Elevated Levels of Oxidative DNA Damage and DNA Repair Enzymes in Human Atherosclerotic Plaques

W. Martinet, M. Knaapen, G. D. De Meyer, A. Herman, M. Kockx
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引用次数: 426

Abstract

Background—The formation of reactive oxygen species is a critical event in atherosclerosis because it promotes cell proliferation, hypertrophy, growth arrest, and/or apoptosis and oxidation of LDL. In the present study, we investigated whether reactive oxygen species-induced oxidative damage to DNA occurs in human atherosclerotic plaques and whether this is accompanied by the upregulation of DNA repair mechanisms. Methods and Results—We observed increased immunoreactivity against the oxidative DNA damage marker 7,8-dihydro-8-oxo-2′-deoxyguanosine (8-oxo-dG) in plaques of the carotid artery compared with the adjacent inner media and nonatherosclerotic mammary arteries. Strong 8-oxo-dG immunoreactivity was found in all cell types of the plaque including macrophages, smooth muscle cells, and endothelial cells. As shown by competitive ELISA, carotid plaques contained 160±29 8-oxo-dG residues/105 dG versus 3±1 8-oxo-dG residues/105 dG in mammary arteries. Single-cell gel electrophoresis showed elevated levels of DNA strand breaks in the plaque. The overall number of apoptotic nuclei was low (1% to 2%) and did not correlate with the amount of 8-oxo-dG immunoreactive cells (>90%). This suggests that initial damage to DNA occurs at a sublethal level. Several DNA repair systems that are involved in base excision repair (redox factor/AP endonuclease [Ref 1] and poly(ADP-ribose) polymerase 1 [PARP-1]) or nonspecific repair pathways (p53, DNA-dependent protein kinase) were upregulated, as shown by Western blotting and immunohistochemistry. Overexpression of DNA repair enzymes was associated with elevated levels of proliferating cell nuclear antigen. Conclusions—Our findings provide evidence that oxidative DNA damage and repair increase significantly in human atherosclerotic plaques.
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人类动脉粥样硬化斑块中DNA氧化损伤和DNA修复酶水平升高
背景:活性氧的形成是动脉粥样硬化的一个关键事件,因为它促进细胞增殖、肥大、生长停滞和/或凋亡和LDL氧化。在本研究中,我们研究了活性氧诱导的DNA氧化损伤是否发生在人类动脉粥样硬化斑块中,以及这是否伴随着DNA修复机制的上调。方法与结果-我们观察到颈动脉斑块对氧化DNA损伤标志物7,8-二氢-8-氧-2 ' -脱氧鸟苷(8-氧- dg)的免疫反应性比邻近的内介质和非动脉粥样硬化性乳腺动脉增强。在斑块的所有细胞类型中,包括巨噬细胞、平滑肌细胞和内皮细胞,都发现了强的8-oxo-dG免疫反应性。竞争性ELISA结果显示,颈动脉斑块中含有160±29个8-oxo-dG残基/105 dG,而乳腺动脉中含有3±18个8-oxo-dG残基/105 dG。单细胞凝胶电泳显示斑块中DNA链断裂水平升高。凋亡核的总数较低(1% ~ 2%),与8-氧-脱氧葡萄糖免疫反应细胞的数量(>90%)无关。这表明DNA的初始损伤发生在亚致死水平。Western blotting和免疫组织化学结果显示,参与碱基切除修复的几个DNA修复系统(氧化还原因子/AP内切酶[Ref 1]和聚(adp核糖)聚合酶1 [PARP-1])或非特异性修复途径(p53, DNA依赖性蛋白激酶)均上调。DNA修复酶的过度表达与增殖细胞核抗原水平升高有关。结论:我们的研究结果提供了证据,证明氧化DNA损伤和修复在人类动脉粥样硬化斑块中显著增加。
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