线粒体去极化是异氟醚预处理延迟通透性转换的基础：ROS 和 Ca2+的作用。

Mitochondrial depolarization underlies delay in permeability transition by preconditioning with isoflurane: roles of ROS and Ca2+.

机构信息

Department of Anesthesiology and Physiology, Medical College of Wisconsin, Milwaukee, Wisconsin53226, USA.

出版信息

Am J Physiol Cell Physiol. 2010 Aug;299(2):C506-15. doi: 10.1152/ajpcell.00006.2010. Epub 2010 Jun 2.

DOI:10.1152/ajpcell.00006.2010

PMID:20519447

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC2928640/

Abstract

During reperfusion, the interplay between excess reactive oxygen species (ROS) production, mitochondrial Ca(2+) overload, and mitochondrial permeability transition pore (mPTP) opening, as the crucial mechanism of cardiomyocyte injury, remains intriguing. Here, we investigated whether an induction of a partial decrease in mitochondrial membrane potential (DeltaPsi(m)) is an underlying mechanism of protection by anesthetic-induced preconditioning (APC) with isoflurane, specifically addressing the interplay between ROS, Ca(2+), and mPTP opening. The magnitude of APC-induced decrease in DeltaPsi(m) was mimicked with the protonophore 2,4-dinitrophenol (DNP), and the addition of pyruvate was used to reverse APC- and DNP-induced decrease in DeltaPsi(m). In cardiomyocytes, DeltaPsi(m), ROS, mPTP opening, and cytosolic and mitochondrial Ca(2+) were measured using confocal microscope, and cardiomyocyte survival was assessed by Trypan blue exclusion. In isolated cardiac mitochondria, antimycin A-induced ROS production and Ca(2+) uptake were determined spectrofluorometrically. In cells exposed to oxidative stress, APC and DNP increased cell survival, delayed mPTP opening, and attenuated ROS production, which was reversed by mitochondrial repolarization with pyruvate. In isolated mitochondria, depolarization by APC and DNP attenuated ROS production, but not Ca(2+) uptake. However, in stressed cardiomyocytes, a similar decrease in DeltaPsi(m) attenuated both cytosolic and mitochondrial Ca(2+) accumulation. In conclusion, a partial decrease in DeltaPsi(m) underlies cardioprotective effects of APC by attenuating excess ROS production, resulting in a delay in mPTP opening and an increase in cell survival. Such decrease in DeltaPsi(m) primarily attenuates mitochondrial ROS production, with consequential decrease in mitochondrial Ca(2+) uptake.

摘要

在再灌注期间，细胞内活性氧（ROS）的产生、线粒体 Ca（2+）超载和线粒体通透性转换孔（mPTP）的开放之间的相互作用是心肌细胞损伤的关键机制，这仍然很吸引人。在这里，我们研究了麻醉诱导预处理（APC）用异氟醚诱导的部分线粒体膜电位（DeltaPsi(m)）下降是否是一种保护机制，特别是针对 ROS、Ca（2+）和 mPTP 开放之间的相互作用。质子载体 2,4-二硝基苯酚（DNP）模拟 APC 诱导的 DeltaPsi(m)下降幅度，并用丙酮酸逆转 APC 和 DNP 诱导的 DeltaPsi(m)下降。在心肌细胞中，使用共聚焦显微镜测量 DeltaPsi(m)、ROS、mPTP 开放以及胞质和线粒体 Ca（2+），并通过台盼蓝排斥试验评估心肌细胞存活率。在分离的心肌线粒体中，通过荧光光谱法测定抗霉素 A 诱导的 ROS 产生和 Ca（2+）摄取。在暴露于氧化应激的细胞中，APC 和 DNP 增加细胞存活率，延迟 mPTP 开放，并减轻 ROS 产生，用丙酮酸使线粒体再极化可逆转这一作用。在分离的线粒体中，APC 和 DNP 的去极化减弱了 ROS 的产生，但不减弱 Ca（2+）摄取。然而，在应激心肌细胞中，DeltaPsi(m)的相似下降既减轻了胞质 Ca（2+）又减轻了线粒体 Ca（2+）的积累。总之，通过减弱过量的 ROS 产生，APC 引起的 DeltaPsi(m)的部分下降为 APC 的心脏保护作用提供了基础，从而延迟 mPTP 的开放并增加细胞存活率。这种 DeltaPsi(m)的下降主要减弱了线粒体 ROS 的产生，从而减少了线粒体 Ca（2+）的摄取。

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