抗氧化途径酶对活性氧清除的特异性区室控制

IF 4.9 1区 社会学 Q1 Social Sciences Stanford Law Review Pub Date : 2016-05-20 Epub Date: 2016-04-05 DOI:10.1074/jbc.M116.726968
Swati Dey, Agnieszka Sidor, Brian O'Rourke
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引用次数: 0

摘要

氧化应激源于活性氧(ROS)产生和清除率的失衡,是心血管疾病和衰老病理生理学的一个关键因素。由于存在并行途径和多个细胞内区室,每个区室都有自己的 ROS 源和抗氧化酶,这使得确定氧化还原网络最重要的调节节点变得更加复杂。在这里,我们对细胞质和线粒体中特定细胞内区室的 ROS 动态进行了量化,并确定了哪些清除酶对 H9c2 心肌细胞的抗氧化通量具有最大的控制作用。我们使用了新型靶向病毒基因转移载体,其表达的氧化还原敏感性 GFP 融合了传感器结构域,用于测量 H2O2 或氧化谷胱甘肽。通过对源自心脏的 H9c2 细胞进行遗传操作,我们探索了特定抗氧化酶对清除 ROS 和细胞内各区室中谷胱甘肽氧化还原电位的贡献。我们的研究结果表明,抗氧化通量在很大程度上依赖于线粒体底物分解,其中 NADPH 的可用性是一个主要的速率控制步骤。此外,线粒体清除 ROS 对细胞质 ROS 的处理也有重要作用。这些发现提供了氧化还原网络控制 ROS 清除的基本信息,并提出了规避心脏细胞氧化应激的新型干预措施。
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Compartment-specific Control of Reactive Oxygen Species Scavenging by Antioxidant Pathway Enzymes.

Oxidative stress arises from an imbalance in the production and scavenging rates of reactive oxygen species (ROS) and is a key factor in the pathophysiology of cardiovascular disease and aging. The presence of parallel pathways and multiple intracellular compartments, each having its own ROS sources and antioxidant enzymes, complicates the determination of the most important regulatory nodes of the redox network. Here we quantified ROS dynamics within specific intracellular compartments in the cytosol and mitochondria and determined which scavenging enzymes exert the most control over antioxidant fluxes in H9c2 cardiac myoblasts. We used novel targeted viral gene transfer vectors expressing redox-sensitive GFP fused to sensor domains to measure H2O2 or oxidized glutathione. Using genetic manipulation in heart-derived H9c2 cells, we explored the contribution of specific antioxidant enzymes to ROS scavenging and glutathione redox potential within each intracellular compartment. Our findings reveal that antioxidant flux is strongly dependent on mitochondrial substrate catabolism, with availability of NADPH as a major rate-controlling step. Moreover, ROS scavenging by mitochondria significantly contributes to cytoplasmic ROS handling. The findings provide fundamental information about the control of ROS scavenging by the redox network and suggest novel interventions for circumventing oxidative stress in cardiac cells.

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