diversity is imposed in large part by the mucosal barrier. Previous studies of HIV transmission have yielded conflicting results regarding the genetic heterogeneity of the virus establishing infection in the newly infected individual. In this study of populations from Zambia and Rwanda that are infected by two distinct viral genetic subtypes, we compared viral sequences that encode the entry-mediating envelope glycoproteins from newly infected individuals (recipients) and their spouses (donors) very early after infection, as well as newly infected individuals infected by someone other than their spouse. In spite of the genetically diverse virus population in the donor, approximately 90% of newly infected individuals were infected by a single viral variant, while the rest were infected by multiple viral variants. The homogeneity of the virus population in the newly infected recipient, as well as the presence, in some cases, of identical virus variants in the donor, allowed us to precisely identify the transmitted variant. We were able to examine the clinical history of each newly infected individual and observed that all individuals infected by multiple variants also showed evidence of inflammatory genital infections. Our results suggest that the genital mucosa provides a natural barrier to infection by multiple genetic variants of HIV-1, but that this barrier can be lowered by inflammatory genital infections.