Protective HLA alleles are associated with reduced LPS levels in acute HIV infection with implications for immune activation and pathogenesis.
Daniel T ClaiborneEileen P ScullyChristine D PalmerJessica L PrinceGladys N MachariaJakub KopycinskiClive M MicheloHoward W WienerRachel ParkerKrystelle Nganou-MakamdopDaniel DouekMarcus AltfeldJill GilmourMatt A PriceJianming TangWilliam KilembeSusan A AllenEric HunterPublished in: PLoS pathogens (2019)
Despite extensive research on the mechanisms of HLA-mediated immune control of HIV-1 pathogenesis, it is clear that much remains to be discovered, as exemplified by protective HLA alleles like HLA-B*81 which are associated with profound protection from CD4+ T cell decline without robust control of early plasma viremia. Here, we report on additional HLA class I (B*1401, B*57, B*5801, as well as B*81), and HLA class II (DQB1*02 and DRB1*15) alleles that display discordant virological and immunological phenotypes in a Zambian early infection cohort. HLA class I alleles of this nature were also associated with enhanced immune responses to conserved epitopes in Gag. Furthermore, these HLA class I alleles were associated with reduced levels of lipopolysaccharide (LPS) in the plasma during acute infection. Elevated LPS levels measured early in infection predicted accelerated CD4+ T cell decline, as well as immune activation and exhaustion. Taken together, these data suggest novel mechanisms for HLA-mediated immune control of HIV-1 pathogenesis that do not necessarily involve significant control of early viremia and point to microbial translocation as a direct driver of HIV-1 pathogenesis rather than simply a consequence.
Keyphrases
- antiretroviral therapy
- hiv infected
- inflammatory response
- hiv positive
- human immunodeficiency virus
- immune response
- hepatitis c virus
- hiv aids
- liver failure
- hiv testing
- anti inflammatory
- hiv infected patients
- respiratory failure
- machine learning
- transcription factor
- autism spectrum disorder
- drug induced
- microbial community
- acute respiratory distress syndrome
- hepatitis b virus
- artificial intelligence
- intellectual disability