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Nuclear RNA binding regulates TDP-43 nuclear localization and passive nuclear export

Lauren Duan, Benjamin L. Zaepfel, Vasilisa Aksenova, Mary Dasso, Jeffrey D. Rothstein, Petr Kaláb, Lindsey R. Hayes

2022Cell Reports114 citationsDOIOpen Access PDF

Abstract

Nuclear clearance of the RNA-binding protein TDP-43 is a hallmark of neurodegeneration and an important therapeutic target. Our current understanding of TDP-43 nucleocytoplasmic transport does not fully explain its predominantly nuclear localization or mislocalization in disease. Here, we show that TDP-43 exits nuclei by passive diffusion, independent of facilitated mRNA export. RNA polymerase II blockade and RNase treatment induce TDP-43 nuclear efflux, suggesting that nuclear RNAs sequester TDP-43 in nuclei and limit its availability for passive export. Induction of TDP-43 nuclear efflux by short, GU-rich oligomers (presumably by outcompeting TDP-43 binding to endogenous nuclear RNAs), and nuclear retention conferred by splicing inhibition, demonstrate that nuclear TDP-43 localization depends on binding to GU-rich nuclear RNAs. Indeed, RNA-binding domain mutations markedly reduce TDP-43 nuclear localization and abolish transcription blockade-induced nuclear efflux. Thus, the nuclear abundance of GU-RNAs, dictated by the balance of transcription, pre-mRNA processing, and RNA export, regulates TDP-43 nuclear localization.

Topics & Concepts

Nuclear export signalNuclear transportRNACell nucleusRNA-binding proteinCell biologyNuclear localization sequenceTranscription (linguistics)Nuclear proteinBiologyRNA splicingTranscription factorChemistryBiochemistryGeneNucleusPhilosophyLinguisticsRNA Research and SplicingNeurogenetic and Muscular Disorders ResearchAmyotrophic Lateral Sclerosis Research