通过增加γ-谷氨酰半胱氨酸合成酶的表达，一氧化氮依赖性诱导谷胱甘肽合成。

Nitric oxide-dependent induction of glutathione synthesis through increased expression of gamma-glutamylcysteine synthetase.

作者信息

Moellering D, McAndrew J, Patel R P, Cornwell T, Lincoln T, Cao X, Messina J L, Forman H J, Jo H, Darley-Usmar V M

机构信息

Molecular and Cellular Division, Center for Free Radical Biology, University of Alabama at Birmingham, Volker Hall Room GO38, 1670 University Boulevard, Birmingham, Alabama, 35294-0019, USA.

出版信息

Arch Biochem Biophys. 1998 Oct 1;358(1):74-82. doi: 10.1006/abbi.1998.0854.

DOI:10.1006/abbi.1998.0854

PMID:9750167

Abstract

The nitric oxide (NO) donors S-nitrosopenicillamine or DetaNONOate, which release NO at a rate of 0-15 nM sec-1, were exposed to rat aortic vascular smooth muscle cells for a period of 0-24 h. This treatment resulted in an increase in total glutathione levels of two- to threefold under conditions where no cytotoxicity was detected. The signaling pathways do not involve activation of protein kinase G Ialpha nor are they cGMP dependent. Oxidation of reduced glutathione (GSH) was found after exposure to NO for 3-4 h at rates of formation at or above 8 nM sec-1. Increased intracellular GSH was due to enhanced expression of the rate-limiting enzyme for GSH synthesis, gamma-glutamylcysteine synthetase. Since NO has been shown previously to protect cells against oxidative stress, we propose that the increase in GSH by NO is a potential mechanism for enhancing the antioxidant defenses of the cell. This result also has important implications for identifying redox-sensitive cell signaling pathways that can be activated by NO.

摘要

一氧化氮（NO）供体S-亚硝基青霉胺或二乙三胺 NONO 酸盐，以0 - 15 nM 秒⁻¹ 的速率释放 NO，将其作用于大鼠主动脉血管平滑肌细胞0 - 24小时。在未检测到细胞毒性的情况下，这种处理使总谷胱甘肽水平增加了两到三倍。其信号通路不涉及蛋白激酶G Iα 的激活，也不依赖于环磷酸鸟苷（cGMP）。在以8 nM 秒⁻¹ 或更高的生成速率暴露于 NO 3 - 4小时后，发现还原型谷胱甘肽（GSH）被氧化。细胞内GSH 的增加是由于GSH 合成的限速酶γ-谷氨酰半胱氨酸合成酶的表达增强。由于先前已表明NO 可保护细胞免受氧化应激，我们提出NO 使GSH 增加是增强细胞抗氧化防御的一种潜在机制。该结果对于识别可被NO 激活的氧化还原敏感细胞信号通路也具有重要意义。

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通过增加γ-谷氨酰半胱氨酸合成酶的表达，一氧化氮依赖性诱导谷胱甘肽合成。

Nitric oxide-dependent induction of glutathione synthesis through increased expression of gamma-glutamylcysteine synthetase.

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