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Endonucleolytic RNA cleavage drives changes in gene expression during the innate immune response

Agnes Karasik, Hernán Lorenzi, Andrew V. DePass, Nicholas R. Guydosh

2024Cell Reports24 citationsDOIOpen Access PDF

Abstract

Viral infection triggers several double-stranded RNA (dsRNA) sensors that lead to changes in gene expression in the cell. One of these sensors activates an endonuclease, ribonuclease L (RNase L), that cleaves single-stranded RNA. However, how the resultant widespread RNA fragmentation affects gene expression is not fully understood. Here, we show that this fragmentation induces the ribotoxic stress response via ZAKα, potentially through stalled ribosomes and/or ribosome collisions. The p38 and JNK pathways that are activated as part of this response promote outcomes that inhibit the virus, such as programmed cell death. We also show that RNase L limits the translation of stress-responsive genes. Intriguingly, we found that the activity of the generic endonuclease, RNase A, recapitulates many of the same molecular phenotypes as activated RNase L, demonstrating how widespread RNA cleavage can evoke an antiviral program.

Topics & Concepts

RNase PRNA silencingRNAEndonucleaseBiologyCell biologyGene expressionRibonucleaseGeneRibonuclease IIIRNase MRPInnate immune systemMolecular biologyGeneticsRNA interferenceImmune systemRNA regulation and diseaseinterferon and immune responsesRNA Research and Splicing
Endonucleolytic RNA cleavage drives changes in gene expression during the innate immune response | Litcius