Inhibition of HIV-1-specific T-cells and increase of viral load during immunosuppressive treatment in an HIV-1 infected patient with Chlamydia trachomatis induced arthritis.

BACKGROUND: Studies in HIV-1 infected long-term non-progressors could demonstrate a strong HIV-1-specific CTL response, but it is difficult to prove that this strong CTL response actually is the cause of the efficient control of HIV-1 and not the consequence of low HIV-1 replication in these patients.
OBJECTIVE: Studies of HIV-1-specific immunity and viral replication in patients undergoing immunosuppressive therapy provide important opportunities to understand the role of HIV-1-specific T-cells.
RESULTS: In this report we describe an HLA B27 positive patient with normal CD4 counts and a low viral load of 200 copies/ml without antiretroviral therapy who exhibited a very strong HIV-1-specific CTL response. He had to be treated with steroids, NSAIDS and hydroxchloroquine because of a severe inflammatory reactive arthritis triggered by an acute Chlamydia trachomatis infection. Analysis of HIV-1 specific T-cells by gamma-IFN-ELISPOT revealed a high frequency of HIV-1 gag-specific CTL both in blood and synovial fluid, whereas gag-specific CD4-cells could be detected only in the peripheral blood. Further analysis revealed that the gag-specific T-cells were predominantly targeting the HLA B27-restricted CTL epitope KRWIILGLNK (KK10). Immunosuppressive therapy by prednisone was associated with a moderate increase of HIV-1 viremia and a decrease both in the number and in the gamma-IFN production of KK10-specific CTL indicating that inhibition of CTL function contributed to the increase of viral load.
CONCLUSIONS: This study is suggesting that HIV-1 specific CTL play an important role in the control of HIV-1, at least in this patient. Inhibition of CTL function by immunosuppressive therapy with prednisone may enhance viral replication. In addition, we could demonstrate for the first time the migration of HIV-1 specific T-cells into the synovial fluid.