Sarka Tumova scite author profile

The mechanisms by which physical forces regulate endothelial cells to determine the complexities of vascular structure and function are enigmatic1-5. Studies of sensory neurons have suggested Piezo proteins as subunits of Ca2+-permeable non-selective cationic channels for detection of noxious mechanical impact6-8. Here we show Piezo1 (FAM38A) channels as sensors of frictional force (shear stress) and determinants of vascular structure in both development and adult physiology. Global or endothelial-specific disruption of mouse Piezo1 profoundly disturbed the developing vasculature and was embryonic lethal within days of the heart beating. Haploinsufficiency was not lethal but endothelial abnormality was detected in mature vessels. Importance of Piezo1 channels as sensors of blood flow was shown by Piezo1 dependence of shear stress-evoked ionic current and calcium influx in endothelial cells and the ability of exogenous Piezo1 to confer sensitivity to shear stress on otherwise resistant cells. Downstream of this calcium influx was protease activity and spatial organization of endothelial cells to the polarity of the applied force. The data suggest Piezo1 channels as pivotal integrators in vascular biology.

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Orai1 and CRAC Channel Dependence of VEGF-Activated Ca ²⁺ Entry and Endothelial Tube Formation

Cubbon

Wilson

et al. 2011

Circulation Research

173

281

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Rationale: Orai1 and the associated calcium release-activated calcium (CRAC) channel were discovered in the immune system. Existence also in endothelial cells has been suggested, but the relevance to endothelial biology is mostly unknown.Objective: The aim of this study was to investigate the relevance of Orai1 and CRAC channels to vascular endothelial growth factor (VEGF) and endothelial tube formation. Methods and Results:

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Heparan sulfate proteoglycans on the cell surface: versatile coordinators of cellular functions

Tumova

Woods

Couchman

2000

The International Journal of Biochemistry & Cell Biology

339

271

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Syndecan-4 Binding to the High Affinity Heparin-Binding Domain of Fibronectin Drives Focal Adhesion Formation in Fibroblasts

Woods

Longley

Tumova

et al. 2000

Archives of Biochemistry and Biophysics

207

191

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Sarka Tumova

Piezo1 integration of vascular architecture with physiological force

Orai1 and CRAC Channel Dependence of VEGF-Activated Ca ²⁺ Entry and Endothelial Tube Formation

Heparan sulfate proteoglycans on the cell surface: versatile coordinators of cellular functions

Syndecan-4 Binding to the High Affinity Heparin-Binding Domain of Fibronectin Drives Focal Adhesion Formation in Fibroblasts

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Sarka Tumova

Piezo1 integration of vascular architecture with physiological force

Orai1 and CRAC Channel Dependence of VEGF-Activated Ca 2+ Entry and Endothelial Tube Formation

Heparan sulfate proteoglycans on the cell surface: versatile coordinators of cellular functions

Syndecan-4 Binding to the High Affinity Heparin-Binding Domain of Fibronectin Drives Focal Adhesion Formation in Fibroblasts

Contact Info

Product

Resources

About

Orai1 and CRAC Channel Dependence of VEGF-Activated Ca ²⁺ Entry and Endothelial Tube Formation