The mechanism of copper homeostasis and its role in disease

iLABMED Pub Date : 2023-08-08 DOI:10.1002/ila2.22
Yunhui Li, Jing Liang, Yuan Chen, Yajie Wang
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Abstract

Copper (Cuprum) is an essential trace metal indispensable for the function of numerous enzymatic molecules implicated in cellular metabolism. Emerging evidence has demonstrated the role of copper in angiogenesis and cellular signaling. Moreover, raised copper levels have been detected in hepatocellular carcinoma and other cancers. An inherited or acquired copper imbalance, including inadequately low or excessively high copper levels, as well as inappropriate copper distribution in the body, is implicated in a number of diseases. In addition, a recent groundbreaking study identified a copper-induced type of programmed cell death named cuprotosis, the mechanism of which greatly deferred from that of other known cell death modes. The first part provides an overview of the regulation of copper homeostasis and discusses the underlying mechanisms of cuprotosis. In the second part, the authors focus on the functions of copper in liver diseases and other metabolic disorders, before discussing how this knowledge could contribute to the development of effective targets to treat such diseases.

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铜稳态机制及其在疾病中的作用
铜(铜)是一种重要的微量金属,对参与细胞代谢的许多酶分子的功能不可或缺。新出现的证据证明了铜在血管生成和细胞信号传导中的作用。此外,在肝细胞癌和其他癌症中检测到铜含量升高。遗传性或后天性铜失衡,包括铜水平过低或过高,以及铜在体内分布不当,与多种疾病有关。此外,最近的一项突破性研究确定了一种铜诱导的程序性细胞死亡类型,称为铜中毒,其机制与其他已知的细胞死亡模式截然不同。第一部分概述了铜稳态的调节,并讨论了铜中毒的潜在机制。在第二部分中,作者重点讨论了铜在肝病和其他代谢紊乱中的作用,然后讨论了这些知识如何有助于开发治疗此类疾病的有效靶点。
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