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氮氧化物作为促氧化剂和抗氧化剂的双重活性:铜介导的DNA断裂催化作用和过氧化氢歧化作用。

Dual activity of nitroxides as pro- and antioxidants: catalysis of copper-mediated DNA breakage and H2O2 dismutation.

作者信息

Aronovitch Yaacov, Godinger Dina, Israeli Avner, Krishna Murali C, Samuni Amram, Goldstein Sara

机构信息

Department of Molecular Biology, Hebrew University-Hadassah Medical School, Jerusalem 91120, Israel.

出版信息

Free Radic Biol Med. 2007 May 1;42(9):1317-25. doi: 10.1016/j.freeradbiomed.2007.01.017. Epub 2007 Jan 13.

Abstract

Nitroxide antioxidants can be reduced to hydroxylamines or oxidized to oxoammonium cations. Consequently, nitroxides can modify oxidative damage acting as reducing and/or as oxidizing agents, and in many cases the nitroxides are continuously recycled. They provide protection against oxidative stress via various mechanisms including SOD-mimic activity and detoxification of carbon-, oxygen-, and nitrogen-centered radicals, as well as oxidation of reduced transition metals. In contrast to the common concept, according to which the nitroxides' protective effect takes place via inhibition of the Fenton reaction, there are observations suggesting the opposite. In the present investigation, DNA breakage catalyzed by copper served as an experimental model for studying the anti- and pro-oxidative activity of nitroxides. Nitroxides provided protection in the presence of GSH, which is known to facilitate metal-catalyzed DNA damage. In the absence of a reductant, nitroxides enhanced DNA breakage under aerobic conditions with or without added H(2)O(2) and facilitated H(2)O(2) depletion. The rates of nitroxide-catalyzed DNA breakage and H(2)O(2) depletion increased as the concentrations of copper, H(2)O(2), and nitroxide increased. Although the catalytic activity of nitroxides is low, it is sufficient to induce DNA breakage. The efficacy of DNA breakage by the tested piperidine nitroxides correlated with the nitroxide-induced depletion of H(2)O(2) with the exception of the pyrrolidine nitroxide 3-carbamoylproxyl. The results suggest that the nitroxide and the copper are continuously recycled while catalyzing DNA breakage and depletion of H(2)O(2), which serves both as a source of reducing equivalents and as the electron sink.

摘要

氮氧化物抗氧化剂可被还原为羟胺或氧化为氧鎓铵阳离子。因此,氮氧化物可作为还原剂和/或氧化剂来改变氧化损伤,并且在许多情况下,氮氧化物会持续循环。它们通过多种机制提供抗氧化应激保护,包括超氧化物歧化酶模拟活性以及对碳中心、氧中心和氮中心自由基的解毒作用,还有对还原态过渡金属的氧化作用。与通常认为氮氧化物的保护作用是通过抑制芬顿反应的概念相反,有观察结果表明情况恰恰相反。在本研究中,铜催化的DNA断裂用作研究氮氧化物抗氧化和促氧化活性的实验模型。在存在谷胱甘肽(已知其会促进金属催化的DNA损伤)的情况下,氮氧化物提供了保护作用。在没有还原剂的情况下,无论是否添加过氧化氢,氮氧化物在有氧条件下都会增强DNA断裂,并促进过氧化氢的消耗。随着铜、过氧化氢和氮氧化物浓度的增加,氮氧化物催化的DNA断裂速率和过氧化氢消耗速率也会增加。尽管氮氧化物的催化活性较低,但足以诱导DNA断裂。除了吡咯烷氮氧化物3-氨基甲酰基脯氨酰外,所测试的哌啶氮氧化物导致的DNA断裂效果与氮氧化物诱导的过氧化氢消耗相关。结果表明,在催化DNA断裂和过氧化氢消耗过程中,氮氧化物和铜会持续循环,而过氧化氢既是还原当量的来源,也是电子受体。

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