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2,3,7,8-四氯二苯并对二恶英通过改变线粒体F(0)F(1)-ATP合酶和泛醌降低ATP水平并增加活性氧的产生。

TCDD decreases ATP levels and increases reactive oxygen production through changes in mitochondrial F(0)F(1)-ATP synthase and ubiquinone.

作者信息

Shertzer Howard G, Genter Mary Beth, Shen Dongxiao, Nebert Daniel W, Chen Ying, Dalton Timothy P

机构信息

Department of Environmental Health and Center for Environmental Genetics, University of Cincinnati Medical Center, P.O. Box 670056 Cincinnati, OH 45267-0056, USA.

出版信息

Toxicol Appl Pharmacol. 2006 Dec 15;217(3):363-74. doi: 10.1016/j.taap.2006.09.014. Epub 2006 Oct 4.

DOI:10.1016/j.taap.2006.09.014
PMID:17109908
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC1783833/
Abstract

Mitochondria generate ATP and participate in signal transduction and cellular pathology and/or cell death. TCDD (2,3,7,8-tetrachlorodibenzo-p-dioxin) decreases hepatic ATP levels and generates mitochondrial oxidative DNA damage, which is exacerbated by increasing mitochondrial glutathione redox state and by inner membrane hyperpolarization. This study identifies mitochondrial targets of TCDD that initiate and sustain reactive oxygen production and decreased ATP levels. One week after treating mice with TCDD, liver ubiquinone (Q) levels were significantly decreased, while rates of succinoxidase and Q-cytochrome c oxidoreductase activities were increased. However, the expected increase in Q reduction state following TCDD treatment did not occur; instead, Q was more oxidized. These results could be explained by an ATP synthase defect, a premise supported by the unusual finding that TCDD lowers ATP/O ratios without concomitant changes in respiratory control ratios. Such results suggest either a futile cycle in ATP synthesis, or hydrolysis of newly synthesized ATP prior to release. The TCDD-mediated decrease in Q, concomitant with an increase in respiration, increases complex 3 redox cycling. This acts in concert with glutathione to increase membrane potential and reactive oxygen production. The proposed defect in ATP synthase explains both the greater respiratory rates and the lower tissue ATP levels.

摘要

线粒体产生三磷酸腺苷(ATP),并参与信号转导、细胞病理和/或细胞死亡过程。2,3,7,8-四氯二苯并对二恶英(TCDD)可降低肝脏ATP水平,并导致线粒体氧化性DNA损伤,线粒体谷胱甘肽氧化还原状态的增加以及内膜超极化会加剧这种损伤。本研究确定了TCDD的线粒体靶点,这些靶点启动并维持活性氧的产生以及ATP水平的降低。用TCDD处理小鼠一周后,肝脏泛醌(Q)水平显著降低,而琥珀酸氧化酶和Q-细胞色素c氧化还原酶的活性增加。然而,TCDD处理后预期的Q还原状态增加并未出现;相反,Q的氧化程度更高。这些结果可以用ATP合酶缺陷来解释,这一假设得到了一个不寻常发现的支持,即TCDD降低了ATP/O比率,而呼吸控制比率没有随之改变。这样的结果表明ATP合成中存在无效循环,或者新合成的ATP在释放之前就被水解了。TCDD介导的Q减少,伴随着呼吸增加,会增加复合物3的氧化还原循环。这与谷胱甘肽协同作用,增加膜电位和活性氧的产生。所提出的ATP合酶缺陷解释了更高的呼吸速率和更低的组织ATP水平。

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