The immunopathogenesis of human immunodeficiency virus type 1 (HIV-1) infection has been associated with increased death by apoptosis of T cell subsets. In the present study, we have examined correlates of apoptosis of CD4+, CD8S+CD28+, and CD8+CD28- T cells in tonsillar lymphoid tissue in persons with HIV-1. Single-cell suspensions of tonsillar lymphocytes were analyzed by flow cytometry to determine the fraction of cells showing typical characteristics of apoptosis as well as the expression of activation markers within the live and the apoptotic cell populations. The proportion of cells carrying infectious provirus was quantified by limiting dilution analysis. Compared with uninfected controls, apoptosis of both CD4+ and CD8+ T cells was enhanced in HIV-1 infection and was higher among CD8+ than among CD4+ T cells. Apoptosis of CD28-cells was more prevalent than apoptosis of CD28+ cells for both CD4+ and CD8+ T cells. Occurrence of apoptosis of CD4+ T cells correlated with provirus levels and proportional expression of the activation marker HLA-DR. Apoptosis of CD8+CD28+ cells correlated with expression of the activation markers CD69 and HLA-DR while apoptosis within CD8+CD28- cells did not correlate with any of the studied parameters. Although apoptosis was much more prevalent among CD8+ than CD4+ T cells, CD8+ T cells still accumulated in tonsillar lymphoid tissue in persons with HIV-1. Our data may be interpreted to suggest that apoptosis of CD4+, CD8+CD28+, and CD8+CD28- cells in tonsillar tissue is regulated by different mechanisms and the results are of importance to our understanding of the immunopathogenesis of HIV-1 infection.
Levels of HIV‐1 have been reported to increase in peripheral blood after influenza vaccination of HIV+ individuals. In this study we have evaluated the dynamics of these changes. Ten HIV‐1+ individuals classified in revised CDC clinical categories B and C as well as five seronegative healthy controls were vaccinated with the recommended influenza strains. HIV viral RNA and proviral DNA were sequentially quantified in serum and blood lymphocytes, respectively. Nine of the 10 HIV+ individuals had an increase in the frequency of infected CD4 cells 2 weeks after influenza vaccination. Individuals with low viral load had a rapid increase in viraemia and a small increase in frequency of infected cells in peripheral blood. In contrast, individuals with high viral load had a small drop in viraemia followed by a significant rise in the rate of infected cells. The observed changes may resemble those taking place during intercurrent infections in HIV+ individuals. The effects of the relative increases in infectious virus after the transient viraemic phase should be further investigated to evaluate potential risks of vaccination.
Antiretroviral therapy normalizes tonsillar CD8 T cell activation in HIV-1-positive individuals in parallel with suppression of viral replication, indicating reduced CD8 cell turnover. Normal tonsillar CD4 T cell activation suggests limited CD4 cell turnover in early HIV infection. Activated CD8 T cells in lymphoid tissue is superior to that in blood as an immunological marker for the virological response to antiretroviral therapy.
CD8+ lymphocytes (CD8 cells) have been shown to inhibit replication of the human immunodeficiency virus (HIV) in vitro when cocultured with HIV-infected CD4+ lymphocytes (CD4 cells). This suppressive effect on HIV replication in experimentally infected CD4 cells has so far been demonstrated only for CD8 cells from HIV-seropositive individuals. In the present study we have investigated if CD8 cells from HIV-negative individuals can also suppress HIV replication in experimentally infected CD4 cells. Positively selected CD4 cells were infected with phenotypically different primary isolates of HIV type 1 and 2 (HIV-1 and HIV-2). Graded numbers of CD8 cells were added to the infected cultures. The T cells were activated by antibodies directed against the CD3 molecule or the T cell receptor. Culture supernatants were harvested for HIV p24 quantitation and the CD8 suppression of HIV replication was calculated by comparing p24 levels from parallel cultures in the presence or absence of CD8 cells from different donors. We show that CD8 cells from unexposed HIV-seronegative blood donors are able to control HIV-1 and HIV-2 replication in experimentally infected autologous CD4 cells. The antiviral activity of CD8 cells from and HIV-naive individual was reproducible over time and the suppressive effect was comparable to that seen with CD8 cells from HIV-positive individuals. The infected cells were not eliminated from the cultures. The suppressive effect of CD8 cells varied depending on the dose and biological phenotype of the virus used for infection. Thus, exposure to HIV in vivo is not a prerequisite for CD8 cells to exert a suppressive effect on HIV replication in acutely infected cells.
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