Hemodynamic shear stress and the endothelium in cardiovascular pathophysiology

机械转化 内皮 剪应力 细胞骨架 细胞生物学 内皮干细胞 生物物理学 细胞 生物 内分泌学 体外 机械 物理 生物化学
作者
Peter F. Davies
出处
期刊:Nature clinical practice cardiovascular medicine [Nature Portfolio]
卷期号:6 (1): 16-26 被引量:1187
标识
DOI:10.1038/ncpcardio1397
摘要

Thirteen years after his seminal Review on flow-mediated endothelial mechanotransduction, Peter Davies reviews the complex spatiotemporal shear stress characteristics that can predict atherosclerosis susceptibility. He also examines endothelial flow-induced responses—collectively known as mechanotransduction—and the spatially decentralized mechanism of endothelial mechanotransduction. Endothelium lining the cardiovascular system is highly sensitive to hemodynamic shear stresses that act at the vessel luminal surface in the direction of blood flow. Physiological variations of shear stress regulate acute changes in vascular diameter and when sustained induce slow, adaptive, structural-wall remodeling. Both processes are endothelium-dependent and are systemically and regionally compromised by hyperlipidemia, hypertension, diabetes and inflammatory disorders. Shear stress spans a range of spatiotemporal scales and contributes to regional and focal heterogeneity of endothelial gene expression, which is important in vascular pathology. Regions of flow disturbances near arterial branches, bifurcations and curvatures result in complex spatiotemporal shear stresses and their characteristics can predict atherosclerosis susceptibility. Changes in local artery geometry during atherogenesis further modify shear stress characteristics at the endothelium. Intravascular devices can also influence flow-mediated endothelial responses. Endothelial flow-induced responses include a cell-signaling repertoire, collectively known as mechanotransduction, that ranges from instantaneous ion fluxes and biochemical pathways to gene and protein expression. A spatially decentralized mechanism of endothelial mechanotransduction is dominant, in which deformation at the cell surface induced by shear stress is transmitted as cytoskeletal tension changes to sites that are mechanically coupled to the cytoskeleton. A single shear stress mechanotransducer is unlikely to exist; rather, mechanotransduction occurs at multiple subcellular locations.
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