由TDP-43和突变型FUS胞质内含物形成所诱导的DNA损伤反应缺陷及其药物挽救。

DNA damage response defects induced by the formation of TDP-43 and mutant FUS cytoplasmic inclusions and their pharmacological rescue.

作者信息

Modafferi Stefania, Farina Stefania, Esposito Francesca, Brandi Ornella, Di Salvio Michela, Della Valle Ilaria, D'Uva Sara, Scarian Eveljn, Cicio Giada, Riccardi Adelaide, Pisati Federica, Garbelli Anna, Santini Tiziana, Pansarasa Orietta, Morlando Mariangela, D'Ambrosi Nadia, Cozzolino Mauro, Cestra Gianluca, d'Adda di Fagagna Fabrizio, Gioia Ubaldo, Francia Sofia

机构信息

Institute of Molecular Genetics "Luigi Luca Cavalli-Sforza", National Research Council (CNR), Pavia, Italy.

Department of Life, Health and Environmental Sciences, University of L'Aquila, L'Aquila, Italy.

出版信息

Cell Death Differ. 2025 May 29. doi: 10.1038/s41418-025-01530-7.

DOI:10.1038/s41418-025-01530-7

PMID:40437235

Abstract

Formation of cytoplasmic inclusions (CIs) of TDP-43 and FUS, along with DNA damage accumulation, is a hallmark of affected motor neurons in Amyotrophic Lateral Sclerosis (ALS). However, the impact of CIs on DNA damage response (DDR) and repair in this pathology remains unprobed. Here, we show that CIs of TDP-43 and FUS, co-localizing with stress granules, lead to a dysfunctional DDR activation associated with physical DNA breakage. Inhibition of the activity of the DDR kinase ATM, but not of ATR, abolishes DDR signaling, indicating that DNA double-strand breaks (DSBs) are the primary source of DDR activation. In addition, cells with TDP-43 and FUS CIs exhibit reduced DNA damage-induced RNA synthesis at DSBs. We previously showed that the two endoribonucleases DROSHA and DICER, also known to interact with TDP-43 and FUS during small RNA processing, contribute to DDR signaling at DSBs. Treatment with enoxacin, which stimulates DDR and repair by boosting the enzymatic activity of DICER, restores a proficient DDR and reduces DNA damage accumulation in cultured cells with CIs and in vivo in a murine model of ALS. In Drosophila melanogaster, Dicer-2 overexpression rescues TDP-43-mediated retinal degeneration. In summary, our results indicate that the harmful effects caused by TDP-43 and FUS CIs include genotoxic stress and that the pharmacological stimulation of the DNA damage signaling and repair counteracts it.

摘要

TDP - 43和FUS胞质内包涵体（CIs）的形成，连同DNA损伤积累，是肌萎缩侧索硬化症（ALS）中受影响运动神经元的一个标志。然而，在这种病理学中，CIs对DNA损伤反应（DDR）和修复的影响仍未得到探究。在这里，我们表明，与应激颗粒共定位的TDP - 43和FUS CIs导致了与物理性DNA断裂相关的功能失调的DDR激活。DDR激酶ATM活性的抑制，而非ATR活性的抑制，消除了DDR信号传导，表明DNA双链断裂（DSBs）是DDR激活的主要来源。此外，具有TDP - 43和FUS CIs的细胞在DSBs处表现出DNA损伤诱导的RNA合成减少。我们之前表明，两种核糖核酸内切酶DROSHA和DICER，在小RNA加工过程中也已知与TDP - 43和FUS相互作用，它们有助于DSBs处的DDR信号传导。通过增强DICER的酶活性来刺激DDR和修复的依诺沙星处理，可恢复正常的DDR，并减少具有CIs的培养细胞中以及ALS小鼠模型体内的DNA损伤积累。在果蝇中，Dicer - 2的过表达可挽救TDP - 43介导的视网膜变性。总之，我们的结果表明，TDP - 43和FUS CIs引起的有害影响包括基因毒性应激，并且DNA损伤信号传导和修复的药理学刺激可抵消这种影响。

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由TDP-43和突变型FUS胞质内含物形成所诱导的DNA损伤反应缺陷及其药物挽救。

DNA damage response defects induced by the formation of TDP-43 and mutant FUS cytoplasmic inclusions and their pharmacological rescue.

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