Institute of Biological Chemistry, Facilities for Proteomics Research, Academia Sinica, 128 Academia Road, Section 2, Taipei 11529, Taiwan.
J Biol Chem. 2010 Aug 13;285(33):25345-53. doi: 10.1074/jbc.M110.133363. Epub 2010 Jun 8.
Certain bacteria synthesize glutathionylspermidine (Gsp), from GSH and spermidine. Escherichia coli Gsp synthetase/amidase (GspSA) catalyzes both the synthesis and hydrolysis of Gsp. Prior to the work reported herein, the physiological role(s) of Gsp or how the two opposing GspSA activities are regulated had not been elucidated. We report that Gsp-modified proteins from E. coli contain mixed disulfides of Gsp and protein thiols, representing a new type of post-translational modification formerly undocumented. The level of these proteins is increased by oxidative stress. We attribute the accumulation of such proteins to the selective inactivation of GspSA amidase activity. X-ray crystallography and a chemical modification study indicated that the catalytic cysteine thiol of the GspSA amidase domain is transiently inactivated by H(2)O(2) oxidation to sulfenic acid, which is stabilized by a very short hydrogen bond with a water molecule. We propose a set of reactions that explains how the levels of Gsp and Gsp S-thiolated proteins are modulated in response to oxidative stress. The hypersensitivities of GspSA and GspSA/glutaredoxin null mutants to H(2)O(2) support the idea that GspSA and glutaredoxin act synergistically to regulate the redox environment of E. coli.
某些细菌合成谷胱甘酰基腐胺(Gsp),其由 GSH 和腐胺合成。大肠杆菌 Gsp 合成酶/酰胺酶(GspSA)催化 Gsp 的合成和水解。在本文报道的工作之前,尚未阐明 Gsp 的生理作用或两种相反的 GspSA 活性如何被调节。我们报告说,来自大肠杆菌的 Gsp 修饰蛋白含有 Gsp 和蛋白巯基的混合二硫键,代表了一种以前未记录的新型翻译后修饰。这些蛋白质的水平因氧化应激而增加。我们将此类蛋白质的积累归因于 GspSA 酰胺酶活性的选择性失活。X 射线晶体学和化学修饰研究表明,GspSA 酰胺酶结构域的催化半胱氨酸巯基被 H(2)O(2)氧化为亚磺酸,然后通过与水分子形成非常短的氢键而稳定。我们提出了一组反应,解释了 Gsp 和 Gsp S-巯基化蛋白的水平如何响应氧化应激进行调节。GspSA 和 GspSA/谷氧还蛋白缺失突变体对 H(2)O(2)的超敏性支持 GspSA 和谷氧还蛋白协同作用以调节大肠杆菌的氧化还原环境的观点。
