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蛋白质S-谷胱甘肽化修饰的改变揭示了对乙酰氨基酚诱导的肝毒性产生抗性的一种潜在机制。

Altered protein S-glutathionylation identifies a potential mechanism of resistance to acetaminophen-induced hepatotoxicity.

作者信息

McGarry David J, Chakravarty Probir, Wolf C Roland, Henderson Colin J

机构信息

Molecular Pharmacology Group, School of Medicine, Jacqui Wood Cancer Centre, University of Dundee, Dundee, United Kingdom (D.J.M., C.R.W., C.J.H.); and Bioinformatics and Biostatistics Group, Cancer Research UK London Research Institute, London, United Kingdom (P.C.).

Molecular Pharmacology Group, School of Medicine, Jacqui Wood Cancer Centre, University of Dundee, Dundee, United Kingdom (D.J.M., C.R.W., C.J.H.); and Bioinformatics and Biostatistics Group, Cancer Research UK London Research Institute, London, United Kingdom (P.C.)

出版信息

J Pharmacol Exp Ther. 2015 Nov;355(2):137-44. doi: 10.1124/jpet.115.227389. Epub 2015 Aug 26.

Abstract

Acetaminophen (APAP) is the most commonly used over-the-counter analgesic. However, hepatotoxicity induced by APAP is a major clinical issue, and the factors that define sensitivity to APAP remain unclear. We have previously demonstrated that mice nulled for glutathione S-transferase Pi (GSTP) are resistant to APAP-induced hepatotoxicity. This study aims to exploit this difference to delineate pathways of importance in APAP toxicity. We used mice nulled for GSTP and heme oxygenase-1 oxidative stress reporter mice, together with a novel nanoflow liquid chromatography-tandem mass spectrometry methodology to investigate the role of oxidative stress, cell signaling, and protein S-glutathionylation in APAP hepatotoxicity. We provide evidence that the sensitivity difference between wild-type and Gstp1/2(-/-) mice is unrelated to the ability of APAP to induce oxidative stress, despite observing significant increases in c-Jun N-terminal kinase and extracellular signal-regulated kinase phosphorylation in wild-type mice. The major difference in response to APAP was in the levels of protein S-glutathionylation: Gstp1/2(-/-) mice exhibited a significant increase in the number of S-glutathionylated proteins compared with wild-type animals. Remarkably, these S-glutathionylated proteins are involved in oxidative phosphorylation, respiratory complexes, drug metabolism, and mitochondrial apoptosis. Furthermore, we found that S-glutathionylation of the rate-limiting glutathione-synthesizing enzyme, glutamate cysteine ligase, was markedly increased in Gstp1/2(-/-) mice in response to APAP. The data demonstrate that S-glutathionylation provides an adaptive response to APAP and, as a consequence, suggest that this is an important determinant in APAP hepatotoxicity. This work identifies potential novel avenues associated with cell survival for the treatment of chemical-induced hepatotoxicity.

摘要

对乙酰氨基酚(APAP)是最常用的非处方镇痛药。然而,APAP诱导的肝毒性是一个主要的临床问题,而决定对APAP敏感性的因素仍不清楚。我们之前已经证明,谷胱甘肽S-转移酶Pi(GSTP)缺失的小鼠对APAP诱导的肝毒性具有抗性。本研究旨在利用这种差异来阐明APAP毒性中重要的途径。我们使用GSTP缺失的小鼠和血红素加氧酶-1氧化应激报告基因小鼠,结合一种新型的纳流液相色谱-串联质谱方法,来研究氧化应激、细胞信号传导和蛋白质S-谷胱甘肽化在APAP肝毒性中的作用。我们提供的证据表明,尽管在野生型小鼠中观察到c-Jun氨基末端激酶和细胞外信号调节激酶磷酸化显著增加,但野生型和Gstp1/2(-/-)小鼠之间的敏感性差异与APAP诱导氧化应激的能力无关。对APAP反应的主要差异在于蛋白质S-谷胱甘肽化水平:与野生型动物相比,Gstp1/2(-/-)小鼠中S-谷胱甘肽化蛋白质的数量显著增加。值得注意的是,这些S-谷胱甘肽化蛋白质参与氧化磷酸化、呼吸复合体、药物代谢和线粒体凋亡。此外,我们发现,在Gstp1/2(-/-)小鼠中,响应APAP时,限速谷胱甘肽合成酶谷氨酸半胱氨酸连接酶的S-谷胱甘肽化显著增加。数据表明,S-谷胱甘肽化对APAP提供了一种适应性反应,因此表明这是APAP肝毒性的一个重要决定因素。这项工作确定了与细胞存活相关的潜在新途径,用于治疗化学诱导的肝毒性。

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