半胱氨酸的翻译后修饰可保护 Cu/Zn-超氧化物歧化酶免受氧化损伤。

Post-translational modification by cysteine protects Cu/Zn-superoxide dismutase from oxidative damage.

机构信息

Departments of Biochemistry and Chemistry and Rosenstiel Basic Medical Sciences Research Center, Brandeis University , Waltham, Massachusetts 02454, United States.

出版信息

Biochemistry. 2013 Sep 10;52(36):6137-44. doi: 10.1021/bi4006122. Epub 2013 Aug 26.

DOI:10.1021/bi4006122

PMID:23927036

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC3859700/

Abstract

Reactive oxygen species (ROS) are cytotoxic. To remove ROS, cells have developed ROS-specific defense mechanisms, including the enzyme Cu/Zn superoxide dismutase (SOD1), which catalyzes the disproportionation of superoxide anions into molecular oxygen and hydrogen peroxide. Although hydrogen peroxide is less reactive than superoxide, it is still capable of oxidizing, unfolding, and inactivating SOD1, at least in vitro. To explore the relevance of post-translational modification (PTM) of SOD1, including peroxide-related modifications, SOD1 was purified from postmortem human nervous tissue. As much as half of all purified SOD1 protein contained non-native post-translational modifications (PTMs), the most prevalent modifications being cysteinylation and peroxide-related oxidations. Many PTMs targeted a single reactive SOD1 cysteine, Cys111. An intriguing observation was that unlike native SOD1, cysteinylated SOD1 was not oxidized. To further characterize how cysteinylation may protect SOD1 from oxidation, cysteine-modified SOD1 was prepared in vitro and exposed to peroxide. Cysteinylation conferred nearly complete protection from peroxide-induced oxidation of SOD1. Moreover, SOD1 that has been cysteinylated and peroxide oxidized in vitro comprised a set of PTMs that bear a striking resemblance to the myriad of PTMs observed in SOD1 purified from human tissue.

摘要

活性氧（ROS）具有细胞毒性。为了清除 ROS，细胞已经开发出 ROS 特异性防御机制，包括酶 Cu/Zn 超氧化物歧化酶（SOD1），它可以催化超氧阴离子歧化为分子氧和过氧化氢。虽然过氧化氢的反应性不如超氧阴离子，但它仍然能够氧化、展开和失活 SOD1，至少在体外是这样。为了探索 SOD1 的翻译后修饰（PTM）的相关性，包括与过氧化物相关的修饰，我们从死后的人类神经组织中纯化了 SOD1。多达一半的纯化 SOD1 蛋白含有非天然的翻译后修饰（PTM），最常见的修饰是半胱氨酸化和与过氧化物相关的氧化。许多 PTM 靶向单个反应性 SOD1 半胱氨酸，Cys111。一个有趣的观察结果是，与天然 SOD1 不同，半胱氨酸化的 SOD1 不会被氧化。为了进一步研究半胱氨酸化如何保护 SOD1 免受氧化，我们在体外制备了半胱氨酸化的 SOD1 并使其暴露于过氧化物中。半胱氨酸化赋予 SOD1 对过氧化物诱导的氧化几乎完全的保护。此外，在体外进行半胱氨酸化和过氧化物氧化的 SOD1 组成了一组 PTM，与从人类组织中纯化的 SOD1 中观察到的众多 PTM 非常相似。

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