DRP1 抑制剂可挽救 CSA 疾病细胞模型中的线粒体完整性和过度凋亡。

DRP1 Inhibition Rescues Mitochondrial Integrity and Excessive Apoptosis in CS-A Disease Cell Models.

机构信息

Institute of Crystallography, Consiglio Nazionale delle Ricerche, 00015 Rome, Italy.

Department of Environment and Health, Istituto Superiore di Sanità, 00161 Rome, Italy.

出版信息

Int J Mol Sci. 2021 Jul 1;22(13):7123. doi: 10.3390/ijms22137123.

DOI:10.3390/ijms22137123

PMID:34281194

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC8268695/

Abstract

Cockayne syndrome group A (CS-A) is a rare recessive progeroid disorder characterized by sun sensitivity and neurodevelopmental abnormalities. Cells derived from CS-A patients present as pathological hallmarks excessive oxidative stress, mitochondrial fragmentation and apoptosis associated with hyperactivation of the mitochondrial fission dynamin related protein 1 (DRP1). In this study, by using human cell models we further investigated the interplay between DRP1 and CSA and we determined whether pharmacological or genetic inhibition of DRP1 affects disease progression. Both reactive oxygen and nitrogen species are in excess in CS-A cells and when the mitochondrial translocation of DRP1 is inhibited a reduction of these species is observed together with a recovery of mitochondrial integrity and a significant decrease of apoptosis. This study indicates that the CSA-driven modulation of DRP1 pathway is key to control mitochondrial homeostasis and apoptosis and suggests DRP1 as a potential target in the treatment of CS patients.

摘要

Cockayne 综合征 A 型（CS-A）是一种罕见的隐性进行性早衰疾病，其特征为对阳光敏感和神经发育异常。CS-A 患者来源的细胞表现出过度氧化应激、线粒体碎片化和凋亡的病理特征，这与线粒体分裂 dynamin 相关蛋白 1（DRP1）的过度激活有关。在这项研究中，我们进一步使用人类细胞模型研究了 DRP1 和 CSA 之间的相互作用，并确定了 DRP1 的药理学或遗传学抑制是否会影响疾病进展。CS-A 细胞中活性氧和活性氮物种过多，当抑制 DRP1 的线粒体易位时，这些物质的减少伴随着线粒体完整性的恢复和凋亡的显著减少。这项研究表明，CSA 驱动的 DRP1 通路的调节是控制线粒体动态平衡和凋亡的关键，并提示 DRP1 可能是治疗 CS 患者的潜在靶点。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/74f6/8268695/03665f54bd25/ijms-22-07123-g001.jpg

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DRP1 抑制剂可挽救 CSA 疾病细胞模型中的线粒体完整性和过度凋亡。

DRP1 Inhibition Rescues Mitochondrial Integrity and Excessive Apoptosis in CS-A Disease Cell Models.

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