Abstract

Duck Tembusu virus (DTMUV) and Japanese encephalitis virus (JEV) are mosquito-borne flaviviruses. These two viruses infect ducks; however, they show different neurological outcomes. The mechanism of DTMUV- and JEV-induced neuronal death has not been well investigated. In the present study examined the differences in the mechanisms involved in virus-induced cell death and innate immune responses between the DTMUV KPS54A61 strain and the JEV JaGAr-01 strain using primary duck neurons (DN) and duck fibroblasts (CCL-141). DN and CCL-141 were permissive for the infection and replication of these two viruses, which up-regulated the expression of innate immunity genes. Both DTMUV and JEV induced cell death via a caspase-3-dependent manner; however, DTMUV triggered more cell death than did JEV in both CCL-141 and DN. These findings suggest that DTMUV infection causes apoptosis in duck neurons and fibroblasts more strongly than JEV. The levels of the mRNA expression of innate immunity-related genes after DTMUV infection were generally higher than the levels after JEV infection, suggesting that DTMUV-induced immune response in duck cells may exhibit toxic effects rather than protective effects.

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