We previously characterized the expression and function of the protein tyrosine phosphatase SHP-1 in the glia of the central nervous system (CNS). In the present study, we describe the role of SHP-1 in virus infection of glia and virus-induced demyelination in the CNS. For in vivo studies, SHP-1-deficient mice and their normal littermates received an intracerebral inoculation of an attenuated strain of Theiler's murine encephalomyelitis virus (TMEV). At various times after infection, virus replication, TMEV antigen expression, and demyelination were monitored. It was found that the CNS of SHP-1-deficient mice uniquely displayed demyelination and contained substantially higher levels of virus than did that of normal littermate mice. Many infected astrocytes and oligodendrocytes were detected in both brains and spinal cords of SHP-1-deficient but not normal littermate mice, showing that the virus replicated and spread at a much higher rate in the glia of SHP-1-deficient animals. To ascertain whether the lack of SHP-1 in the glia was primarily responsible for these differences, glial samples from these mice were cultured in vitro and infected with TMEV. As in vivo, infected astrocytes and oligodendrocytes of SHP-1-deficient mice were much more numerous and produced more virus than did those of normal littermate mice. These findings indicate that SHP-1 is a critical factor in controlling virus replication in the CNS glia and virus-induced demyelination.
Enteroviruses can cause persistent central nervous system (CNS) infections in agammaglobulinemic individuals. Because these infections are rarely cured by passive administration of antibody, a chemotherapeutic approach would be advantageous. In this study, the efficacy of the antienterovirus (and antipicornavirus) drug disoxaril was demonstrated in a murine model of persistent enterovirus infection. Disoxaril is a hydrophobic antiviral compound that blocks picornavirus uncoating. The W-2 strain of human poliovirus type 2 (PV2) persists in the CNS of immunosuppressed mice and causes late paralysis. Mice were inoculated intracerebrally with PV2, immunosuppressed with cyclophosphamide, and treated intragastrically with disoxaril at 50, 100, or 200 mg/kg per day in two divided doses beginning on postinfection day 20. At 200 mg/kg per day, disoxaril significantly decreased the incidence of clinical disease, i.e., paralysis and death. Assays for virus revealed more rapid clearance of virus from the CNS in the drug-treated group. No drug-associated toxicity was observed. Residual isolates of virus were not drug-resistant, suggesting that the appearance of drug resistance during prolonged treatment may not be a clinical problem.
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