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Cisd1与Cisd2协同作用,通过维持线粒体和内质网的稳态来调节蛋白质加工。

Cisd1 synergizes with Cisd2 to modulate protein processing by maintaining mitochondrial and ER homeostasis.

作者信息

Chen Yi-Fan, Teng Yuan-Chi, Yang Jian-Hsin, Kao Cheng-Heng, Tsai Ting-Fen

机构信息

International Master Program for Translation Science, College of Medical Science and Technology, Taipei Medical University, New Taipei City 23564, Taiwan.

The Ph.D. Program for Translational Medicine, College of Medical Science and Technology, Taipei Medical University, Taipei 11529, Taiwan.

出版信息

Aging (Albany NY). 2025 May 8;17(5):1275-1297. doi: 10.18632/aging.206249.

DOI:10.18632/aging.206249
PMID:40349253
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC12151500/
Abstract

Connection and crosstalk among the organelles critically contribute to cellular functions. Destruction of any kind of organelle is likely to induce a series of intracellular disorders and finally lead to cell death. Because of its subcellular locations, CDGSH iron-sulfur domain-containing protein 1 (Cisd1) and Cisd2 have functions that are related to maintaining mitochondria and ER homeostasis. As previous reports have shown, Cisd2 knockout mice have a decreased body weight and poor survival rate, and the primary defects were conducted in skeletal muscle. Our previous findings indicated that Cisd1 deletion causes a range of skeletal muscle defects in mice with Cisd2 deficiency, including mitochondrial degeneration, endoplasmic reticulum (ER) stress, and alteration of protein process, as well as programmed cell death. In Cisd1 and Cisd2 deficient condition, the whole of the protein biosynthesis was damaged, including translation, modification, transport, and degradation. Changes in the immune response, redox regulation, and metabolism were also present in Cisd1 and Cisd2 double knockout mice. Overall, we have demonstrated that Cisd1 and Cisd2 knockout have a synergistic effect on skeletal muscles, and that Cisd2 plays a more critical role than Cisd1. These synergistic effects impact signaling regulation and interrupt the crosstalk and homeostasis of organelles. This creates severe disorders in various tissues and organs.

摘要

细胞器之间的连接和相互作用对细胞功能至关重要。任何一种细胞器的破坏都可能引发一系列细胞内紊乱,最终导致细胞死亡。由于其亚细胞定位,含CDGSH铁硫结构域蛋白1(Cisd1)和Cisd2具有与维持线粒体和内质网稳态相关的功能。如先前报道所示,Cisd2基因敲除小鼠体重下降且存活率低,主要缺陷发生在骨骼肌中。我们之前的研究结果表明,Cisd1基因缺失会在Cisd2缺陷的小鼠中导致一系列骨骼肌缺陷,包括线粒体退化、内质网(ER)应激、蛋白质加工改变以及程序性细胞死亡。在Cisd1和Cisd2缺陷的情况下,整个蛋白质生物合成过程受损,包括翻译、修饰、运输和降解。Cisd1和Cisd2双基因敲除小鼠还出现免疫反应、氧化还原调节和代谢方面的变化。总体而言,我们已经证明Cisd1和Cisd2基因敲除对骨骼肌有协同作用,并且Cisd2比Cisd1发挥更关键的作用。这些协同效应影响信号调节并中断细胞器的相互作用和稳态。这在各种组织和器官中造成严重紊乱。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/15cd/12151500/edbb43f233af/aging-17-206249-g008.jpg
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https://cdn.ncbi.nlm.nih.gov/pmc/blobs/15cd/12151500/edbb43f233af/aging-17-206249-g008.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/15cd/12151500/2f3d3ba2b81d/aging-17-206249-g001.jpg
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本文引用的文献

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The correlation between mitochondria-associated endoplasmic reticulum membranes (MAMs) and Ca transport in the pathogenesis of diseases.线粒体相关内质网膜(MAMs)与疾病发病机制中钙转运的相关性。
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Mitochondrial CISD1/Cisd accumulation blocks mitophagy and genetic or pharmacological inhibition rescues neurodegenerative phenotypes in Pink1/parkin models.线粒体CISD1/Cisd的积累会阻断线粒体自噬,而基因或药物抑制可挽救Pink1/帕金模型中的神经退行性表型。
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Hesperetin activates CISD2 to attenuate senescence in human keratinocytes from an older person and rejuvenates naturally aged skin in mice.
橙皮苷激活 CISD2 以减轻老年人的人角质形成细胞衰老,并使自然衰老的小鼠皮肤恢复年轻。
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