人腹主动脉瘤的氧化应激:动脉瘤重构的潜在介质

F. Miller, W. Sharp, Xiang Fang, L. Oberley, T. Oberley, N. Weintraub
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引用次数: 264

摘要

腹主动脉瘤(AAA)是一种以局部结缔组织降解和平滑肌细胞(SMC)凋亡为特征的炎症性疾病,可导致主动脉扩张和破裂。活性氧在炎症过程中大量产生,可以刺激结缔组织降解蛋白酶和SMCs的凋亡。我们假设在AAA中,局部活性氧增加,导致氧化应激增强。在接受手术修复的患者的主动脉中,AAA节段的超氧化物水平(通过lucigenin增强化学发光测量)比邻近的非动脉瘤性主动脉(NA)节段高2.5倍(分别为6638±2164和2675±1027相对光单位,5分钟每平方毫米;n = 7)。与NA段相比,AAA段中硫代巴比妥酸反应物质和共轭二烯的形成增加了3倍。在AAA组织中,硝基酪氨酸的免疫染色明显增加。双氢乙啶染色表明,AAA节段超氧化物增加局限于浸润性炎症细胞和SMCs。NADPH氧化酶亚基p47phox和p22phox的表达和NAD(P)H氧化酶活性在AAA段较NA段增加。因此,氧化应激在AAA中显著增加,部分是通过NAD(P)H氧化酶的激活,并可能有助于疾病的发病机制。
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Oxidative Stress in Human Abdominal Aortic Aneurysms: A Potential Mediator of Aneurysmal Remodeling
Abdominal aortic aneurysm (AAA) is an inflammatory disorder characterized by localized connective tissue degradation and smooth muscle cell (SMC) apoptosis, leading to aortic dilatation and rupture. Reactive oxygen species are abundantly produced during inflammatory processes and can stimulate connective tissue–degrading proteases and apoptosis of SMCs. We hypothesized that reactive oxygen species are locally increased in AAA and lead to enhanced oxidative stress. In aortas from patients undergoing surgical repair, superoxide levels (measured by lucigenin-enhanced chemiluminescence) were 2.5-fold higher in the AAA segments compared with the adjacent nonaneurysmal aortic (NA) segments (6638±2164 versus 2675±1027 relative light units for 5 minutes per millimeter squared, respectively; n=7). Formation of thiobarbituric acid–reactive substances and conjugated dienes, 2 indices of lipid peroxidation, were increased 3-fold in AAA compared with NA segments. Immunostaining for nitrotyrosine was significantly greater in AAA tissue. Dihydroethidium staining indicated that increased superoxide in AAA segments was localized to infiltrating inflammatory cells and to SMCs. Expression of the NADPH oxidase subunits p47phox and p22phox and NAD(P)H oxidase activity were increased in AAA segments compared with NA segments. Thus, oxidative stress is markedly increased in AAA, in part through the activation of NAD(P)H oxidase, and may contribute to the disease pathogenesis.
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