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将硒代半胱氨酸固定在 TiO2 表面原位催化生成一氧化氮及其在血管内支架中的潜在应用。

Immobilization of selenocystamine on TiO2 surfaces for in situ catalytic generation of nitric oxide and potential application in intravascular stents.

机构信息

Key Laboratory for Advanced Technologies of Materials, Ministry of Education, China.

出版信息

Biomaterials. 2011 Feb;32(5):1253-63. doi: 10.1016/j.biomaterials.2010.10.039. Epub 2010 Nov 18.

Abstract

Immobilization of selenocystamine on TiO(2) film deposited on silicon wafer and 316 stainless steel stents for catalytic generation of nitric oxide was described. Polydopamine was used as the linker for immobilization of selenocystamine to the TiO(2) surface. In vitro stability of the immobilized selenocystamine was investigated and the result shows surface selenium loss occurs mostly in the first four weeks. The selenocystamine immobilized surface possesses glutathione peroxidase (GPx) activity, and the activity increases with the amount of grafted polydopamine. Such selenocystamine immobilized surfaces show the ability of catalytically decomposing endogenous S-nitrosothiols (RSNO), generating NO; thus the surface displays the ability to inhibit collagen-induced platelet acitivation and aggregation. Additionally, smooth muscle cells are inhibited from adhering to the selenocystamine immobilized sample when RSNO is added to the culture media. ELISA analysis reveals that cGMP in both platelets and smooth muscle cells significantly increases with NO release on selenocystamine immobilized samples. Two months in vivo results show that selenocystamine immobilized stents are endothelialized, and show significant anti-proliferation properties, indicating that this is a favorable method for potential application in vascular stents.

摘要

将硒代半胱氨酸固定在沉积在硅片和 316 不锈钢支架上的 TiO 2 薄膜上,用于催化生成一氧化氮。聚多巴胺被用作将硒代半胱氨酸固定到 TiO 2 表面的连接体。研究了固定化硒代半胱氨酸的体外稳定性,结果表明表面硒的损失主要发生在前四周。固定化硒代半胱氨酸表面具有谷胱甘肽过氧化物酶 (GPx) 活性,并且随着接枝聚多巴胺的量的增加,活性增加。这种固定化硒代半胱氨酸的表面显示出催化分解内源性 S-亚硝酰硫醇 (RSNO) 生成 NO 的能力;因此,表面显示出抑制胶原蛋白诱导的血小板激活和聚集的能力。此外,当 RSNO 添加到培养基中时,平滑肌细胞被抑制黏附到固定化硒代半胱氨酸的样品上。ELISA 分析显示,血小板和平滑肌细胞中的 cGMP 随着固定化硒代半胱氨酸样品上的 NO 释放而显著增加。两个月的体内结果表明,固定化硒代半胱氨酸的支架内皮化,并表现出显著的抗增殖特性,表明这是一种在血管支架中具有潜在应用前景的有利方法。

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