Litcius/Paper detail

The RNA-binding protein PTBP1 promotes ATPase-dependent dissociation of the RNA helicase UPF1 to protect transcripts from nonsense-mediated mRNA decay

Sarah E. Fritz, Soumya Ranganathan, Clara D. Wang, J. Robert Hogg

2020Journal of Biological Chemistry55 citationsDOIOpen Access PDF

Abstract

helicase activity, dissociation of UPF1 from purified mRNPs, and transcriptome-wide UPF1 RNA binding, we present the mechanistic basis for inhibition of NMD by PTBP1. Unlike mechanisms of RNA stabilization that depend on direct competition for binding sites among protective RNA-binding proteins and decay factors, PTBP1 promotes displacement of UPF1 already bound to potential substrates. Our results show that PTBP1 directly exploits the tendency of UPF1 to release RNA upon ATP binding and hydrolysis. We further find that UPF1 sensitivity to PTBP1 is coordinated by a regulatory loop in domain 1B of UPF1. We propose that the UPF1 regulatory loop and protective proteins control kinetic proofreading of potential NMD substrates, presenting a new model for RNA helicase regulation and target selection in the NMD pathway.

Topics & Concepts

Nonsense-mediated decayRNARNA Helicase ARNA-binding proteinBiologyRibonucleoproteinCell biologyHeterogeneous ribonucleoprotein particlePolypyrimidine tract-binding proteinPoly(A)-binding proteinMolecular biologyHelicaseRNA splicingChemistryBiochemistryGeneRNA Research and SplicingRNA and protein synthesis mechanismsRNA modifications and cancer