极化的肌动蛋白和 VE-钙黏蛋白动态调节芽生血管生成过程中的连接重塑和细胞迁移。

Polarized actin and VE-cadherin dynamics regulate junctional remodelling and cell migration during sprouting angiogenesis.

机构信息

Institute of Anatomy and Vascular Biology, Westfälische Wilhelms University of Münster, Faculty of Medicine, D-48149, Münster, Germany.

Max Planck Institute for Molecular Biomedicine and Westfälische Wilhelms University of Münster, Faculty of Medicine, D-48149, Münster, Germany.

出版信息

Nat Commun. 2017 Dec 20;8(1):2210. doi: 10.1038/s41467-017-02373-8.

DOI:10.1038/s41467-017-02373-8

PMID:29263363

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC5738342/

Abstract

VEGFR-2/Notch signalling regulates angiogenesis in part by driving the remodelling of endothelial cell junctions and by inducing cell migration. Here, we show that VEGF-induced polarized cell elongation increases cell perimeter and decreases the relative VE-cadherin concentration at junctions, triggering polarized formation of actin-driven junction-associated intermittent lamellipodia (JAIL) under control of the WASP/WAVE/ARP2/3 complex. JAIL allow formation of new VE-cadherin adhesion sites that are critical for cell migration and monolayer integrity. Whereas at the leading edge of the cell, large JAIL drive cell migration with supportive contraction, lateral junctions show small JAIL that allow relative cell movement. VEGFR-2 activation initiates cell elongation through dephosphorylation of junctional myosin light chain II, which leads to a local loss of tension to induce JAIL-mediated junctional remodelling. These events require both microtubules and polarized Rac activity. Together, we propose a model where polarized JAIL formation drives directed cell migration and junctional remodelling during sprouting angiogenesis.

摘要

VEGFR-2/Notch 信号通路通过驱动内皮细胞连接的重塑和诱导细胞迁移来调节血管生成。在这里，我们表明，VEGF 诱导的极化细胞伸长增加了细胞周长，并降低了连接处 VE-钙粘蛋白的相对浓度，触发了肌动蛋白驱动的连接相关间歇片状伪足（JAIL）的极化形成，该过程受 WASP/WAVE/ARP2/3 复合物的控制。JAIL 允许形成新的 VE-钙粘蛋白粘附位点，这对于细胞迁移和单层完整性至关重要。在细胞的前缘，大的 JAIL 通过支持收缩来驱动细胞迁移，而侧向连接则显示允许相对细胞运动的小 JAIL。VEGFR-2 的激活通过去磷酸化连接肌球蛋白轻链 II 来启动细胞伸长，这导致局部张力损失，从而诱导 JAIL 介导的连接重塑。这些事件需要微管和极化 Rac 活性。总之，我们提出了一个模型，其中极化 JAIL 的形成在发芽血管生成过程中驱动定向细胞迁移和连接重塑。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/a3c8/5738342/af4ad39f7a52/41467_2017_2373_Fig1_HTML.jpg

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极化的肌动蛋白和 VE-钙黏蛋白动态调节芽生血管生成过程中的连接重塑和细胞迁移。

Polarized actin and VE-cadherin dynamics regulate junctional remodelling and cell migration during sprouting angiogenesis.

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