Litcius/Paper detail

ADAR1 Zα domain P195A mutation activates the MDA5-dependent RNA-sensing signaling pathway in brain without decreasing overall RNA editing

Xinfeng Guo, Silvia Liu, Sheng Yi, Mazen Zenati, Timothy R. Billiar, Alan Herbert, Qingde Wang

2023Cell Reports32 citationsDOIOpen Access PDF

Abstract

Variants of the RNA-editing enzyme ADAR1 cause Aicardi-Goutières syndrome (AGS), in which severe inflammation occurs in the brain due to innate immune activation. Here, we analyze the RNA-editing status and innate immune activation in an AGS mouse model that carries the Adar P195A mutation in the N terminus of the ADAR1 p150 isoform, the equivalent of the P193A human Zα variant causal for disease. This mutation alone can cause interferon-stimulated gene (ISG) expression in the brain, especially in the periventricular areas, reflecting the pathologic feature of AGS. However, in these mice, ISG expression does not correlate with an overall decrease in RNA editing. Rather, the enhanced ISG expression in the brain due to the P195A mutant is dose dependent. Our findings indicate that ADAR1 can regulate innate immune responses through Z-RNA binding without changing overall RNA editing.

Topics & Concepts

RNARNA editingMutationMDA5BiologyGeneticsComputational biologyCell biologyGeneRNA interferenceRNA regulation and diseaseRNA Research and SplicingRNA and protein synthesis mechanisms
ADAR1 Zα domain P195A mutation activates the MDA5-dependent RNA-sensing signaling pathway in brain without decreasing overall RNA editing | Litcius