GNAQ Negatively Regulates Antiviral Innate Immune Responses in a Calcineurin-Dependent Manner

生物 GNAQ公司 先天免疫系统 细胞生物学 水泡性口炎病毒 信号转导 G蛋白偶联受体 病毒学 免疫系统 免疫学 病毒 遗传学 突变 基因
作者
Ning Wang,Hongjun Huang,Qingqing Xiong,Naiyang Chen,Nanxi Xi,Peilun Wu,Mingyao Liu,Min Qian,Qin Wang,Bing Du
出处
期刊:Journal of Immunology [American Association of Immunologists]
卷期号:203 (5): 1288-1297 被引量:5
标识
DOI:10.4049/jimmunol.1900427
摘要

Although guanine nucleotide-binding protein (G protein)-coupled receptors (GPCRs) constitute the largest cell surface membrane receptor family and transduce thousands of extracellular signals into the cytoplasm, only four kinds of G protein α subunits (Gαs, Gαi/o, Gαq/11, and Gα12/13) are coupled to regulate cAMP or phosphatidylinositol signals. Growing evidence suggests that viruses tend to hijack GPCRs and harness their activated intracellular signaling pathways. Thus, understanding the roles of G protein signaling will further uncover the GPCR signaling pathways that are exploited by viruses. In this study, we demonstrate that the expression of GNAQ (Gq α subunit) was downregulated during viral infection and that small interfering RNA-mediated GNAQ knockdown protected host cells from both vesicular stomatitis virus (VSV) and HSV type 1 infection. Meanwhile, VSV and HSV type 1 replication was reduced significantly in Gnaq-deficient macrophages. Accordingly, the VSV distribution in the liver, spleen, and lung was reduced in Gnaq-deficient mice during VSV infection, and Gnaq-deficient mice were much more resistant to VSV infection than wild-type mice. Mechanistically, GNAQ limits type I IFN production through the canonical PLC-β/Ca2+/CALNA signaling pathway, which has been demonstrated to dephosphorylate virus-activated TANK-binding kinase 1 (TBK1). Thus, our data demonstrate that GNAQ negatively regulates the antiviral innate immune responses in a calcineurin-dependent manner. These findings also provide insights into the function and cross-talk of the classic GPCR signaling pathway with antiviral innate immune responses and suggest a potential therapeutic role for GNAQ in controlling viral diseases.
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