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A KLF2-BMPER-Smad1/5 checkpoint regulates high fluid shear stress-mediated artery remodeling.


ABSTRACT: Vascular remodeling to match arterial diameter to tissue requirements commonly fails in ischemic disease. Endothelial cells sense fluid shear stress (FSS) from blood flow to maintain FSS within a narrow range in healthy vessels. Thus, high FSS induces vessel outward remodeling, but mechanisms are poorly understood. We previously reported that Smad1/5 is maximally activated at physiological FSS. Smad1/5 limits Akt activation, suggesting that inhibiting Smad1/5 may facilitate outward remodeling. Here we report that high FSS suppresses Smad1/5 by elevating KLF2, which induces the bone morphogenetic protein (BMP) pathway inhibitor, BMP-binding endothelial regulator (BMPER), thereby de-inhibiting Akt. In mice, surgically induced high FSS elevated BMPER expression, inactivated Smad1/5 and induced vessel outward remodeling. Endothelial BMPER deletion impaired blood flow recovery and vascular remodeling. Blocking endothelial cell Smad1/5 activation with BMP9/10 blocking antibodies improved vascular remodeling in mouse models of type 1 and type 2 diabetes. Suppression of Smad1/5 is thus a potential therapeutic approach for ischemic disease.

SUBMITTER: Deng H 

PROVIDER: S-EPMC12306366 | biostudies-literature | 2024 Jul

REPOSITORIES: biostudies-literature

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A KLF2-BMPER-Smad1/5 checkpoint regulates high fluid shear stress-mediated artery remodeling.

Deng Hanqiang H   Zhang Jiasheng J   Wang Yewei Y   Joshi Divyesh D   Pi Xinchun X   De Val Sarah S   Schwartz Martin A MA  

Nature cardiovascular research 20240708 7


Vascular remodeling to match arterial diameter to tissue requirements commonly fails in ischemic disease. Endothelial cells sense fluid shear stress (FSS) from blood flow to maintain FSS within a narrow range in healthy vessels. Thus, high FSS induces vessel outward remodeling, but mechanisms are poorly understood. We previously reported that Smad1/5 is maximally activated at physiological FSS. Smad1/5 limits Akt activation, suggesting that inhibiting Smad1/5 may facilitate outward remodeling. H  ...[more]

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