Litcius/Paper detail

RNF219 attenuates global mRNA decay through inhibition of CCR4-NOT complex-mediated deadenylation

Fabian Poetz, Joshua Corbo, Yevgen Levdansky, Alexander Spiegelhalter, Doris Lindner, Vera Magg, Svetlana Lebedeva, Jörg Schweiggert, Johanna Schott, Eugene Valkov, Georg Stoecklin

2021Nature Communications41 citationsDOIOpen Access PDF

Abstract

The CCR4-NOT complex acts as a central player in the control of mRNA turnover and mediates accelerated mRNA degradation upon HDAC inhibition. Here, we explored acetylation-induced changes in the composition of the CCR4-NOT complex by purification of the endogenously tagged scaffold subunit NOT1 and identified RNF219 as an acetylation-regulated cofactor. We demonstrate that RNF219 is an active RING-type E3 ligase which stably associates with CCR4-NOT via NOT9 through a short linear motif (SLiM) embedded within the C-terminal low-complexity region of RNF219. By using a reconstituted six-subunit human CCR4-NOT complex, we demonstrate that RNF219 inhibits deadenylation through the direct interaction of the α-helical SLiM with the NOT9 module. Transcriptome-wide mRNA half-life measurements reveal that RNF219 attenuates global mRNA turnover in cells, with differential requirement of its RING domain. Our results establish RNF219 as an inhibitor of CCR4-NOT-mediated deadenylation, whose loss upon HDAC inhibition contributes to accelerated mRNA turnover.

Topics & Concepts

Ubiquitin ligaseAcetylationProtein subunitCell biologyMessenger RNAChemistryUbiquitinMolecular biologyBiologyBiochemistryGeneRNA Research and SplicingRNA modifications and cancerRNA and protein synthesis mechanisms
RNF219 attenuates global mRNA decay through inhibition of CCR4-NOT complex-mediated deadenylation | Litcius