γ-肌动蛋白在内皮细胞运动和新血管维持中起关键作用。

Q4 Neuroscience
Vascular Cell Pub Date : 2015-02-06 eCollection Date: 2015-01-01 DOI:10.1186/s13221-014-0027-2
Eddy Pasquier, Maria-Pia Tuset, Snega Sinnappan, Michael Carnell, Alexander Macmillan, Maria Kavallaris
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引用次数: 22

摘要

背景:血管生成在肿瘤的发育、伤口愈合以及肿瘤的生长和转移中起着至关重要的作用。尽管细胞骨架在血管生成中的一般含义已经部分解开,但对肌动蛋白同型体在这一过程中的具体作用知之甚少。在此,我们旨在破译γ-肌动蛋白在血管生成中的功能。方法:采用单克隆抗体共免疫荧光染色法研究β-和γ-肌动蛋白在血管内皮细胞中的定位,并用siRNA分析γ-肌动蛋白的功能。通过延时视频显微镜观察γ-actin敲低对内皮细胞随机运动和向血管网络形态分化的影响,并利用改良Boyden室评估其对趋化性的影响。然后通过Western blotting和使用药物抑制剂检测VE-cadherin, VEGFR-2和ROCK信号的含义。结果:肌动蛋白的两种主要细胞质异构体在血管内皮细胞中有很强的共定位,尽管有一定程度的空间偏好。虽然β-肌动蛋白敲低不可能在没有主要细胞毒性的情况下实现,但γ-肌动蛋白敲低并不会改变内皮细胞的活力。延时视频显微镜实验显示,γ-肌动蛋白敲低的细胞能够启动向毛细血管样管的形态分化,但不能维持这些结构,并迅速退化。这种血管退化与ve -钙粘蛋白表达调节的改变有关。有趣的是,降低γ-actin的表达对内皮细胞对各种底物的粘附没有影响,但显著降低了内皮细胞的运动性和迁移性。这种抗迁移作用与厚的肌动蛋白应力纤维的积累、大的局灶粘连和肌球蛋白调节轻链磷酸化增加有关,表明ROCK信号通路被激活。与ROCK抑制剂H-1152和Y-27632孵育,完全恢复了γ-actin敲低诱导的运动性表型,但仅部分恢复了内皮细胞的血管生成潜能。结论:我们的研究首次证明β-肌动蛋白对内皮细胞存活至关重要,而γ-肌动蛋白在血管生成中起着至关重要的作用,通过rock依赖性和非依赖性机制。这为肌动蛋白细胞骨架在血管生成中的作用提供了新的见解,并可能为血管生成相关疾病的治疗开辟新的治疗途径。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

γ-Actin plays a key role in endothelial cell motility and neovessel maintenance.

γ-Actin plays a key role in endothelial cell motility and neovessel maintenance.

γ-Actin plays a key role in endothelial cell motility and neovessel maintenance.

γ-Actin plays a key role in endothelial cell motility and neovessel maintenance.

Background: Angiogenesis plays a crucial role in development, wound healing as well as tumour growth and metastasis. Although the general implication of the cytoskeleton in angiogenesis has been partially unravelled, little is known about the specific role of actin isoforms in this process. Herein, we aimed at deciphering the function of γ-actin in angiogenesis.

Methods: Localization of β- and γ-actin in vascular endothelial cells was investigated by co-immunofluorescence staining using monoclonal antibodies, followed by the functional analysis of γ-actin using siRNA. The impact of γ-actin knockdown on the random motility and morphological differentiation of endothelial cells into vascular networks was investigated by timelapse videomicroscopy while the effect on chemotaxis was assessed using modified Boyden chambers. The implication of VE-cadherin, VEGFR-2 and ROCK signalling was then examined by Western blotting and using pharmacological inhibitors.

Results: The two main cytoplasmic isoforms of actin strongly co-localized in vascular endothelial cells, albeit with some degree of spatial preference. While β-actin knockdown was not achievable without major cytotoxicity, γ-actin knockdown did not alter the viability of endothelial cells. Timelapse videomicroscopy experiments revealed that γ-actin knockdown cells were able to initiate morphological differentiation into capillary-like tubes but were unable to maintain these structures, which rapidly regressed. This vascular regression was associated with altered regulation of VE-cadherin expression. Interestingly, knocking down γ-actin expression had no effect on endothelial cell adhesion to various substrates but significantly decreased their motility and migration. This anti-migratory effect was associated with an accumulation of thick actin stress fibres, large focal adhesions and increased phosphorylation of myosin regulatory light chain, suggesting activation of the ROCK signalling pathway. Incubation with ROCK inhibitors, H-1152 and Y-27632, completely rescued the motility phenotype induced by γ-actin knockdown but only partially restored the angiogenic potential of endothelial cells.

Conclusions: Our study thus demonstrates for the first time that β-actin is essential for endothelial cell survival and γ-actin plays a crucial role in angiogenesis, through both ROCK-dependent and -independent mechanisms. This provides new insights into the role of the actin cytoskeleton in angiogenesis and may open new therapeutic avenues for the treatment of angiogenesis-related disorders.

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Vascular Cell
Vascular Cell Neuroscience-Neurology
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