含arg - gly - asp的肽暴露成纤维细胞上的新型胶原受体:对伤口愈合的影响。

M V Agrez, R C Bates, A W Boyd, G F Burns
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引用次数: 31

摘要

整合素是一类密切参与细胞与细胞外基质相互作用的细胞表面受体。这些受体包括非共价结合的α和β亚基,许多已被证明可以识别和结合特定细胞外基质配体中包含的精氨酸-甘氨酸-天冬氨酸(RGD)序列。成纤维细胞表达属于两个主要亚家族的整合素受体。由β 1 (VLA)定义的亚家族中的一些成员是胶原蛋白的受体,但也许令人惊讶的是,成纤维细胞上的另一个主要整合素亚家族——由玻璃体连接蛋白受体α链α v定义——似乎都主要结合玻璃体连接蛋白和/或纤维连接蛋白。在目前的研究中,我们发现含有rgd的肽暴露了α - v相关整合素的隐结合位点,使它们能够发挥胶原受体的作用。在I型胶原培养的成纤维细胞中添加含有rgd的多肽可诱导细胞显著伸长,当细胞被置于胶原基质中时,多肽可诱导凝胶明显收缩。这些过程被针对α v整合素的单克隆抗体Fab片段所抑制。此外,细胞裂解物中的α v相关整合素在含有rgd的肽存在时(而不是在不存在rgd的情况下)结合到胶原I亲和柱上。这些数据提示了整合素功能的一种新的调控控制。此外,由于隐性胶原受体被证明与胶原凝胶的收缩有关,这种结合力的产生表明,这可能是这些整合素在伤口愈合等过程中的主要生物学作用。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Arg-Gly-Asp-containing peptides expose novel collagen receptors on fibroblasts: implications for wound healing.

Integrins are a family of cell-surface receptors intimately involved in the interactions of cells with their extracellular matrix. These receptors comprise an alpha and beta subunit in noncovalent association and many have been shown to recognize and bind an arginine-glycine-aspartate (RGD) sequence contained within their specific extracellular matrix ligand. Fibroblasts express integrin receptors belonging to two major subfamilies. Some of the members within the subfamily defined by beta 1 (VLA) are receptors for collagen but, perhaps surprisingly, the other major subfamily of integrins on fibroblasts--that defined by the alpha chain of the vitronectin receptor, alpha v--all appear to bind primarily vitronectin and/or fibronectin. In the present study we show that RGD-containing peptides expose cryptic binding sites on the alpha v-associated integrins enabling them to function as collagen receptors. The addition of RGD-containing peptides to fibroblasts cultured on type I collagen induced dramatic cell elongation and, when the cells were contained within collagen matrices, the peptides induced marked contraction of the gels. These processes were inhibited by Fab fragments of a monoclonal antibody against an alpha v integrin. Also, alpha v-associated integrins from cell lysates bound to collagen I affinity columns in the presence, but not in the absence, of RGD-containing peptides. These data suggest a novel regulatory control for integrin function. In addition, because the cryptic collagen receptors were shown to be implicated in the contraction of collagen gels, the generation of such binding forces suggests that this may be the major biological role for these integrins in processes such as wound healing.

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