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Interferon-independent STING signaling promotes resistance to HSV-1 in vivo

Lívia H. Yamashiro, Stephen C. Wilson, Huntly M. Morrison, Vasiliki Karalis, Jing-Yi Chung, Katherine J. Chen, Helen S. Bateup, Moriah L. Szpara, Angus Y. Lee, Jeffery S. Cox, Russell E. Vance

2020Nature Communications174 citationsDOIOpen Access PDF

Abstract

The Stimulator of Interferon Genes (STING) pathway initiates potent immune responses upon recognition of DNA. To initiate signaling, serine 365 (S365) in the C-terminal tail (CTT) of STING is phosphorylated, leading to induction of type I interferons (IFNs). Additionally, evolutionary conserved responses such as autophagy also occur downstream of STING, but their relative importance during in vivo infections remains unclear. Here we report that mice harboring a serine 365-to-alanine (S365A) mutation in STING are unexpectedly resistant to Herpes Simplex Virus (HSV)-1, despite lacking STING-induced type I IFN responses. By contrast, resistance to HSV-1 is abolished in mice lacking the STING CTT, suggesting that the STING CTT initiates protective responses against HSV-1, independently of type I IFNs. Interestingly, we find that STING-induced autophagy is a CTT- and TBK1-dependent but IRF3-independent process that is conserved in the STING S365A mice. Thus, interferon-independent functions of STING mediate STING-dependent antiviral responses in vivo.

Topics & Concepts

StingIRF3Stimulator of interferon genesInterferonBiologyTANK-binding kinase 1In vivoAutophagyHerpes simplex virusSignal transductionCell biologyVirologyVirusImmunologyImmune systemInnate immune systemGeneticsApoptosisMitogen-activated protein kinase kinaseProtein kinase CEngineeringAerospace engineeringinterferon and immune responsesViral Infections and VectorsInflammasome and immune disorders
Interferon-independent STING signaling promotes resistance to HSV-1 in vivo | Litcius