Laboratory of Intracellular Ion Channels, Nencki Institute of Experimental Biology, Polish Academy of Sciences, Warsaw, Poland.
Acta Biochim Pol. 2024 May 28;71:13126. doi: 10.3389/abp.2024.13126. eCollection 2024.
Mitochondrial investigations have extended beyond their traditional functions, covering areas such as ATP synthesis and metabolism. Mitochondria are now implicated in new functional areas such as cytoprotection, cellular senescence, tumor function and inflammation. The basis of these new areas still relies on fundamental biochemical/biophysical mitochondrial functions such as synthesis of reactive oxygen species, mitochondrial membrane potential, and the integrity of the inner mitochondrial membrane i.e., the passage of various molecules through the mitochondrial membranes. In this view transport of potassium cations, known as the potassium cycle, plays an important role. It is believed that K influx is mediated by various potassium channels present in the inner mitochondrial membrane. In this article, we present an overview of the key findings and characteristics of mitochondrial potassium channels derived from research of many groups conducted over the past 33 years. We propose a list of six fundamental observations and most important ideas dealing with mitochondrial potassium channels. We also discuss the contemporary challenges and future prospects associated with research on mitochondrial potassium channels.
线粒体的研究已经超出了其传统功能的范畴,涵盖了 ATP 合成和代谢等领域。线粒体现在涉及到新的功能领域,如细胞保护、细胞衰老、肿瘤功能和炎症。这些新领域的基础仍然依赖于基本的生化/生物物理线粒体功能,如活性氧物质的合成、线粒体膜电位以及线粒体内部膜的完整性,即各种分子通过线粒体膜的通道。在这种情况下,钾阳离子的运输,即钾循环,起着重要的作用。据信,K 内流是由线粒体内膜中存在的各种钾通道介导的。在本文中,我们总结了过去 33 年来许多研究小组的研究成果,概述了线粒体钾通道的关键发现和特征。我们提出了与线粒体钾通道有关的六个基本观察结果和最重要的观点。我们还讨论了与线粒体钾通道研究相关的当代挑战和未来前景。
