András Iring scite author profile

The vascular endothelium is constantly exposed to mechanical forces, including fluid shear stress exerted by the flowing blood. Endothelial cells can sense different flow patterns and convert the mechanical signal of laminar flow into atheroprotective signals, including eNOS activation, whereas disturbed flow in atheroprone areas induces inflammatory signaling, including NF-κB activation. How endothelial cells distinguish different flow patterns is poorly understood. Here we show that both laminar and disturbed flow activate the same initial pathway involving the mechanosensitive cation channel Piezo1, the purinergic P2Y receptor, and G/G-mediated signaling. However, only disturbed flow leads to Piezo1- and G/G-mediated integrin activation resulting in focal adhesion kinase-dependent NF-κB activation. Mice with induced endothelium-specific deficiency of Piezo1 or Gα/Gα show reduced integrin activation, inflammatory signaling, and progression of atherosclerosis in atheroprone areas. Our data identify critical steps in endothelial mechanotransduction, which distinguish flow pattern-dependent activation of atheroprotective and atherogenic endothelial signaling and suggest novel therapeutic strategies to treat inflammatory vascular disorders such as atherosclerosis.

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P2Y2 and Gq/G11 control blood pressure by mediating endothelial mechanotransduction

Wang¹,

Iring²,

Strilić³

et al. 2015

J. Clin. Invest.

161

192

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Shear stress–induced endothelial adrenomedullin signaling regulates vascular tone and blood pressure

et al. 2019

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András Iring

Endothelial cation channel PIEZO1 controls blood pressure by mediating flow-induced ATP release

Piezo1 and Gq/G11 promote endothelial inflammation depending on flow pattern and integrin activation

P2Y2 and Gq/G11 control blood pressure by mediating endothelial mechanotransduction

Shear stress–induced endothelial adrenomedullin signaling regulates vascular tone and blood pressure

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