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A novel transcript isoform of STING that sequesters cGAMP and dominantly inhibits innate nucleic acid sensing.

Nucleic acids research (2018-03-17)
Pei-Hui Wang, Sin-Yee Fung, Wei-Wei Gao, Jian-Jun Deng, Yun Cheng, Vidyanath Chaudhary, Kit-San Yuen, Ting-Hin Ho, Ching-Ping Chan, Yan Zhang, Kin-Hang Kok, Wanling Yang, Chi-Ping Chan, Dong-Yan Jin
RESUMEN

STING is a core adaptor in innate nucleic acid sensing in mammalian cells, on which different sensing pathways converge to induce type I interferon (IFN) production. Particularly, STING is activated by 2'3'-cGAMP, a cyclic dinucleotide containing mixed phosphodiester linkages and produced by cytoplasmic DNA sensor cGAS. Here, we reported on a novel transcript isoform of STING designated STING-β that dominantly inhibits innate nucleic acid sensing. STING-β without transmembrane domains was widely expressed at low levels in various human tissues and viral induction of STING-β correlated inversely with IFN-β production. The expression of STING-β declined in patients with lupus, in which type I IFNs are commonly overproduced. STING-β suppressed the induction of IFNs, IFN-stimulated genes and other cytokines by various immunostimulatory agents including cyclic dinucleotides, DNA, RNA and viruses, whereas depletion of STING-β showed the opposite effect. STING-β interacted with STING-α and antagonized its antiviral function. STING-β also interacted with TBK1 and prevented it from binding with STING-α, TRIF or other transducers. In addition, STING-β bound to 2'3'-cGAMP and impeded its binding with and activation of STING-α, leading to suppression of IFN-β production. Taken together, STING-β sequesters 2'3'-cGAMP second messenger and other transducer molecules to inhibit innate nucleic acid sensing dominantly.

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Ácido poliinosínico-policitidílico sodium salt, TLR ligand tested