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电压依赖性阴离子通道功能的演变:从分子筛到“管理者”再到铁死亡的驱动者

Evolution of Voltage-Dependent Anion Channel Function: From Molecular Sieve to Governator to Actuator of Ferroptosis.

作者信息

Lemasters John J

机构信息

Center for Cell Death, Injury and Regeneration, Department of Drug Discovery and Biomedical Sciences, Medical University of South Carolina, Charleston, SC, United States.

Department of Biochemistry and Molecular Biology, Medical University of South Carolina, Charleston, SC, United States.

出版信息

Front Oncol. 2017 Dec 19;7:303. doi: 10.3389/fonc.2017.00303. eCollection 2017.

DOI:10.3389/fonc.2017.00303
PMID:29312883
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC5742158/
Abstract

The voltage-dependent anion channel (VDAC) is well known as the pathway for passive diffusion of anionic hydrophilic mitochondrial metabolites across the outer membrane, but a more complex functionality of the three isoforms of VDAC has emerged, as addressed in the Research Topic on "Uncovering the Function of the Mitochondrial Protein VDAC in Health and Disease: from Structure-Function to Novel Therapeutic Strategies." VDAC as the single most abundant protein in mitochondrial outer membranes is typically involved in isoform-specific interactions of the mitochondrion with its surroundings as, for example, during mitochondria-dependent pathways of cell death. VDAC closure can also act as an adjustable limiter (governator) of global mitochondrial metabolism, as during hepatic ethanol metabolism to promote selective oxidation of membrane-permeant acetaldehyde. In cancer cells, high free tubulin inhibits VDAC1 and VDAC2, contributing to suppression of mitochondrial function in the Warburg phenomenon. Erastin, the canonical inducer of ferroptosis, opens VDAC in the presence of tubulin and hyperpolarizes mitochondria, leading to mitochondrial production of reactive oxygen species, mitochondrial dysfunction, and cell death. Our understanding of VDAC function continues to evolve.

摘要

电压依赖性阴离子通道(VDAC)作为阴离子亲水性线粒体代谢产物跨外膜被动扩散的途径而广为人知,但正如“揭示线粒体蛋白VDAC在健康与疾病中的功能:从结构功能到新型治疗策略”这一研究专题中所探讨的,VDAC三种同工型的功能更为复杂。VDAC作为线粒体外膜中含量最丰富的单一蛋白质,通常参与线粒体与其周围环境的同工型特异性相互作用,例如在细胞死亡的线粒体依赖性途径中。VDAC的关闭还可作为全局线粒体代谢的可调限制器(调控器),如在肝脏乙醇代谢过程中促进膜通透性乙醛的选择性氧化。在癌细胞中,高游离微管蛋白会抑制VDAC1和VDAC2,导致沃伯格效应中线粒体功能受到抑制。铁死亡的典型诱导剂埃拉司亭在微管蛋白存在的情况下会打开VDAC并使线粒体超极化,导致线粒体产生活性氧、线粒体功能障碍和细胞死亡。我们对VDAC功能的理解仍在不断发展。

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本文引用的文献

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Voltage-Dependent Anion Channel 1 As an Emerging Drug Target for Novel Anti-Cancer Therapeutics.电压依赖性阴离子通道1作为新型抗癌治疗的新兴药物靶点。
Front Oncol. 2017 Jul 31;7:154. doi: 10.3389/fonc.2017.00154. eCollection 2017.
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VDAC-Tubulin, an Anti-Warburg Pro-Oxidant Switch.电压依赖性阴离子通道-微管蛋白,一种抗瓦伯格效应的促氧化开关。
Front Oncol. 2017 Jan 23;7:4. doi: 10.3389/fonc.2017.00004. eCollection 2017.
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VDAC3 As a Potential Marker of Mitochondrial Status Is Involved in Cancer and Pathology.电压依赖性阴离子通道3作为线粒体状态的潜在标志物与癌症及病理学相关。
Front Oncol. 2016 Dec 23;6:264. doi: 10.3389/fonc.2016.00264. eCollection 2016.
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The Association of VDAC with Cell Viability of PC12 Model of Huntington's Disease.电压依赖性阴离子通道与亨廷顿舞蹈病PC12模型细胞活力的关系
Front Oncol. 2016 Nov 11;6:238. doi: 10.3389/fonc.2016.00238. eCollection 2016.
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VDAC electronics: 3. VDAC-Creatine kinase-dependent generation of the outer membrane potential in respiring mitochondria.电压依赖性阴离子通道电子学:3. 呼吸状态下线粒体中由电压依赖性阴离子通道-肌酸激酶介导的外膜电位的产生
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Acute ethanol causes hepatic mitochondrial depolarization in mice: role of ethanol metabolism.急性乙醇导致小鼠肝脏线粒体去极化:乙醇代谢的作用。
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VDAC electronics: 2. A new, anaerobic mechanism of generation of the membrane potentials in mitochondria.电压依赖性阴离子通道电子学:2. 线粒体膜电位产生的一种新的厌氧机制。
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Mitochondria as a source of reactive oxygen and nitrogen species: from molecular mechanisms to human health.线粒体作为活性氧和氮物种的来源:从分子机制到人类健康。
Antioxid Redox Signal. 2013 Jun 1;18(16):2029-74. doi: 10.1089/ars.2012.4729. Epub 2013 Feb 19.

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