Flow-mediated signaling modulates endothelial cell phenotype.

Gwenaele Garin, Bradford C Berk
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引用次数: 49

Abstract

The focal development of atherosclerosis in the vascular tree may be explained in part by the local nature of blood flow. Bifurcations and branching points, prone to early atherogenesis, experience disturbed and oscillatory flow, whereas straight vascular regions, resistant to atherosclerosis, are exposed to steady laminar flow. A large number of studies suggest that the antiatherosclerotic effects of laminar flow are in part due to the ability of flow to modulate endothelial cell phenotype. Under steady laminar flow, endothelial cells generate molecules that promote a vasoactive, anticoagulant, anti-inflammatory, and growth-inhibitory surface. In contrast, disturbed flow induces a proliferative, prothrombotic, and adhesive phenotype. Endothelial cells are able to sense the variations of flow via mechanosensitive cell surface proteins and to transduce these signals via intracellular pathways to transcription factors in the nucleus leading to phenotypic changes. This review summarizes the "outside-in" signaling events initiated by flow that modulate endothelial cell phenotype.

血流介导的信号传导调节内皮细胞表型。
动脉粥样硬化在血管树中的局部发展可能部分地由血流的局部性质来解释。分叉和分支点,容易发生早期动脉粥样硬化,经历扰动和振荡流动,而直血管区域,抵抗动脉粥样硬化,暴露于稳定的层流。大量研究表明,层流的抗动脉粥样硬化作用部分是由于其调节内皮细胞表型的能力。在稳定的层流下,内皮细胞产生促进血管活性、抗凝血、抗炎和生长抑制表面的分子。相反,血流紊乱会引起增生性、血栓性和黏附表型。内皮细胞能够通过机械敏感的细胞表面蛋白感知流量的变化,并通过细胞内途径将这些信号转导到细胞核中的转录因子,从而导致表型变化。本文综述了由血流引发的调节内皮细胞表型的“由外而内”信号事件。
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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