Mateusz Jurga scite author profile

A hexanucleotide repeat expansion represents the most common genetic cause of amyotrophic lateral sclerosis (ALS) and frontotemporal dementia, though the mechanisms by which the expansion cause neurodegeneration are poorly understood. We report elevated levels of DNA/RNA hybrids (R-loops) and double-strand breaks (DSBs) in rodent neurons, human cells, and in C9orf72-ALS patient spinal cord tissues. Accumulation of endogenous DNA damage is concomitant with defective ATM-mediated DNA repair signalling and accumulation of protein-linked DNA breaks. We further reveal that defective ATM-mediated DNA repair is a consequence of p62 accumulation, which impairs H2A ubiquitylation and perturbs ATM signalling. Adeno-associated virus-mediated expression of C9orf72-related RNA and dipeptide repeats in the murine central nervous system causes elevated DSBs, ATM defects, and triggers neurodegeneration. These findings identify R-Loops, DSBs, and defective ATM-mediated repair as pathological consequences of C9orf72 expansions, and suggest that C9orf72-linked neurodegeneration is driven, at least in part, by genomic instability.

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USP11 controls R-loops by regulating senataxin proteostasis

Jurga

Abugable

Goldman

et al. 2021

Nat Commun

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R-loops are by-products of transcription that must be tightly regulated to maintain genomic stability and gene expression. Here, we describe a mechanism for the regulation of the R-loop-specific helicase, senataxin (SETX), and identify the ubiquitin specific peptidase 11 (USP11) as an R-loop regulator. USP11 de-ubiquitinates SETX and its depletion increases SETX K48-ubiquitination and protein turnover. Loss of USP11 decreases SETX steady-state levels and reduces R-loop dissolution. Ageing of USP11 knockout cells restores SETX levels via compensatory transcriptional downregulation of the E3 ubiquitin ligase, KEAP1. Loss of USP11 reduces SETX enrichment at KEAP1 promoter, leading to R-loop accumulation, enrichment of the endonuclease XPF and formation of double-strand breaks. Overexpression of KEAP1 increases SETX K48-ubiquitination, promotes its degradation and R-loop accumulation. These data define a ubiquitination-dependent mechanism for SETX regulation, which is controlled by the opposing activities of USP11 and KEAP1 with broad applications for cancer and neurological disease.

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A mechanism for oxidative damage repair at gene regulatory elements

Ray

Abugable

Parker

et al. 2022

Nature

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Oxidative genome damage is an unavoidable consequence of cellular metabolism.Promoters and enhancers are regions in the genome that are critical for converting the information stored in DNA to proteins essential for life. The formation and repair of oxidative DNA damage at promoters is important for this essential decoding process; however, we don't currently understand how it takes place. This study identifies a process that fulfils this function and describes its implication in disease.

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DNA Homeostasis and Senescence: Lessons from the Naked Mole Rat

Boughey

Jurga

El‐Khamisy

2021

IJMS

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As we age, our bodies accrue damage in the form of DNA mutations. These mutations lead to the generation of sub-optimal proteins, resulting in inadequate cellular homeostasis and senescence. The build-up of senescent cells negatively affects the local cellular micro-environment and drives ageing associated disease, including neurodegeneration. Therefore, limiting the accumulation of DNA damage is essential for healthy neuronal populations. The naked mole rats (NMR) are from eastern Africa and can live for over three decades in chronically hypoxic environments. Despite their long lifespan, NMRs show little to no biological decline, neurodegeneration, or senescence. Here, we discuss molecular pathways and adaptations that NMRs employ to maintain genome integrity and combat the physiological and pathological decline in organismal function.

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Faculty Opinions recommendation of Nucleolar RNA polymerase II drives ribosome biogenesis.

El‐Khamisy

Jurga

2020

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Faculty Opinions recommendation of Oncometabolites suppress DNA repair by disrupting local chromatin signalling.

El‐Khamisy

Jurga

2020

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Faculty Opinions recommendation of RAD51-dependent recruitment of TERRA lncRNA to telomeres through R-loops.

El‐Khamisy

Jurga

2020

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Mateusz Jurga

C9orf72 expansion disrupts ATM-mediated chromosomal break repair

USP11 controls R-loops by regulating senataxin proteostasis

A mechanism for oxidative damage repair at gene regulatory elements

DNA Homeostasis and Senescence: Lessons from the Naked Mole Rat

Faculty Opinions recommendation of Nucleolar RNA polymerase II drives ribosome biogenesis.

Faculty Opinions recommendation of Oncometabolites suppress DNA repair by disrupting local chromatin signalling.

Faculty Opinions recommendation of RAD51-dependent recruitment of TERRA lncRNA to telomeres through R-loops.

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