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The Src-ZNRF1 axis controls TLR3 trafficking and interferon responses to limit lung barrier damage.

You-Sheng LinYung-Chi ChangTai-Ling ChaoYa-Min TsaiShu-Jhen JhuangYu-Hsin HoTing-Yu LaiYi-Ling LiuChiung-Ya ChenChing-Yen TsaiYi-Ping HsuehSui-Yuan ChangTsung-Hsien ChuangChih-Yuan LeeLi-Chung Hsu
Published in: The Journal of experimental medicine (2023)
Type I interferons are important antiviral cytokines, but prolonged interferon production is detrimental to the host. The TLR3-driven immune response is crucial for mammalian antiviral immunity, and its intracellular localization determines induction of type I interferons; however, the mechanism terminating TLR3 signaling remains obscure. Here, we show that the E3 ubiquitin ligase ZNRF1 controls TLR3 sorting into multivesicular bodies/lysosomes to terminate signaling and type I interferon production. Mechanistically, c-Src kinase activated by TLR3 engagement phosphorylates ZNRF1 at tyrosine 103, which mediates K63-linked ubiquitination of TLR3 at lysine 813 and promotes TLR3 lysosomal trafficking and degradation. ZNRF1-deficient mice and cells are resistant to infection by encephalomyocarditis virus and SARS-CoV-2 because of enhanced type I interferon production. However, Znrf1-/- mice have exacerbated lung barrier damage triggered by antiviral immunity, leading to enhanced susceptibility to respiratory bacterial superinfections. Our study highlights the c-Src-ZNRF1 axis as a negative feedback mechanism controlling TLR3 trafficking and the termination of TLR3 signaling.
Keyphrases
  • immune response
  • toll like receptor
  • inflammatory response
  • dendritic cells
  • sars cov
  • nuclear factor
  • tyrosine kinase
  • oxidative stress
  • type diabetes
  • insulin resistance
  • protein kinase