Tsou T C, Yang J L
Department of Life Sciences, National Tsing Hua University, Hsinehu, Taiwan.
Chem Biol Interact. 1996 Dec 20;102(3):133-53. doi: 10.1016/s0009-2797(96)03740-4.
The role of reactive oxygen species in causing DNA damage through interaction of chromium (III) and hydrogen peroxide was examined using plasmid relaxation assay and EPR spectroscopy. Marked DNA strand breakage was induced by CrCl3 plus H2O2 in a phosphate buffer at pH 6-8.9; whereas, only slight DNA strand breakage was observed during similar treatment at pH less than 4. DNA breakage also increased as the reaction temperature and Cr(III)/H2O2 concentrations increased. Control experiments with Cr(III) or H2O2 alone did not cause DNA breakage. Sodium azide, D-mannitol, Tris-HCl, or catalase completely inhibited Cr(III)/H2O2-induced DNA breakage, but superoxide dismutase did not. The D2O enhancing effect on DNA breaks was not observed. Cr(III) pre-incubated with a 30-fold molar excess of EDTA did not cause any significant DNA breakage in the presence of H2O2. In a phosphate buffer containing Cr(III) and H2O2, singlet oxygen and hydroxyl radicals were detected using EPR spectrometry with the spin traps 2,2,6,6-tetramethyl-4-piperidone and 5,5-dimethyl-1-pyrroline 1-oxide (DMPO), respectively. DMPO/.OH adducts and DNA breakage induced by Cr(III)/H2O2 were markedly higher than those induced by Cr(VI)/H2O2. Furthermore, ascorbate decreased Cr(III)/H2O2-induced DNA breakage. EPR studies revealed that ascorbate (mole ratio to Cr(III) = 0.5:1) attenuated the DMPO/.OH signal generated by Cr(III)/H2O2/DMPO, but a Cr(V) signal and ascorbate radicals were detected. NADPH, GSH, and GSSG also decreased DMPO/.OH generated by Cr(III)/H2O2/DMPO; however, they were less efficient than ascorbate and no Cr(V) signals were detected. This study shows that Cr(III)/H2O2 generates oxidative damage to DNA through a Fenton-like reaction: Cr(III) + H2O2-->Cr(IV) + .OH + OH.
利用质粒松弛试验和电子顺磁共振光谱法,研究了活性氧通过铬(III)与过氧化氢的相互作用导致DNA损伤的作用。在pH 6 - 8.9的磷酸盐缓冲液中,CrCl3加H2O2可诱导明显的DNA链断裂;而在pH小于4的类似处理过程中,仅观察到轻微的DNA链断裂。随着反应温度以及Cr(III)/H2O2浓度的增加,DNA断裂也增加。单独使用Cr(III)或H2O2的对照实验未导致DNA断裂。叠氮化钠、D - 甘露醇、Tris - HCl或过氧化氢酶可完全抑制Cr(III)/H2O2诱导的DNA断裂,但超氧化物歧化酶则不能。未观察到D2O对DNA断裂的增强作用。预先用30倍摩尔过量的EDTA孵育的Cr(III)在H2O2存在下未引起任何显著的DNA断裂。在含有Cr(III)和H2O2的磷酸盐缓冲液中,分别使用自旋捕获剂2,2,6,6 - 四甲基 - 4 - 哌啶酮和5,5 - 二甲基 - 1 - 吡咯啉1 - 氧化物(DMPO)通过电子顺磁共振光谱法检测到单线态氧和羟基自由基。Cr(III)/H2O2诱导的DMPO/.OH加合物和DNA断裂明显高于Cr(VI)/H2O2诱导的。此外,抗坏血酸可减少Cr(III)/H2O2诱导的DNA断裂。电子顺磁共振研究表明,抗坏血酸(与Cr(III)的摩尔比 = 0.5:1)减弱了Cr(III)/H2O2/DMPO产生的DMPO/.OH信号,但检测到了Cr(V)信号和抗坏血酸自由基。NADPH、GSH和GSSG也减少了Cr(III)/H2O2/DMPO产生的DMPO/.OH;然而,它们的效率低于抗坏血酸,且未检测到Cr(V)信号。本研究表明,Cr(III)/H2O2通过类芬顿反应对DNA产生氧化损伤:Cr(III) + H2O2→Cr(IV) +.OH + OH。
