纤维连接蛋白III型连接段衍生的肽促进内皮细胞粘附,但不促进血小板粘附:在组织工程血管移植中的意义。

Eric J Rodenberg, Fredrick M Pavalko
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引用次数: 24

摘要

开发一种适合植入体内血管网络的完全组织工程小口径假体充满了许多挑战,包括克服对内皮化的抵抗和对血栓形成的易感性。在这项工作中,研究了重组人纤维连接蛋白衍生的低分子量肽片段促进细胞类型特异性α(4)整合素介导的粘附的能力。对两种原代人内皮细胞进行了检测,发现其表面表达α(4)整合素受体;相反,没有发现人类血小板表达α(4)整合素。从可变剪接的人纤维连接蛋白III型连接段-1 (CS-1)结构域分离的肽片段被确定介导内皮细胞α(4)整合素介导的粘附,具有统计学意义。相比之下,在生理性流体剪切条件下,纤连蛋白III型CS-1片段不支持人血小板粘附,尽管完整的人纤连蛋白分子支持剪切诱导的血小板粘附。这表明血小板在不包含CS-1结构域的区域与纤维连接蛋白结合。总之,这项工作证明了低分子量肽CS-1可以作为细胞选择性粘附介质,用于构建更兼容的小口径血管移植物管腔界面。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Peptides derived from fibronectin type III connecting segments promote endothelial cell adhesion but not platelet adhesion: implications in tissue-engineered vascular grafts.

The development of a completely tissue-engineered small-caliber prosthesis suitable for incorporation into an in vivo vascular network is fraught with many challenges, including overcoming resistance to endothelialization and susceptibility to thrombogenesis. In this work, recombinant human fibronectin-derived low-molecular-weight peptide fragments were studied for their ability to promote cell type-specific alpha(4) integrin-mediated adhesion. Two populations of primary human endothelial cells were examined and found to express alpha(4) integrin receptors on their surfaces; on the contrary, human platelets were not found to be expressers of alpha(4) integrins. A peptide fragment isolated from the variably spliced human fibronectin type III connecting segment-1 (CS-1) domain was determined to mediate statistically significant endothelial cell alpha(4) integrin-mediated adhesion. In contrast, the fibronectin type III CS-1 fragment did not support human platelet adhesion under physiological fluid shear conditions, although fully intact human fibronectin molecules supported shear-induced platelet adhesion. This suggests that platelets bind to fibronectin in regions not encompassing the CS-1 domain. In conclusion, this work has demonstrated that the low-molecular-weight peptide CS-1 could serve as a cell-selective adhesion mediator in the engineering of a more-compatible small-caliber vascular graft lumen interface.

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来源期刊
Tissue engineering
Tissue engineering CELL & TISSUE ENGINEERING-BIOTECHNOLOGY & APPLIED MICROBIOLOGY
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