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ADAR and hnRNPC deficiency synergize in activating endogenous dsRNA-induced type I IFN responses

Anna‐Maria Herzner, Zia Khan, Eric L. Van Nostrand, Sara M. Chan, Trinna Cuellar, Ronald Chen, Ximo Pechuan-Jorge, László G. Kömüves, Margaret Solon, Zora Modrušan, Benjamin Haley, G Yeo, Timothy W. Behrens, Matthew L. Albert

2021The Journal of Experimental Medicine28 citationsDOIOpen Access PDF

Abstract

Cytosolic double-stranded RNA (dsRNA) initiates type I IFN responses. Endogenous retroelements, notably Alu elements, constitute a source of dsRNA. Adenosine-to-inosine (A-to-I) editing by ADAR induces mismatches in dsRNA and prevents recognition by MDA5 and autoinflammation. To identify additional endogenous dsRNA checkpoints, we conducted a candidate screen in THP-1 monocytes and found that hnRNPC and ADAR deficiency resulted in synergistic induction of MDA5-dependent IFN responses. RNA-seq analysis demonstrated dysregulation of Alu-containing introns in hnRNPC-deficient cells via utilization of unmasked cryptic splice sites, including introns containing ADAR-dependent A-to-I editing clusters. These putative MDA5 ligands showed reduced editing in the absence of ADAR, providing a plausible mechanism for the combined effects of hnRNPC and ADAR. This study contributes to our understanding of the control of repetitive element-induced autoinflammation and suggests that patients with hnRNPC-mutated tumors might maximally benefit from ADAR inhibition-based immunotherapy.

Topics & Concepts

ADARMDA5RNA silencingRNA editingBiologyAlu elementRNAEndogenyRNA-binding proteinTranscriptomeCell biologyGeneticsRNA interferenceBiochemistryGene expressionGeneGenomeHuman genomeRNA regulation and diseaseinterferon and immune responsesCytomegalovirus and herpesvirus research
ADAR and hnRNPC deficiency synergize in activating endogenous dsRNA-induced type I IFN responses | Litcius