线粒体钾通道：新的性质和功能

IF 3.4 2区生物学 Q2 BIOCHEMISTRY & MOLECULAR BIOLOGY

Biochimica et Biophysica Acta-Bioenergetics Pub Date : 2025-02-09 DOI:10.1016/j.bbabio.2025.149546

Adam Szewczyk , Piotr Bednarczyk , Bogusz Kulawiak , Monika Żochowska , Barbara Kalenik , Joanna Lewandowska , Karolina Pytlak , Shur Gałecka , Antoni Wrzosek , Piotr Koprowski

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引用次数: 0

摘要

线粒体最近涉及细胞保护、细胞衰老、肿瘤代谢和炎症等现象。这些过程的基础依赖于线粒体的生化功能，如活性氧的合成或生物物理特性，如线粒体内膜的完整性。钾离子的转运在所有这些过程中起着重要作用。K+内流是由存在于线粒体内膜的钾离子通道介导的。在本文中，我们概述了线粒体大电导钙激活和线粒体atp调节钾通道特性的新发现。这涉及线粒体钾通道在细胞衰老中的作用，以及与其他线粒体蛋白或小分子（如槲皮素、血红素和硫化氢）的相互作用。我们还讨论了线粒体钾离子通道的研究前景。

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Mitochondrial potassium channels: New properties and functions

Mitochondria are recently implicated in phenomena such as cytoprotection, cellular senescence, tumor metabolism, and inflammation. The basis of these processes relies on biochemical functions of mitochondria such as the synthesis of reactive oxygen species or biophysical properties such as the integrity of the inner mitochondrial membrane. The transport of potassium cations plays an important role in all these events. The K⁺ influx is mediated by potassium channels present in the inner mitochondrial membrane. In this article, we present an overview of our new findings on the properties of mitochondrial large-conductance calcium-activated and mitochondrial ATP-regulated potassium channels. This concerns the role of mitochondrial potassium channels in cellular senescence, and interactions with other mitochondrial proteins or small molecules such as quercetin, hemin, and hydrogen sulfide. We also discuss the prospects of research on potassium channels present in mitochondria.

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来源期刊

Biochimica et Biophysica Acta-Bioenergetics 生物-生化与分子生物学

CiteScore

9.50

自引率

7.00%

发文量

363

审稿时长

92 days

期刊介绍： BBA Bioenergetics covers the area of biological membranes involved in energy transfer and conversion. In particular, it focuses on the structures obtained by X-ray crystallography and other approaches, and molecular mechanisms of the components of photosynthesis, mitochondrial and bacterial respiration, oxidative phosphorylation, motility and transport. It spans applications of structural biology, molecular modeling, spectroscopy and biophysics in these systems, through bioenergetic aspects of mitochondrial biology including biomedicine aspects of energy metabolism in mitochondrial disorders, neurodegenerative diseases like Parkinson''s and Alzheimer''s, aging, diabetes and even cancer.