糖化I型胶原诱导内皮细胞过早衰老样表型改变

Jun Chen, S. Brodsky, David M Goligorsky, D. Hampel, Hong Li, S. Gross, M. Goligorsky
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引用次数: 166

摘要

糖尿病血管病变是糖尿病各种心血管、肾脏、视网膜和神经系统并发症发展的核心。我们之前已经证明,内皮细胞在糖基化细胞外基质蛋白(胶原和基质)上的生长会导致细胞增殖的显著减少。在本研究中,我们发现在糖基化胶原(GC)上生长的早期传代人脐静脉内皮细胞(HUVECs)表达了细胞过早衰老的特征,即表达衰老相关的&bgr;-半乳糖苷酶活性、凋亡率以及p53和p14AFR表达的细胞比例增加,但与复制性衰老相反,端粒既没有磨损,也没有端粒酶活性降低。与瘦对照组相比,在年轻的Zucker糖尿病大鼠的主动脉中,同样观察到过早衰老细胞的频率增加。尽管eNOS表达增加了3倍,但在GC上生长的huvec产生的NO却减少了,这与增加的硝基酪氨酸修饰蛋白有关。过氧亚硝酸盐清除剂、埃布selen、eNOS中间体NOHA或超氧化物歧化酶模拟物mn - ttbap可以预防和逆转GC上huvec过早衰老的发展。随着衰老的逆转,依布selen和NOHA各自将NO的产生恢复到在未修饰的胶原上生长的huvec的水平。我们的研究结果表明,体内糖尿病和体外GC暴露导致血管内皮过早衰老,这一过程具有不同的发病机制。血管内皮的过早衰老被认为是糖尿病血管病变的重要因素,也是一氧化氮可用性降低、过氧亚硝酸盐和/或超氧化物过量的结果。
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Glycated Collagen I Induces Premature Senescence-Like Phenotypic Changes in Endothelial Cells
Diabetic vasculopathy is central to the development of diverse cardiovascular, renal, retinal, and neurological complications of diabetes. We previously demonstrated that growth of endothelial cells on glycated extracellular matrix proteins (collagen and matrigel) results in a significant decrease in cell proliferation. In the present study, we show that early-passage human umbilical vein endothelial cells (HUVECs) grown on glycated collagen (GC) express hallmarks of premature cell senescence, ie, increase in the proportion of cells expressing senescence-associated &bgr;-galactosidase activity, apoptotic rate, and p53 and p14AFR expression, but in contrast to replicative senescence, display neither attrition of telomeres nor decrease in telomerase activity. An increased frequency of prematurely senescent cells was similarly observed in vivo in aortae of young Zucker diabetic rats, compared with lean controls. NO production by HUVECs grown on GC was decreased, despite a 3-fold increase in eNOS expression and was associated with the increased nitrotyrosine-modified proteins. Development of premature senescence of HUVECs on GC could be prevented and reversed by treatments with the peroxynitrite scavenger, ebselen, eNOS intermediate N&ohgr;-hydroxy-l-arginine (NOHA), or superoxide dismutase mimetic Mn-TBAP. Concomitant with the reversal of senescence, ebselen, and NOHA each restored NO production to levels observed with HUVECs grown on unmodified collagen. Our findings indicate that diabetes mellitus in vivo and GC exposure in vitro elicit premature senescence of the vascular endothelium, a process with distinct pathogenetic mechanisms. Premature senescence of the vascular endothelium is hypothesized to be an important contributor to diabetic vasculopathy and a consequence of reduced NO availability, peroxynitrite, and/or superoxide excess.
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