RIGulation of STING expression: at the crossroads of viral RNA and DNA sensing pathways | Zendy

Yiliu Liu | Zendy; Rongtuan Lin | Zendy; David Olagnier | Zendy

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RIGulation of STING expression: at the crossroads of viral RNA and DNA sensing pathways

Author(s) -

Yiliu Liu,

Rongtuan Lin,

David Olagnier

Publication year - 2017

Publication title -

inflammation and cell signaling

Language(s) - English

Resource type - Journals

ISSN - 2330-7803

DOI - 10.14800/ics.1491

Subject(s) - sting , innate immune system , rna , stimulator of interferon genes , biology , dna , immune system , dna virus , virology , microbiology and biotechnology , gene , immunology , genetics , genome , engineering , aerospace engineering

The innate immune sensing of pathogens is important for host to mount defensive responses. STING has emerged in recent years as a critical signaling adaptor in the immune response to cytosolic DNA and RNA derived from pathogens. Liu et al. (2016) demonstrate that the RIG-I-dependent RNA sensing signaling induces STING expression via a TNF-α and IFN-α synergy. The up-regulation of STING is vital for 5′pppRNA restriction of HSV, a DNA virus that infects humans and causes herpes, in vitro and in vivo . This study provides new insights into the cross talk between DNA and RNA pathogen-sensing systems via the control of STING.

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