Bhat V D, Truskey G A, Reichert W M
Department of Biomedical Engineering, Duke University, Durham, North Carolina 27708, USA.
J Biomed Mater Res. 1998 Apr;40(1):57-65. doi: 10.1002/(sici)1097-4636(199804)40:1<57::aid-jbm7>3.0.co;2-q.
Binding between the protein avidin and the vitamin biotin was used as an extrinsic, high affinity receptor-ligand system to augment the intrinsic integrin-dependent cellular adhesion mechanism. Glass substrates were coupled with avidin receptors through an adsorbed film of biotinylated bovine serum albumin (b-BSA). The avidin-treated slides then were seeded with biotinylated bovine aortic endothelial cells (BAEC). A 3:1 ratio of BSA:b-BSA provided the best results in terms of specific cellular attachment, growth, and spreading. Control surfaces consisted of bare glass or glass with adsorbed BSA. Attachment of unmodified BAEC to glass decreased in the presence of anti-beta 1 integrin antibody. Adhesion of biotinylated BAEC to avidin-treated slides was not affected by anti-beta 1 integrin antibody, consistent with integrin-independent avidin-mediated adhesion. The initial rate of cell spreading was greatest for avidin-biotin-mediated adhesion (80.0 +/- 25.6 microns2/h), followed by integrin-dependent cellular adhesion on plain glass (35.7 +/- 7.7 microns2/h) and, finally, by adhesion on BSA-coated protein surfaces (10.2 +/- 0.3 microns2/h). Biotinylated and unmodified BAEC, cultured for 1 h in serum-containing media, were subjected to laminar flow in a variable-height flow chamber that provided a range of shear stresses from 0.2 to 75 dynes/cm2. The critical shear stress required to detach 50% of the cells in serum-containing media increased from 4.6 +/- 0.8 dynes/cm2 for integrin-dependent adhesion to 12.6 +/- 1.2 dynes/cm2 for avidin-biotin-mediated adhesion. Avidin-mediated attachment for biotinylated BAEC increased initial cellular spreading rates and strength of attachment (i.e., at 1 h) by a factor of two and three, respectively. These results support the hypothesis that integrin-mediated cell attachment and spreading can be enhanced using high affinity integrin-independent binding.
蛋白质抗生物素蛋白与维生素生物素之间的结合被用作一种外在的、高亲和力的受体-配体系统,以增强内在的整合素依赖性细胞黏附机制。玻璃基质通过生物素化牛血清白蛋白(b-BSA)的吸附膜与抗生物素蛋白受体偶联。然后将经抗生物素蛋白处理的载玻片接种生物素化牛主动脉内皮细胞(BAEC)。就特异性细胞附着、生长和铺展而言,BSA与b-BSA的比例为3:1时效果最佳。对照表面由裸玻璃或吸附有BSA的玻璃组成。在抗β1整合素抗体存在的情况下,未修饰的BAEC与玻璃的附着减少。生物素化BAEC与经抗生物素蛋白处理的载玻片的黏附不受抗β1整合素抗体的影响,这与不依赖整合素的抗生物素蛋白介导的黏附一致。抗生物素蛋白-生物素介导的黏附的细胞铺展初始速率最大(80.0±25.6平方微米/小时),其次是普通玻璃上依赖整合素的细胞黏附(35.7±7.7平方微米/小时),最后是在BSA包被的蛋白质表面的黏附(10.2±0.3平方微米/小时)。在含血清培养基中培养1小时的生物素化和未修饰的BAEC,在可变高度流动腔中进行层流,该流动腔提供0.2至75达因/平方厘米的一系列剪切应力。在含血清培养基中使50%的细胞脱离所需的临界剪切应力从依赖整合素的黏附的4.6±0.8达因/平方厘米增加到抗生物素蛋白-生物素介导的黏附的12.6±1.2达因/平方厘米。抗生物素蛋白介导的生物素化BAEC的附着分别使细胞铺展初始速率和附着强度(即1小时时)提高了两倍和三倍。这些结果支持这样的假设,即使用高亲和力的不依赖整合素的结合可以增强整合素介导的细胞附着和铺展。
