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Decoding the interplay between m <sup>6</sup> A modification and stress granule stability by live-cell imaging

Qianqian Li, Jian K. Liu, Liping Guo, Y. Zhang, Yanwei Chen, Huijuan Liu, Hongyu Cheng, Lin Deng, Juhui Qiu, Ke Zhang, W.S. Sho Goh, Yingxiao Wang, Qin Peng

2024Science Advances17 citationsDOIOpen Access PDF

Abstract

N 6 -methyladenosine (m 6 A)–modified mRNAs and their cytoplasmic reader YTHDFs are colocalized with stress granules (SGs) under stress conditions, but the interplay between m 6 A modification and SG stability remains unclear. Here, we presented a spatiotemporal m 6 A imaging system (SMIS) that can monitor the m 6 A modification and the translation of mRNAs with high specificity and sensitivity in a single live cell. SMIS showed that m 6 A-modified reporter mRNAs dynamically enriched into SGs under arsenite stress and gradually partitioned into the cytosol as SG disassembled. SMIS revealed that knockdown of YTHDF2 contributed to SG disassembly, resulting in the fast redistribution of mRNAs from SGs and rapid recovery of stalled translation. The mechanism is that YTHDF2 can regulate SG stability through the interaction with G3BP1 in m 6 A-modified RNA-dependent manner. Our results suggest a mechanism for the interplay between m 6 A modification and SG through YTHDF2 regulation.

Topics & Concepts

Stress granuleCell biologyCytoplasmLive cell imagingTranslation (biology)CytosolGene knockdownBiophysicsChemistryRNACellMessenger RNABiologyApoptosisBiochemistryGeneEnzymeRNA modifications and cancerRNA Research and SplicingRNA and protein synthesis mechanisms
Decoding the interplay between m <sup>6</sup> A modification and stress granule stability by live-cell imaging | Litcius