Impact of highly active anti-retroviral therapy (HAART) on cytokine production and monocyte subsets in HIV-infected patients

HIV infection is associated with cytokine production by monocytes and expansion of a monocyte subset that expresses high levels of CD16. Our study was designed to investigate the effects of anti-retroviral therapies on these immune parameters. Four groups of HIV+ patients were included in the study. The first group comprised drug-naive patients (n = 20); the second included patients who received two inhibitors of HIV reverse transcriptase (n = 45); the third group received a therapy combining these two inhibitors and one inhibitor of HIV protease (HAART) (n = 35); the fourth consisted of patients who had stopped their treatment (n = 20). The release of inflammatory cytokines (tumour necrosis factor, IL-1β, IL-6) and immunoregulatory cytokines such as IL-10 by monocytes was determined by ELISA. The monocyte subsets expressing low or high levels of CD16 were studied by flow cytometry. Monocytes from patients naive of treatment released higher amounts of inflammatory cytokines and IL-10 than HIV− individuals. Each anti-retroviral therapy restored a normal pattern of cytokine secretion. Nevertheless, the release of cytokines increased again after the arrest of the treatment. The expansion of the monocyte subset that expresses high levels of CD16 was significantly decreased by HAART but not by the treatment including two inhibitors of reverse transcriptase. These results suggest that only HAART controls monocyte activation in the treatment of HIV infection

Contribution of Immune Activation to the Pathogenesis and Transmission of Human Immunodeficiency Virus Type 1 Infection

The life cycle of human immunodeficiency virus type 1 (HIV-1) is intricately related to the activation state of the host cells supporting viral replication. Although cellular activation is essential to mount an effective host immune response to invading pathogens, paradoxically the marked systemic immune activation that accompanies HIV-1 infection in vivo may play an important role in sustaining phenomenal rates of HIV-1 replication in infected persons. Moreover, by inducing CD4(+) cell loss by apoptosis, immune activation may further be central to the increased rate of CD4(+) cell turnover and eventual development of CD4(+) lymphocytopenia. In addition to HIV-1-induced immune activation, exogenous immune stimuli such as opportunistic infections may further impact the rate of HIV-1 replication systemically or at localized anatomical sites. Such stimuli may also lead to genotypic and phenotypic changes in the virus pool. Together, these various immunological effects on the biology of HIV-1 may potentially enhance disease progression in HIV-infected persons and may ultimately outweigh the beneficial aspects of antiviral immune responses. This may be particularly important for those living in developing countries, where there is little or no access to antiretroviral drugs and where frequent exposure to pathogenic organisms sustains a chronically heightened state of immune activation. Moreover, immune activation associated with sexually transmitted diseases, chorioamnionitis, and mastitis may have important local effects on HIV-1 replication that may increase the risk of sexual or mother-to-child transmission of HIV-1. The aim of this paper is to provide a broad review of the interrelationship between immune activation and the immunopathogenesis, transmission, progression, and treatment of HIV-1 infection in vivo