Objective: To determine if low level, persistent, HIV-1 replication within specific immune cells contributes to HIV-1-specific immune responsiveness.
Design: We analyzed 59 HIV-1-infected subjects on stable highly active antiretroviral therapy (HAART) therapy (not including zidovudine) with suppressed plasma viremia (< 400 copies/ml) for phenotypic and lymphoproliferative correlates of immune function.
Methods: Peripheral blood mononuclear cells were collected for immunophenotyping, lymphoproliferative assays, and simultaneous immunophenotyping/ultrasensitive in situ hybridization. Plasma was collected for plasma viral load as determined by the Ultra Sensitive Roche Amplicor RT-PCR. Descriptive statistics (mean and SD, median, first and third quartiles) were determined for all variables in two groups defined as having persistent viral replication present or absent. The two-sided Wilcoxon test (continuity correction, 0.5) was used to compare lymphocyte phenotypes, lymphoproliferative assay responses, intracellular gag-pol mRNA, lowest CD4 counts and CD4% of these two groups.
Results: HIV-1 replication in CD4, CD45RO memory T lymphocytes persists in spite of undetectable plasma viral load. Patients (n = 24) with persistent intracellular expression of HIV-1 mRNA (> 0.3%) showed significant in vitro proliferative responses to HIV-1 p24 (stimulation index > or = 10) compared to patients (n = 35) without persistent intracellular replication. The group with persistent HIV-1 replication in cells showed no significant response to the recall antigen tetanus toxoid but a trend toward higher responses to pathogen antigens. There were no differences between the groups in the prevalence of AIDS or occurrences of opportunistic infections; however, the high viral persistence group was more HAART experienced (P < 0.05).
Conclusions: These results suggest that HIV-1-specific immune responses correlate with evidence of ongoing HIV-1 replication.