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内皮细胞衍生的 PDGF-BB 和 HB-EGF 协同调节血管生成管组装和稳定过程中的周细胞募集。

Endothelial-derived PDGF-BB and HB-EGF coordinately regulate pericyte recruitment during vasculogenic tube assembly and stabilization.

机构信息

Departments of Medical Pharmacology and Physiology, School of Medicine, Dalton Cardiovascular Research Center, University of Missouri at Columbia, Columbia, MO, USA.

出版信息

Blood. 2010 Nov 25;116(22):4720-30. doi: 10.1182/blood-2010-05-286872. Epub 2010 Aug 25.

DOI:10.1182/blood-2010-05-286872
PMID:20739660
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC2996127/
Abstract

Recently, we reported a novel system whereby human pericytes are recruited to endothelial cell (EC)-lined tubes in 3-dimensional (3D) extracellular matrices to stimulate vascular maturation including basement membrane matrix assembly. Through the use of this serum-free, defined system, we demonstrate that pericyte motility within 3D collagen matrices is dependent on the copresence of ECs. Using either soluble receptor traps consisting of the extracellular ligand-binding domains of platelet-derived growth factor receptor β, epidermal growth factor receptor (EGFR), and ErbB4 receptors or blocking antibodies directed to platelet-derived growth factor (PDGF)-BB, or heparin-binding EGF-like growth factor (HB-EGF), we show that both of these EC-derived ligands are required to control pericyte motility, proliferation, and recruitment along the EC tube ablumenal surface. Blockade of pericyte recruitment causes a lack of basement membrane matrix deposition and, concomitantly, increased vessel widths. Combined inhibition of PDGF-BB and HB-EGF-induced signaling in quail embryos leads to reduced pericyte recruitment to EC tubes, decreased basement membrane matrix deposition, increased vessel widths, and vascular hemorrhage phenotypes in vivo, in support of our findings in vitro. In conclusion, we report a dual role for EC-derived PDGF-BB and HB-EGF in controlling pericyte recruitment to EC-lined tubes during developmental vascularization events.

摘要

最近,我们报告了一种新的系统,通过该系统可以招募人周细胞到 3 维(3D)细胞外基质中的内皮细胞(EC)衬里管中,以刺激血管成熟,包括基底膜基质组装。通过使用这种无血清、定义明确的系统,我们证明了 3D 胶原基质中周细胞的迁移依赖于 EC 的共存在。使用由血小板衍生生长因子受体 β、表皮生长因子受体(EGFR)和 ErbB4 受体的细胞外配体结合结构域组成的可溶性受体陷阱,或针对血小板衍生生长因子(PDGF)-BB 或肝素结合表皮生长因子样生长因子(HB-EGF)的阻断抗体,我们表明这两种 EC 衍生的配体都需要控制周细胞的迁移、增殖和沿着 EC 管腔外表面的募集。阻断周细胞募集会导致基底膜基质沉积缺乏,同时增加血管宽度。在鹌鹑胚胎中联合抑制 PDGF-BB 和 HB-EGF 诱导的信号转导会导致周细胞向 EC 管募集减少、基底膜基质沉积减少、血管宽度增加以及体内血管出血表型,这支持了我们在体外的发现。总之,我们报告了 EC 衍生的 PDGF-BB 和 HB-EGF 在发育血管生成事件中控制周细胞募集到 EC 衬里管中的双重作用。

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本文引用的文献

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Endothelial lumen signaling complexes control 3D matrix-specific tubulogenesis through interdependent Cdc42- and MT1-MMP-mediated events.内皮腔信号复合物通过相互依赖的 Cdc42 和 MT1-MMP 介导的事件控制 3D 基质特异性管状形成。
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NOTCH3 expression is induced in mural cells through an autoregulatory loop that requires endothelial-expressed JAGGED1.NOTCH3表达通过一个需要内皮细胞表达的JAGGED1的自调节环在壁细胞中被诱导。
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Pericyte isolation and use in endothelial/pericyte coculture models.周细胞的分离及其在内皮细胞/周细胞共培养模型中的应用。
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