FTO suppresses DNA repair by inhibiting PARP1

被引:0
|
作者
Tianyi Zhu [1 ]
Jing Zhi Anson Tan [1 ]
Lingrui Zhang [1 ]
He Huang [1 ]
Sooraj S. Das [2 ]
Flora Cheng [1 ]
Pranesh Padmanabhan [3 ]
Mathew J. K. Jones [1 ]
Mihwa Lee [4 ]
Albert Lee [5 ]
Jocelyn Widagdo [6 ]
Victor Anggono [7 ]
机构
[1] The University of Queensland,Clem Jones Centre for Ageing Dementia Research, Queensland Brain Institute, Faculty of Health, Medicine and Behavioural Sciences
[2] Johns Hopkins University School of Medicine,The Solomon H. Snyder Department of Neuroscience
[3] Macquarie University,Motor Neuron Disease Research Centre, Macquarie Medical School, Faculty of Medicine Health and Human Sciences
[4] The University of Queensland,School of Biomedical Sciences, Faculty of Health, Medicine and Behavioural Sciences
[5] NHMRC Centre for Research Excellence in Mechanisms in NeuroDegeneration – Alzheimer’s Disease (MIND-AD CRE),Frazer Institute, Faculty of Health, Medicine and Behavioural Sciences
[6] The University of Queensland,School of Chemistry & Molecular Biosciences, Faculty of Science
[7] The University of Queensland,Department of Biochemistry and Chemistry, La Trobe Institute for Molecular Science
[8] La Trobe University,School of Chemistry, Bio21 Molecular Science and Biotechnology Institute
[9] University of Melbourne,undefined
来源
Nature Communications | / 16卷 / 1期
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D O I
10.1038/s41467-025-58309-0
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摘要
Maintaining genomic integrity and faithful transmission of genetic information is essential for the survival and proliferation of cells and organisms. DNA damage, which threatens the integrity of the genome, is rapidly sensed and repaired by mechanisms collectively known as the DNA damage response. The RNA demethylase FTO has been implicated in this process; however, the underlying mechanism by which FTO regulates DNA repair remains unclear. Here, we use an unbiased quantitative proteomic approach to identify the proximal interactome of endogenous FTO protein. Our results demonstrate a direct interaction with the DNA damage sensor protein PARP1, which dissociates upon ultraviolet stimulation. FTO inhibits PARP1 catalytic activity and controls its clustering in the nucleolus. Loss of FTO enhances PARP1 enzymatic activity and the rate of PARP1 recruitment to DNA damage sites, accelerating DNA repair and promoting cell survival. Interestingly, FTO regulates PARP1 function and DNA damage response independent of its catalytic activity. We conclude that FTO is an endogenous negative regulator of PARP1 and the DNA damage response in cells beyond its role as an RNA demethylase.
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