Association of HLA-C and HCP5 gene regions with the clinical course of HIV-1 infection

Abstract

Recently, a genome-wide association analysis revealed single-nucleotide polymorphisms (SNPs) in the gene regions of HLA-C and HCP5 to be associated with viral load at set point and SNPs in the RNF39/ZNRD1 gene region to be associated with HIV-1 disease course. We studied whether the association of these SNPs with viral load at set point could be replicated and whether these SNPs also associated with other clinical outcomes of HIV-1 infection in 335 HIV-1-infected homosexual participants from the Amsterdam Cohort Studies on HIV infection and AIDS (ACS). Significant associations between the minor allele variants of SNPs HLA-C rs9264942 and HCP5 rs2395029 and a lower viral load at set point could be replicated in the ACS. Moreover, these SNPs were significantly associated with delayed progression to AIDS, AIDS-related death, and a CD4 T-cell count below 400 cells/mul. Both minor allele variants were independent predictors of disease progression, also when a CCR5 Delta32 heterozygous genotype was included in the analysis. However, predictive value was not independent from viral load and CD4 T-cell count at set point. The SNPs in the RNF39/ZNRD1 gene region were associated with set point CD4 T-cell count but not with disease course in the ACS. The minor allele variants of SNPs in the HLA-C and HCP5 gene regions are also in the ACS associated with a lower viral load at set point and additionally with delayed HIV-1 disease progression. The association of these SNPs with the relatively early course of infection may help unravel their mode of action.