| Literature DB >> 30878284 |
Xiaohan Ning1, Yutao Wang1, Miao Jing1, Mengyin Sha1, Mengze Lv1, Pengfei Gao1, Rui Zhang1, Xiaojun Huang2, Ji-Ming Feng3, Zhengfan Jiang4.
Abstract
Viral infection triggers host defenses through pattern-recognition receptor-mediated cytokine production, inflammasome activation, and apoptosis of the infected cells. Inflammasome-activated caspases are known to cleave cyclic GMP-AMP synthase (cGAS). Here, we found that apoptotic caspases are critically involved in regulating both DNA and RNA virus-triggered host defenses, in which activated caspase-3 cleaved cGAS, MAVS, and IRF3 to prevent cytokine overproduction. Caspase-3 was exclusively required in human cells, whereas caspase-7 was involved only in murine cells to inactivate cGAS, reflecting distinct regulatory mechanisms in different species. Caspase-mediated cGAS cleavage was enhanced in the presence of dsDNA. Alternative MAVS cleavage sites were used to ensure the inactivation of this critical protein. Elevated type I IFNs were detected in caspase-3-deficient cells without any infection. Casp3-/- mice consistently showed increased resistance to viral infection and experimental autoimmune encephalomyelitis. Our results demonstrate that apoptotic caspases control innate immunity and maintain immune homeostasis against viral infection.Entities:
Keywords: IRF3; MAVS; apoptosis; apoptotic caspase; cGAS; cleavage; immunologically silent; innate immunity; type I-interferon; virus infection
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Year: 2019 PMID: 30878284 DOI: 10.1016/j.molcel.2019.02.013
Source DB: PubMed Journal: Mol Cell ISSN: 1097-2765 Impact factor: 17.970