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DMDA-PatA mediates RNA sequence-selective translation repression by anchoring eIF4A and DDX3 to GNG motifs

Hironori Saito, Yuma Handa, Mingming Chen, Tilman Schneider‐Poetsch, Yuichi Shichino, Mari Takahashi, Daniel Romo, Minoru Yoshida, Alois Fürstner, Takuhiro Ito, Kaori Fukuzawa, Shintaro Iwasaki

2024Nature Communications11 citationsDOIOpen Access PDF

Abstract

Small-molecule compounds that elicit mRNA-selective translation repression have attracted interest due to their potential for expansion of druggable space. However, only a limited number of examples have been reported to date. Here, we show that desmethyl desamino pateamine A (DMDA-PatA) represses translation in an mRNA-selective manner by clamping eIF4A, a DEAD-box RNA-binding protein, onto GNG motifs. By systematically comparing multiple eIF4A inhibitors by ribosome profiling, we found that DMDA-PatA has unique mRNA selectivity for translation repression. Unbiased Bind-n-Seq reveals that DMDA-PatA-targeted eIF4A exhibits a preference for GNG motifs in an ATP-independent manner. This unusual RNA binding sterically hinders scanning by 40S ribosomes. A combination of classical molecular dynamics simulations and quantum chemical calculations, and the subsequent development of an inactive DMDA-PatA derivative reveals that the positive charge of the tertiary amine on the trienyl arm induces G selectivity. Moreover, we identified that DDX3, another DEAD-box protein, is an alternative DMDA-PatA target with the same effects on eIF4A. Our results provide an example of the sequence-selective anchoring of RNA-binding proteins and the mRNA-selective inhibition of protein synthesis by small-molecule compounds.

Topics & Concepts

eIF4ARNARibosomeEukaryotic translationBiologyMessenger RNATranslation (biology)Initiation factorBiochemistryRiboswitchChemistryGeneticsNon-coding RNAGeneRNA and protein synthesis mechanismsRNA Research and SplicingRNA modifications and cancer