Abstract
The antiviral relevance of soluble mediators that may operate in the vicinity of virus specific effector T cells was investigated. Mice were immunized with vesicular stomatitis virus (VSV) wild type (wt) and subsequently challenged with a mixture of two vaccinia recombinant viruses, one expressing the nucleoprotein of VSV (vacc-VSV-NP) the other expressing the glycoprotein of lymphocytic choriomeningitis virus (vacc-LCMV-GP). It was determined whether or not the VSV wt-induced memory T cell response that is protective against vacc-VSV-NP would inhibit growth of the nonrecognized vacc-LCMV-GP. In ovaries and testes replication of vacc-LCMV-GP was not inhibited. In contrast, the T cell response against vacc-VSV-NP nonspecifically inhibited growth of the non-recognized vacc-LCMV-GP in the central nervous system. This inhibiting effect was partly abrogated by treatment with anti-IFN-gamma antiserum but not by an anti-TNF-alpha antiserum. Similar results were obtained in VSV wt-immune H-2b mice, which eliminate vacc-VSV-NP by CD8+ T cells and in H-2k mice, which eliminate vacc-VSV-NP by a CD4+ T cell-dependent mechanism. These data suggest that a protective bystander effect mediated by soluble CD8+ and CD4+ T cell-dependent factors may be demonstrated against vaccinia virus only in an organ such as the central nervous system in which the blood-brain barrier inhibits diffusion and draining of the soluble antiviral factors released by specific effector T cells.
- Copyright © 1993 by American Association of Immunologists
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