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在3-硝基丙酸处理的细胞中,超氧阴离子生成在线粒体电子传递链上的定位。

Localization of superoxide anion production to mitochondrial electron transport chain in 3-NPA-treated cells.

作者信息

Bacsi Attila, Woodberry Mitchell, Widger William, Papaconstantinou John, Mitra Sankar, Peterson Johnny W, Boldogh Istvan

机构信息

Department of Microbiology and Immunology, University of Texas Medical Branch at Galveston, Galveston, TX 77555, USA.

出版信息

Mitochondrion. 2006 Oct;6(5):235-44. doi: 10.1016/j.mito.2006.07.008. Epub 2006 Aug 3.

DOI:10.1016/j.mito.2006.07.008
PMID:17011837
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC3031911/
Abstract

3-Nitropropionic acid (3-NPA), an inhibitor of succinate dehydrogenase (SDH) at complex II of the mitochondrial electron transport chain induces cellular energy deficit and oxidative stress-related neurotoxicity. In the present study, we identified the site of reactive oxygen species production in mitochondria. 3-NPA increased O2- generation in mitochondria respiring on the complex I substrates pyruvate+malate, an effect fully inhibited by rotenone. Antimycin A increased O2- production in the presence of complex I and/or II substrates. Addition of 3-NPA markedly increased antimycin A-induced O2- production by mitochondria incubated with complex I substrates, but 3-NPA inhibited O2- formation driven with the complex II substrate succinate. At 0.6 microM, myxothiazol inhibits complex III, but only partially decreases complex I activity, and allowed 3-NPA-induced O2- formation; however, at 40 microM myxothiazol (which completely inhibits both complexes I and III) eliminated O2- production from mitochondria respiring via complex I substrates. These results indicate that in the presence of 3-NPA, mitochondria generate O2- from a site between the ubiquinol pool and the 3-NPA block in the respiratory complex II.

摘要

3-硝基丙酸(3-NPA)是线粒体电子传递链复合物II中琥珀酸脱氢酶(SDH)的抑制剂,可诱导细胞能量缺乏和氧化应激相关的神经毒性。在本研究中,我们确定了线粒体中活性氧产生的部位。3-NPA增加了在复合物I底物丙酮酸+苹果酸上呼吸的线粒体中的超氧阴离子生成,鱼藤酮可完全抑制这一效应。抗霉素A在存在复合物I和/或II底物的情况下增加了超氧阴离子的产生。添加3-NPA显著增加了用复合物I底物孵育的线粒体中抗霉素A诱导的超氧阴离子产生,但3-NPA抑制了由复合物II底物琥珀酸驱动的超氧阴离子形成。在0.6微摩尔浓度下,粘噻唑抑制复合物III,但仅部分降低复合物I的活性,并允许3-NPA诱导的超氧阴离子形成;然而,在40微摩尔浓度的粘噻唑(可完全抑制复合物I和III)下,消除了通过复合物I底物呼吸的线粒体中的超氧阴离子产生。这些结果表明,在存在3-NPA的情况下,线粒体从泛醇池和呼吸复合物II中的3-NPA阻断位点之间的一个部位产生超氧阴离子。

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