Cui Sheng-Yun, Jin Hua, Kim Seung-Jin, Kumar Avvaru Praveen, Lee Yong-Ill
Department of Chemistry of Yanbian University, Key Laboratory of Organism Functional Factor of the Changbai Mountain, Ministry of Education Yanji, 133002, China.
J Biochem. 2008 May;143(5):685-93. doi: 10.1093/jb/mvn023. Epub 2008 Feb 22.
Selenite has been found to be an active catalyst for the oxidation of sulphhydryl compounds, such as glutathione (GSH). Considering the biological importance of GSH oxidation and the implication of sulphhydryl compounds in selenium poisoning and other biological activities, more information on selenite oxidation of GSH in enzyme-free conditions is desirable. Herein, we describe glutathione and sodium selenite simply mixed in aqueous solutions. The interaction products and transient intermediate are identified and characterized using electrospray ionization (ESI) tandem mass spectrometry. In the first step, GSH directly reacts to form diglutathione (GSSG) and unstable selenodiglutathione (GS-Se-SG). Then selenodiglutathione further reacted with remaining GSH to form diglutathione and elemental selenium, Se(0). As the amount of GSSG significantly increased or acidity of the solution increased, the redox potential of glutathione [E(0')(GSSG/2GSH) approximately -250 mV (NHE)] significantly shifted to the positive direction. This makes the GSSG react with elemental selenium formed in the solution, which can be demonstrated by another unstable intermediate ion identified at m/z 418 by mass spectrometry with the elemental composition of GSS-Se. The reaction mechanism between GSH and sodium selenite has been proposed according to the ESI-MS, NMR and UV-vis spectrometric measurements.
已发现亚硒酸盐是巯基化合物(如谷胱甘肽(GSH))氧化的活性催化剂。考虑到GSH氧化的生物学重要性以及巯基化合物在硒中毒和其他生物活性中的作用,在无酶条件下获取更多关于亚硒酸盐氧化GSH的信息是很有必要的。在此,我们描述了谷胱甘肽和亚硒酸钠在水溶液中简单混合的情况。使用电喷雾电离(ESI)串联质谱对相互作用产物和瞬态中间体进行了鉴定和表征。第一步,GSH直接反应形成二谷胱甘肽(GSSG)和不稳定的硒代二谷胱甘肽(GS-Se-SG)。然后硒代二谷胱甘肽进一步与剩余的GSH反应形成二谷胱甘肽和元素硒Se(0)。随着GSSG量的显著增加或溶液酸度的增加,谷胱甘肽的氧化还原电位[E(0')(GSSG/2GSH)约为 -250 mV(NHE)]显著向正向移动。这使得GSSG与溶液中形成的元素硒发生反应,这可通过质谱在m/z 418处鉴定出的另一种不稳定中间体离子GSS-Se的元素组成得到证明。根据ESI-MS、NMR和UV-vis光谱测量结果,提出了GSH与亚硒酸钠之间的反应机理。