Human immunodeficiency virus type 1 infection of the nervous system: pathogenetic mechanisms

Abstract

Human immunodeficiency virus type 1 (HIV-1) infection of the central nervous system is associated with characteristic virological, clinical, and neuropathological findings in adults and children. Productive infection in the brain and spinal cord occurs in blood-derived macrophages, resident microglia, and multinucleated giant cells. Previous work implicated indirect mechanisms for neurotoxicity by HIV-1 gene products or by factors secreted from HIV-1--infected macrophages. However, this cannot explain the paradox between the small numbers of infected cells and the widespread tissue pathology. Based on recent studies from our laboratories, we suggest that HIV-1--infected macrophages can initiate neurotoxicity, which is then amplified through cell-to-cell interactions with astrocytes. Macrophage-astrocyte interactions produce cytokines tumor necrosis factor-alpha and interleukin-1 beta and arachidonic metabolites that cause astroglial proliferation and neuronal injury. Inevitably, the astrogliosis serves to amplify these cellular processes while brain infection maintains itself in macrophage and microglia and possibly in astrocytes (by restricted infection). These findings, taken together, provide fresh insights into how low numbers of productively infected cells could elicit progressive and devastating neurological impairment during HIV-1 disease, and suggest therapeutic strategies to interrupt the pathological process.