Litcius/Paper detail

Mutant RIG-I enhances cancer-related inflammation through activation of circRIG-I signaling

Jia Song, Wei Zhao, Xin Zhang, Wenyu Tian, Xuyang Zhao, Liang Ma, Yongtong Cao, Yuxin Yin, Xuehui Zhang, Xuliang Deng, Dan Lü, Xuliang Deng, Dan Lü

2022Nature Communications38 citationsDOIOpen Access PDF

Abstract

Abstract RIG-I/DDX58 plays a key role in host innate immunity. However, its therapeutic potential for inflammation-related cancers remains to be explored. Here we identify frameshift germline mutations of RIG-I occurring in patients with colon cancer. Accordingly, Rig-i fs/fs mice bearing a frameshift mutant Rig-i exhibit increased susceptibility to colitis-related colon cancer as well as enhanced inflammatory response to chemical, virus or bacteria. In addition to interruption of Rig-i mRNA translation, the Rig-i mutation changes the secondary structure of Rig-i pre-mRNA and impairs its association with DHX9, consequently inducing a circular RNA generation from Rig-i transcript, thereby, designated as circRIG-I. CircRIG-I is frequently upregulated in colon cancers and its upregulation predicts poor outcome of colon cancer. Mechanistically, circRIG-I interacts with DDX3X, which in turn stimulates MAVS/TRAF5/TBK1 signaling cascade, eventually activating IRF3-mediated type I IFN transcription and aggravating inflammatory damage. Reciprocally, all-trans retinoic acid acts as a DHX9 agonist, ameliorates immunopathology through suppression of circRIG-I biogenesis. Collectively, our results provide insight into mutant RIG-I action and propose a potential strategy for the treatment of colon cancer.

Topics & Concepts

RIG-IFrameshift mutationDownregulation and upregulationBiologyCancer researchInnate immune systemTLR3CancerGermlineMutantGermline mutationInflammationMutationImmunologyGeneticsImmune systemGeneToll-like receptorinterferon and immune responsesCircular RNAs in diseasesInflammasome and immune disorders