铜通过下调 BNIP3 介导的有丝分裂,加剧了创伤性脑损伤后的突触损伤。

Hanxiao Chang, Weiwei Zhang, Lei Xu, Zheng Li, Chao Lin, Yuqi Shen, Guangjian Zhang, Lei Mao, Chencheng Ma, Ning Liu, Hua Lu
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引用次数: 0

摘要

突触损伤是创伤性脑损伤的一个重要病理过程。然而,人们对这一过程的驱动机制仍然知之甚少。在本报告中,我们证明了有丝分裂障碍导致的受损线粒体积累在造成突触损伤中起着重要作用。此外,铜诱导的 BNIP3 下调是调节有丝分裂的关键因素。DMSA 可通过促进尿液中铜的排泄来缓解突触损伤和线粒体功能障碍。从机理上讲,我们发现铜通过增加 NFKB 的核转位来下调 BNIP3,而 NFKB 的核转位是由 TRIM25 介导的 NFKBIA 泛素化依赖性降解触发的。我们的研究强调了铜积累在调控 BNIP3 介导的有丝分裂中的重要性,并表明针对铜-TRIM25-NFKB-BNIP3 轴的治疗有望减轻创伤性脑损伤后的突触损伤。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Copper aggravated synaptic damage after traumatic brain injury by downregulating BNIP3-mediated mitophagy.

Synaptic damage is a crucial pathological process in traumatic brain injury. However, the mechanisms driving this process remain poorly understood. In this report, we demonstrate that the accumulation of damaged mitochondria, resulting from impaired mitphagy, plays a significant role in causing synaptic damage. Moreover, copper induced downregulation of BNIP3 is a key player in regulating mitophagy. DMSA alleviates synaptic damage and mitochondrial dysfunction by promoting urinary excretion of copper. Mechanistically, we find that copper downregulate BNIP3 by increasing the nuclear translocation of NFKB, which is triggered by TRIM25-mediated ubiquitination-dependent degradation of NFKBIA. Our study underscores the importance of copper accumulation in the regulation of BNIP3-mediated mitophagy and suggests that therapeutic targeting of the copper-TRIM25-NFKB-BNIP3 axis holds promise to attenuate synaptic damage after traumatic brain injury.

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