AI Article Synopsis
- - The RNA deaminase ADAR1 normally inhibits the activity of the RNA sensor MDA5; without ADAR1, MDA5 gets activated by self-RNAs, leading to immune diseases.
- - Researchers created mice with a mutation in ADAR1, similar to a common mutation found in Aicardi-Goutières syndrome (AGS), and discovered that these mice developed severe disease due to MDA5 and other immune pathways.
- - A specific small-molecule inhibitor targeting the integrated stress response (ISR) improved the health of these mice, suggesting that targeting PKR and ISR could offer new treatment options for diseases linked to the ADAR1-MDA5 interaction.
Article Abstract
The RNA deaminase ADAR1 is an essential negative regulator of the RNA sensor MDA5, and loss of ADAR1 function triggers inappropriate activation of MDA5 by self-RNAs. Mutations in ADAR, the gene that encodes ADAR1, cause human immune diseases, including Aicardi-Goutières syndrome (AGS). However, the mechanisms of MDA5-dependent disease pathogenesis in vivo remain unknown. Here we generated mice with a single amino acid change in ADAR1 that models the most common human ADAR AGS mutation. These Adar mutant mice developed lethal disease that required MDA5, the RIG-I-like receptor LGP2, type I interferons, and the eIF2α kinase PKR. A small-molecule inhibitor of the integrated stress response (ISR) that acts downstream of eIF2α phosphorylation prevented immunopathology and rescued the mice from mortality. These findings place PKR and the ISR as central components of immunopathology in vivo and identify therapeutic targets for treatment of human diseases associated with the ADAR1-MDA5 axis.
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| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC8446335 | PMC |
| http://dx.doi.org/10.1016/j.immuni.2021.07.001 | DOI Listing |
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