Mechanisms of noncytolytic viral clearance from the CNS
Rose, Wesley   
Institute for Cancer Research, Philadelphia, PA, United States

Numerous restrictions are placed on immune-mediated clearance of viral infections of the central nervous system (CNS). Not only is immune cell access to the CNS limited, immune-mediated antiviral strategies must avoid lysis of infected neurons, as CNS neurons are generally non-renewable. While non-cytolytic immune-mediated viral clearance in the CNS has been observed, the mechanisms of such clearance are not understood. Using a transgenic mouse model of neuron-restricted measles virus (MV) infection, our laboratory demonstrated that viral clearance i) required both CD4+ and CD8+ (CTL) T lymphocytes; ii) was not associated with immune-mediated neuronal death; and iii) depended on the Th1 cytokine interferon gamma (IFNgamma). However, as CNS neurons are thought to express little or no class I major histocompatibility complex (MHCI), whether CTL-neuron contact is required for MV clearance, and the mechanism by which IFNgamma, clears MV from infected neurons, are unknown. The goal of the proposed research is to define the mechanisms of T cell-mediated noncytolytic viral clearance in CNS neurons by 1) examining whether contact between CTL and neurons is required for MV clearance, and whether MHCI expression mediates this contact; and ii) characterizing the antiviral response of MV-infected neurons stimulated by IFNgamma by examining signal transduction and IFNgamma-responsive gene upregulation. A better understanding of noncytolytic MV clearance in neurons will undoubtedly also be applicable to other neurotropic viruses, and may ultimately provide important insights into the development of novel antiviral approaches to fight chronic infections of the brain.