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蛋白质二硫键异构酶介导谷胱甘肽耗竭诱导的细胞毒性。

Protein disulfide isomerase mediates glutathione depletion-induced cytotoxicity.

作者信息

Okada Kazushi, Fukui Masayuki, Zhu Bao-Ting

机构信息

University of Kansas Medical Center, Department of Pharmacology, Toxicology and Therapeutics, Kansas City, 66160, USA; South University of Science and Technology of China, Department of Biology, Shenzhen, 518055, China.

University of Kansas Medical Center, Department of Pharmacology, Toxicology and Therapeutics, Kansas City, 66160, USA.

出版信息

Biochem Biophys Res Commun. 2016 Aug 26;477(3):495-502. doi: 10.1016/j.bbrc.2016.06.066. Epub 2016 Jun 15.

DOI:10.1016/j.bbrc.2016.06.066
PMID:27317486
Abstract

Glutathione depletion is a distinct cause underlying many forms of pathogenesis associated with oxidative stress and cytotoxicity. Earlier studies showed that glutamate-induced glutathione depletion in immortalized murine HT22 hippocampal neuronal cells leads to accumulation of reactive oxygen species (ROS) and ultimately cell death, but the precise mechanism underlying these processes is not clear. Here we show that during the induction of glutathione depletion, nitric oxide (NO) accumulation precedes ROS accumulation. While neuronal NO synthase (nNOS) in untreated HT22 cells exists mostly as a monomer, glutathione depletion results in increased formation of the dimer nNOS, accompanied by increases in the catalytic activity. We identified that nNOS dimerization is catalyzed by protein disulfide isomerase (PDI). Inhibition of PDI's isomerase activity effectively abrogates glutathione depletion-induced conversion of monomer nNOS into dimer nNOS, accumulation of NO and ROS, and cytotoxicity. Furthermore, we found that PDI is present in untreated cells in an inactive S-nitrosylated form, which becomes activated following glutathione depletion via S-denitrosylation. These results reveal a novel role for PDI in mediating glutathione depletion-induced oxidative cytotoxicity, as well as its role as a valuable therapeutic target for protection against oxidative cytotoxicity.

摘要

谷胱甘肽耗竭是许多与氧化应激和细胞毒性相关的发病机制的一个独特原因。早期研究表明,永生化小鼠HT22海马神经元细胞中谷氨酸诱导的谷胱甘肽耗竭会导致活性氧(ROS)积累并最终导致细胞死亡,但这些过程背后的确切机制尚不清楚。在这里,我们表明在谷胱甘肽耗竭的诱导过程中,一氧化氮(NO)的积累先于ROS的积累。在未处理的HT22细胞中,神经元型一氧化氮合酶(nNOS)大多以单体形式存在,而谷胱甘肽耗竭会导致二聚体nNOS的形成增加,同时催化活性也增加。我们确定nNOS二聚化是由蛋白质二硫键异构酶(PDI)催化的。抑制PDI的异构酶活性可有效消除谷胱甘肽耗竭诱导的单体nNOS向二聚体nNOS的转化、NO和ROS的积累以及细胞毒性。此外,我们发现PDI在未处理的细胞中以无活性的S-亚硝基化形式存在,在谷胱甘肽耗竭后通过S-去亚硝基化而被激活。这些结果揭示了PDI在介导谷胱甘肽耗竭诱导的氧化细胞毒性中的新作用,以及其作为预防氧化细胞毒性的有价值治疗靶点的作用。

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