HIV-1 integration sites in CD4+ T-cells during primary, chronic, and late presentation of HIV-1 infection

HIV-1 is capable of integrating its genome into that of its host cell. We examined the influence of the activation state of CD4+ T-cells, the effect of antiretroviral therapy (ART), and the clinical stage of HIV-1 infection on HIV-1 integration site features and selection. HIV-1 integration sites were sequenced from longitudinally sampled resting and activated CD4+ T-cells from 12 HIV-1 infected individuals. In total, 589 unique HIV-1 integration sites were analyzed: 147, 391, and 51 during primary, chronic, and late presentation of HIV-1 infection, respectively. As early as during primary HIV-1 infection and independent of the activation state of CD4+ T-cells collected on and off ART, HIV-1 integration sites were preferentially detected in recurrent integration genes (RIGs), genes associated with clonal expansion of latently HIV-1 infected CD4+ T-cells, cancer related genes, and highly expressed genes. The preference for cancer related genes was more pronounced at late stages of HIV-1 infection. Host genomic features of HIV-1 integration site selection remained stable during the course of HIV-1 infection in both resting and activated CD4+ T-cells. In summary, characteristic HIV-1 integration site features are pre-established as early as during primary HIV-1 infection and are found in both resting and activated CD4+ T-cells.