Watson N, Duncan G, Annan W S, van der Walle C F
Pharmaceutical Sciences, Institute for Biomedical Sciences, University of Strathclyde, Glasgow, UK.
J Pharm Pharmacol. 2006 Jul;58(7):959-66. doi: 10.1211/jpp.58.7.0011.
Monovalent RGD (arginine-glycine-aspartic acid) peptides or polymers furnished with RGD in random distributions are employed as cell-scaffolds and gene delivery vehicles. However, integrin binding to RGD is dependent on the spatial distribution (clustering) of the ligand and intrinsic integrin affinity via conformational changes (avidity). Here we have designed and expressed a polypeptide consisting of a tetrameric coiled coil and spacer facilitating polyvalent (clustered) display of integrin ligands; the RGD motif was used as proof of principle. Size-exclusion chromatography and circular dichroism showed that the polypeptide self assembled as a tetramer in solution with a defined secondary structure. Cell adhesion to surfaces coated with the polypeptide was up to 3-fold greater than that for (monovalent) RGDS peptide at equivalent concentrations. Moreover, the polypeptide in solution at concentrations >or= 1 microM inhibited cell adhesion to fibronectin-coated surfaces, while RGDS peptide in solution at concentrations up to 500 muM did not. These cell data demonstrate that the polypeptide bound integrin receptors in a polyvalent manner. The polypeptide will therefore be of use in the engineering of tissue-culture scaffolds with increased cell adhesion activity, or to targeted gene delivery vehicles, and could incorporate protein ligands in place of the RGD motif.
单价RGD(精氨酸-甘氨酸-天冬氨酸)肽或具有随机分布RGD的聚合物被用作细胞支架和基因传递载体。然而,整合素与RGD的结合取决于配体的空间分布(聚集)以及通过构象变化(亲和力)产生的内在整合素亲和力。在此,我们设计并表达了一种由四聚体卷曲螺旋和间隔区组成的多肽,该间隔区有助于整合素配体的多价(聚集)展示;以RGD基序作为原理验证。尺寸排阻色谱和圆二色性表明,该多肽在溶液中以具有确定二级结构的四聚体形式自组装。在等效浓度下,细胞对涂有该多肽的表面的粘附力比(单价)RGDS肽高3倍。此外,溶液中浓度≥1 μM的该多肽可抑制细胞对纤连蛋白包被表面的粘附力,而溶液中浓度高达500 μM的RGDS肽则无此作用。这些细胞实验数据表明,该多肽以多价方式结合整合素受体。因此,该多肽将可用于构建具有增强细胞粘附活性的组织培养支架,或用于靶向基因传递载体,并且可以用蛋白质配体替代RGD基序。