Membrane lymphotoxin is required for resistance to Theiler's virus infection.

Lymphotoxin (LT) and tumor necrosis factor (TNF) are important in immune system development and function. LT consists of soluble LT-alpha(3), which binds to TNF-R1 and TNF-R2, and membrane LT-alpha(1)beta(2), which binds to LT-beta-R. We investigated the role of LT and TNF in disease induced by Daniel's (DA) strain of Theiler's murine encephalomyelitis virus (TMEV) since the immune response is believed to be important in both resistance to DA infection as well as mediation of virus-induced demyelination. DA persisted and induced inflammatory demyelination in LT-alpha(-/-) (but not TNF(-/-)) weanling mice of a normally resistant haplotype (C57BL/6), suggesting that LT, but not TNF, is critical for resistance to DA infection. This activity of LT depends on membrane LT-alpha(1)beta(2) and not soluble LT-alpha(3), since DA virus persisted and induced inflammatory demyelination in LT-beta-R(-/-), but not TNF-R1(-/-) or TNF-R2(-/-), mice. The LT-alpha(-/-) and LT-beta-R(-/-) mice failed to mount a virus-specific cytotoxic T cell response. Treatment of weanling C57BL/6 mice with LT-beta-R-Ig, which blocks membrane LT activity, failed to increase susceptibility, suggesting that the LT effect is related to its action on immune system development which is fixed by 3 weeks of age. Our data suggest that membrane LT is important in resistance to DA infection (possibly through interference with CD8+ T cell development and function). There was relatively little demyelination associated with inflammation in LT-alpha(-/-) and LT-beta-R(-/-) mice compared to susceptible SJL mice, suggesting the possibility that LT plays a role in mediating demyelination.