肿瘤中的线粒体吞噬:敌人还是朋友。

Li Li, Fei Hu
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引用次数: 0

摘要

自噬是一种特定类型的自噬,也是一种更大规模的选择性自噬。它通过使用自噬溶酶体选择性地消除受损、错误折叠和多余的线粒体,特别是那些具有细胞毒性的线粒体。这一过程对于维持线粒体的质量和数量平衡至关重要,线粒体是正常细胞功能和组织发育所必需的。然而,在某些异常情况下,如营养缺乏和缺氧,线粒体自噬功能会受损。这导致无法及时清除受损的线粒体,导致大量活性氧的产生。这些活性氧进一步促进炎症反应和诱导细胞凋亡的因子的释放。此外,异常线粒体自噬还可导致线粒体功能障碍,在应激反应过程中破坏代谢重编程,改变细胞命运决定和分化,从而影响包括癌症在内的疾病的发展和进展。因此,线粒体自噬在控制癌症细胞质量方面起着至关重要的作用,因此研究其功能和影响势在必行。许多蛋白质和分子参与线粒体自噬的调节,其中Parkin和PTEN诱导的激酶1(PINK1)作为关键介质,缺氧相关蛋白缺氧诱导因子la(HIF1a)和FUN14结构域包含1(FUNDC1)也发挥作用。此外,染色质许可和DNA复制因子1(CDT-1)、胰岛素样生长因子1(IGF-1)、小窝蛋白1(Cav-1)等蛋白质以各种方式参与线粒体自噬的调节。本文旨在通过检测与线粒体自噬相关的因子和蛋白质及其调节作用,探讨线粒体自噬在肿瘤发生中的双重作用。本文旨在为癌症的治疗提供新的理论基础和方向。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Mitophagy in tumor: foe or friend?.

Mitophagy is a specific type of autophagy and a selective form of autophagy on a larger scale. It selectively eliminates damaged, misfolded, and surplus mitochondria, particularly those that are cytotoxic, by using autophagic lysosomes. This process is crucial for maintaining a balance of both the quality and quantity of mitochondria, which is necessary for normal cell function and tissue development. However, in certain abnormal situations, such as nutritional deficiencies and hypoxia, the function of mitophagy becomes impaired. This leads to a failure to clear damaged mitochondria in a timely manner, resulting in the production of a large number of reactive oxygen species. These reactive oxygen species further contribute to an inflammatory response and the release of factors that induce apoptosis. Moreover, abnormal mitophagy can also cause mitochondrial dysfunction, disrupt metabolic reprogramming during stress responses, alter cell fate decisions and differentiation, and consequently impact the development and progression of diseases, including cancer. Therefore, mitophagy plays a crucial role in controlling the quality of cancer cells, making it imperative to study its function and impact. Numerous proteins and molecules are involved in the regulation of mitophagy, with Parkin and PTEN-induced kinase 1 (PINK1) serving as key mediators, and the hypoxia-related proteins hypoxia-inducible factor la (HIF1a) and FUN14 domain-containing 1 (FUNDC1) also playing a role. Additionally, proteins such as chromatin licensing and DNA replication factor 1 (CDT-1), insulin-like growth factor 1 (IGF-1), caveolin 1 (Cav-1), and others contribute to the regulation of mitophagy in various ways. This article aims to explore the dual role of mitophagy in tumourigenesis by examining the factors and proteins associated with mitophagy and their regulatory effects. The objective of this review is to provide a new theoretical foundation and direction for cancer treatment.

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