• 主题
高级搜索  >
历史搜索 清空历史
首页> 美国卫生研究院文献>American Journal of Physiology - Heart and Circulatory Physiology >Novel Mechanisms of Myocardial Ischemia Ischemia-Reperfusion and Protection by Myocardial Conditioning: Intermediary metabolism and fatty acid oxidation: novel targets of electron transport chain-driven injury during ischemia and reperfusion
【2h】

Novel Mechanisms of Myocardial Ischemia Ischemia-Reperfusion and Protection by Myocardial Conditioning: Intermediary metabolism and fatty acid oxidation: novel targets of electron transport chain-driven injury during ischemia and reperfusion

机译:心肌缺血缺血再灌注和心肌条件保护的新机制:中间代谢和脂肪酸氧化:缺血和再灌注过程中电子运输链驱动损伤的新靶点

代理获取
本网站仅为用户提供外文OA文献查询和代理获取服务,本网站没有原文。下单后我们将采用程序或人工为您竭诚获取高质量的原文,但由于OA文献来源多样且变更频繁,仍可能出现获取不到、文献不完整或与标题不符等情况,如果获取不到我们将提供退款服务。请知悉。
页面导航
  • 摘要
  • 著录项
  • 相似文献
  • 相关主题

摘要

Cardiac ischemia-reperfusion (I/R) damages the electron transport chain (ETC), causing mitochondrial and cardiomyocyte injury. Reversible blockade of the ETC at complex I during ischemia protects the ETC and decreases cardiac injury. In the present study, we used an unbiased proteomic approach to analyze the extent of ETC-driven mitochondrial injury during I/R. Isolated-perfused mouse (C57BL/6) hearts underwent 25-min global ischemia (37°C) and 30-min reperfusion. In treated hearts, amobarbital (2 mM) was given for 1 min before ischemia to rapidly and reversibly block the ETC at complex I. Mitochondria were isolated at the end of reperfusion and subjected to unbiased proteomic analysis using tryptic digestion followed by liquid chromatography-mass spectrometry with isotope tags for relative and absolute quantification. Amobarbital treatment decreased cardiac injury and protected respiration. I/R decreased the content (P < 0.05) of multiple mitochondrial matrix enzymes involved in intermediary metabolism compared with the time control. The contents of several enzymes in fatty acid oxidation were decreased compared with the time control. Blockade of ETC during ischemia largely prevented the decreases. Thus, after I/R, not only the ETC but also multiple pathways of intermediary metabolism sustain damage initiated by the ETC. If these damaged mitochondria persist in the myocyte, they remain a potent stimulus for ongoing injury and the transition to cardiomyopathy during prolonged reperfusion. Modulation of ETC function during early reperfusion is a key strategy to preserve mitochondrial metabolism and to decrease persistent mitochondria-driven injury during longer periods of reperfusion that predispose to ventricular dysfunction and heart failure.>NEW & NOTEWORTHY Ischemia-reperfusion (I/R) damages mitochondria, which could be protected by reversible blockade of the electron transport chain (ETC). Unbiased proteomics with isotope tags for relative and absolute quantification analyzed mitochondrial damage during I/R and found that multiple enzymes in the tricarboxylic acid cycle, fatty acid oxidation, and ETC decreased, which could be prevented by ETC blockade. Strategic ETC modulation can reduce mitochondrial damage and cardiac injury.
机译:心脏缺血再灌注(I / R)会破坏电子传输链(ETC),从而导致线粒体和心肌细胞损伤。在局部缺血期间,复合物I对ETC的可逆性阻断可保护ETC并减少心脏损伤。在本研究中,我们使用无偏蛋白质组学方法来分析I / R期间ETC驱动的线粒体损伤的程度。离体灌注的小鼠(C57BL / 6)心脏经历了25分钟的整体缺血(37°C)和30分钟的再灌注。在接受治疗的心脏中,在缺血前给予阿莫巴比妥(2 mM)1分钟以快速且可逆地阻断复合物I的ETC。再灌注结束时分离线粒体,并通过胰蛋白酶消化进行无偏蛋白质组学分析,然后进行液相色谱-质谱分析同位素标记的光谱分析法可进行相对和绝对定量。氨巴比妥治疗可减少心脏损伤并保护呼吸。与时间控制相比,I / R降低了参与中间代谢的多种线粒体基质酶的含量(P <0.05)。与时间对照相比,脂肪酸氧化中几种酶的含量降低。缺血期间ETC的阻滞很大程度上阻止了这种下降。因此,在I / R之后,不仅ETC,而且中介代谢的多种途径都承受着由ETC引发的损害。如果这些受损的线粒体持续存在于心肌细胞中,则它们仍然是持续的损伤和长时间再灌注过程中向心肌病过渡的有效刺激物。早期再灌注过程中ETC功能的调节是一项重要策略,可在较长的再灌注期间保持线粒体代谢并减少持续的线粒体驱动损伤,这易导致心室功能障碍和心力衰竭。> NEW&NOTEWORTHY 缺血再灌注(I / R)破坏线粒体,可以通过电子传输链(ETC)的可逆性阻断来保护。使用同位素标签进行相对和绝对定量的无偏蛋白质组学分析了I / R期间的线粒体损伤,发现三羧酸循环,脂肪酸氧化和ETC中的多种酶减少,这可以通过ETC阻断来预防。战略性的ETC调节可以减少线粒体损伤和心脏损伤。

著录项

相似文献

  • 外文文献
  • 中文文献
  • 专利
代理获取

客服邮箱:kefu@zhangqiaokeyan.com

京公网安备:11010802029741号 ICP备案号:京ICP备15016152号-6 六维联合信息科技 (北京) 有限公司©版权所有

  • 客服微信

  • 服务号