Molecular control of vascular development by the matricellular proteins CCN1 (Cyr61) and CCN2 (CTGF).

Trends in developmental biology Pub Date : 2013-01-01
Brahim Chaqour
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Abstract

The circulatory system is the first hierarchically ordered network to form during the development of vertebrates as it is an indispensable means of adequate oxygen and nutrient delivery to developing organs. During the initial phase of vascular development, endothelial lineage-committed cells differentiate, migrate, and coalesce to form the central large axial vessels and their branches. The subsequent phase of vessel expansion (i.e., angiogenesis) involves a cascade of events including endothelial cell migration, proliferation, formation of an immature capillary structure, recruitment of mural cells and deposition of a basement membrane to yield a functional vasculature. These series of events are tightly regulated by the coordinated expression of several angiogenic, morphogenic and guidance factors. The extracellular matrix (ECM) is synthesized and secreted by embryonic cells at the earliest stages of development and forms a pericellular network of bioactive stimulatory and inhibitory angiogenesis regulatory factors. Here we describe the role of a subset of inducible immediate-early gene-encoded, ECM-associated integrin- and heparin-binding proteins referred to as CCN1 (or Cyr61) and CCN2 (or CTGF) and their function in the development of the vascular system. Gene-targeting experiments in mice have identified CCN1 and CCN2 as critical rate-limiting determinants of endothelial cell differentiation and quiescence, mural cell recruitment and basement membrane formation during embryonic vascular development. Emphasis will be placed on the regulation and function of these molecules and their contextual mode of action during vascular development. Further understanding of the mechanisms of CCN1- and CCN2-mediated blood vessel expansion and remodeling would enhance the prospects that these molecules provide for the development of new treatments for vascular diseases.

基质细胞蛋白CCN1 (Cyr61)和CCN2 (CTGF)对血管发育的分子调控。
循环系统是脊椎动物发育过程中形成的第一个等级有序的网络,因为它是向发育中的器官输送足够氧气和营养物质的不可或缺的手段。在血管发育的初始阶段,内皮细胞分化、迁移和融合形成中央大轴状血管及其分支。血管扩张的后续阶段(即血管生成)涉及一系列事件,包括内皮细胞迁移、增殖、未成熟毛细血管结构的形成、壁细胞的募集和基底膜的沉积,以产生功能性的血管系统。这一系列事件是由多种血管生成、形态发生和引导因子的协同表达密切调控的。细胞外基质(extracellular matrix, ECM)由胚胎细胞在发育的早期阶段合成和分泌,并形成一个生物活性刺激和抑制血管生成调节因子的细胞周围网络。在这里,我们描述了可诱导的直接早期基因编码的ecm相关整合素和肝素结合蛋白子集CCN1(或Cyr61)和CCN2(或CTGF)的作用及其在血管系统发育中的功能。小鼠基因靶向实验发现,在胚胎血管发育过程中,CCN1和CCN2是内皮细胞分化和静止、壁细胞募集和基底膜形成的关键限速决定因素。重点将放在这些分子的调节和功能及其在血管发育过程中的作用模式。进一步了解CCN1-和ccn2介导的血管扩张和重塑的机制将增强这些分子为开发血管疾病的新疗法提供的前景。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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