Dynamic changes and molecular analysis of cell death in the spinal cord of SJL mice infected with the BeAn strain of Theiler’s murine encephalomyelitis virus

Abstract

Theiler’s murine encephalomyelitis (TME) is caused by the TME virus (TMEV) and represents an important animal model for multiple sclerosis (MS). Oligodendroglial apoptosis and reduced apoptotic elimination of encephalitogenic leukocytes seem to participate in autoimmune demyelination in MS. The present study quantified apoptotic cells in BeAn–TMEV-induced spinal cord white matter lesions at 14, 42, 98, and 196 days post infection (dpi) using immunostaining. Apoptotic cells were identified by transmission electron microscopy and double-immunofluorescence. The mRNA expression of apoptosis-related genes was investigated using microarray analysis. Oligodendroglial apoptosis was already detected in the predemyelinating phase at 14 dpi. Apoptotic cell numbers peaked at 42 dpi and decreased until 196 dpi partly due to reduced T cell apoptosis. In addition to genes involved in the classical pathways of apoptosis induction, microarray analysis detected the expression of genes related to alternative mechanisms of cell death such as pyroptosis, necroptosis, and endoplasmic reticulum stress. Consequently, oligodendroglial apoptosis is involved in the initiation of the TME demyelination process, whereas the development of apoptosis resistance of T cells potentially favors the maintenance of inflammation and myelin loss.