AI Article Synopsis
- Japanese encephalitis, caused by the Japanese encephalitis virus (JEV), is a significant health concern in Asia, and the role of cell-mediated immune responses in protecting against it is not fully understood.
- Research shows that mice lacking granule exocytosis and death receptor pathways have a higher susceptibility to JEV, suggesting that these cytotoxic mechanisms work redundantly in the central nervous system to limit disease severity.
- Additionally, T cells produce IFN-γ, which is crucial for controlling virus growth and aiding recovery, while NK cells are not essential for managing JEV infection in either the peripheral system or the CNS.
Article Abstract
Japanese encephalitis, caused by infection with the neurotropic flavivirus, Japanese encephalitis virus (JEV), is among the most important viral encephalitides in Asia. While previous studies established an essential role of Ab and type I IFN, it is still unclear if the cell-mediated immune responses, through their direct antiviral effector functions, contribute to protection against the fatal disease. We report here that mice defective in both the granule exocytosis and death receptor pathways of cytotoxicity display increased susceptibility to JEV. The two cell contact-dependent cytotoxic effector mechanisms act redundantly within the CNS to reduce disease severity. We also demonstrate that IFN-γ is critical in recovery from primary infection with JEV by a mechanism involving suppression of virus growth in the CNS, and that T cells are the main source of the cytokine that promotes viral clearance from the brain. Finally, we show by in vivo depletion of NK cells that this innate immune cell population is dispensable for control of JEV infection in the periphery and in the CNS. Accordingly, cell contact-dependent cytolytic and IFN-γ-dependent noncytolytic clearance of virus mediated by T cells trafficking into the CNS help in recovery from lethal infection in a mouse model of Japanese encephalitis.
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| http://dx.doi.org/10.1002/eji.201243152 | DOI Listing |
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