硫化氢作为一种微调节剂与 Cu/Zn-SOD 的铜活性位点结合，从而调节酶的催化活性。

Hydrogen sulfide functions as a micro-modulator bound at the copper active site of Cu/Zn-SOD to regulate the catalytic activity of the enzyme.

机构信息

Shanghai Key Laboratory of Bioactive Small Molecules, Department of Physiology and Pathophysiology, School of Basic Medical Sciences, Fudan University Shanghai Medical College, Shanghai 200032, China; School of Stomatology, Henan University, Kaifeng, Henan 475004, China; Henan International Joint Laboratory for Nuclear Protein Regulation, School of Basic Medical Sciences, Henan University, Kaifeng, Henan 475004, China.

Shanghai Key Laboratory of Bioactive Small Molecules, Department of Physiology and Pathophysiology, School of Basic Medical Sciences, Fudan University Shanghai Medical College, Shanghai 200032, China; Department of Physiology, Hebei Medical University, 361 Zhongshan Road, Shijiazhuang 050017, China.

出版信息

Cell Rep. 2023 Jul 25;42(7):112750. doi: 10.1016/j.celrep.2023.112750. Epub 2023 Jul 7.

DOI:10.1016/j.celrep.2023.112750

PMID:37421623

Abstract

The present study examines whether there is a mechanism beyond the current concept of post-translational modifications to regulate the function of a protein. A small gas molecule, hydrogen sulfide (HS), was found to bind at active-site copper of Cu/Zn-SOD using a series of methods including radiolabeled binding assay, X-ray absorption near-edge structure (XANES), and crystallography. Such an HS binding enhanced the electrostatic forces to guide the negatively charged substrate superoxide radicals to the catalytic copper ion, changed the geometry and energy of the frontier molecular orbitals of the active site, and subsequently facilitated the transfer of an electron from the superoxide radical to the catalytic copper ion and the breakage of the copper-His61 bridge. The physiological relevance of such an HS effect was also examined in both in vitro and in vivo models where the cardioprotective effects of HS were dependent on Cu/Zn-SOD.

摘要

本研究旨在探讨是否存在超越现有翻译后修饰概念的机制来调节蛋白质的功能。我们发现一种小分子气体——硫化氢（HS）可通过一系列方法（包括放射性标记结合测定、X 射线吸收近边结构（XANES）和晶体学）与 Cu/Zn-SOD 的活性部位铜结合。这种 HS 结合增强了静电力，从而引导带负电荷的底物超氧自由基到达催化铜离子，改变活性部位前线分子轨道的几何形状和能量，随后促进电子从超氧自由基向催化铜离子的转移和铜-组氨酸 61 桥的断裂。我们还在体外和体内模型中检验了这种 HS 效应的生理相关性，其中 HS 的心脏保护作用依赖于 Cu/Zn-SOD。

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硫化氢作为一种微调节剂与 Cu/Zn-SOD 的铜活性位点结合，从而调节酶的催化活性。

Hydrogen sulfide functions as a micro-modulator bound at the copper active site of Cu/Zn-SOD to regulate the catalytic activity of the enzyme.

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