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TDP-43 dysfunction results in R-loop accumulation and DNA replication defects

Matthew Wood, Annabel Quinet, Yea‐Lih Lin, Albert A. Davis, Philippe Pasero, Yuna M. Ayala, Alessandro Vindigni

2020Journal of Cell Science76 citationsDOIOpen Access PDF

Abstract

TAR DNA-binding protein 43 (TDP-43; also known as TARDBP) is an RNA-binding protein whose aggregation is a hallmark of the neurodegenerative disorders amyotrophic lateral sclerosis and frontotemporal dementia. TDP-43 loss increases DNA damage and compromises cell viability, but the actual function of TDP-43 in preventing genome instability remains unclear. Here, we show that loss of TDP-43 increases R-loop formation in a transcription-dependent manner and results in DNA replication stress. TDP-43 nucleic-acid-binding and self-assembly activities are important in inhibiting R-loop accumulation and preserving normal DNA replication. We also found that TDP-43 cytoplasmic aggregation impairs TDP-43 function in R-loop regulation. Furthermore, increased R-loop accumulation and DNA damage is observed in neurons upon loss of TDP-43. Together, our findings indicate that TDP-43 function and normal protein homeostasis are crucial in maintaining genomic stability through a co-transcriptional process that prevents aberrant R-loop accumulation. We propose that the increased R-loop formation and genomic instability associated with TDP-43 loss are linked to the pathogenesis of TDP-43 proteinopathies.This article has an associated First Person interview with the first author of the paper.

Topics & Concepts

BiologyReplication (statistics)DNA replicationGeneticsDNACell biologyComputational biologyVirologyAmyotrophic Lateral Sclerosis ResearchMitochondrial Function and PathologyGenetic Neurodegenerative Diseases
TDP-43 dysfunction results in R-loop accumulation and DNA replication defects | Litcius