Lack of Correlation of Central Nervous System Inflammation and Neuropathology with the Development of Seizures following Acute Virus Infection

Abstract

Infection of C57BL/6 mice by the intracerebral route with the Daniels (DA) strain of Theiler's murine encephalomyelitis virus (TMEV) resulted in acute behavioral seizures in approximately 50% of the mice. By titration, the viral dose correlated with the percentage of mice developing seizures; however, neuropathological changes were similar over the dose range, and viral clearance from the brains occurred uniformly by day 14 postinfection (p.i.). Other TMEV strains and mutants (GDVII, WW, BeAn 8386 [BeAn], DApBL2M, H101) induced seizures in C57BL/6 mice to various degrees. The BeAn strain and DApBL2M mutant were similar to the DA strain in the percentages of mice developing seizures and neuropathological changes and in the extent of infected cells. The GDVII and WW strains caused 100% mortality by days 5 and 6 p.i., respectively, at which time neuropathological changes and neuronal infection were extensive. The H101 mutant induced seizures and caused 100% mortality by day 7 p.i.; however, only minor neuropathological changes and few infected cells were observed. Thus, in H101 mutant infections, it appears that elevated levels of cytokines, rather than neuronal cell death, play the dominant role in seizure induction.