Endothelial Plasticity: Shifting Phenotypes through Force Feedback

Guido Krenning; Valerio G. Barauna; José E. Krieger; Martin C. Harmsen; Jan-Renier A. J. Moonen

doi:10.1155/2016/9762959

Stem Cells International (Jan 2016)

Endothelial Plasticity: Shifting Phenotypes through Force Feedback

Guido Krenning,
Valerio G. Barauna,
José E. Krieger,
Martin C. Harmsen,
Jan-Renier A. J. Moonen

Affiliations

Guido Krenning: Cardiovascular Regenerative Medicine Research Group (Cavarem), Department of Pathology & Medical Biology, University Medical Center Groningen, University of Groningen, Hanzeplein 1 (EA11), 9713GZ Groningen, Netherlands
Valerio G. Barauna: Laboratory of Genetics and Molecular Cardiology (LIM13), Heart Institute (InCor), University of São Paulo, Avenida Dr. Eneas C. Aguiar 44, 05403-000 São Paulo, SP, Brazil
José E. Krieger: Laboratory of Genetics and Molecular Cardiology (LIM13), Heart Institute (InCor), University of São Paulo, Avenida Dr. Eneas C. Aguiar 44, 05403-000 São Paulo, SP, Brazil
Martin C. Harmsen: Cardiovascular Regenerative Medicine Research Group (Cavarem), Department of Pathology & Medical Biology, University Medical Center Groningen, University of Groningen, Hanzeplein 1 (EA11), 9713GZ Groningen, Netherlands
Jan-Renier A. J. Moonen: Cardiovascular Regenerative Medicine Research Group (Cavarem), Department of Pathology & Medical Biology, University Medical Center Groningen, University of Groningen, Hanzeplein 1 (EA11), 9713GZ Groningen, Netherlands

DOI: https://doi.org/10.1155/2016/9762959
Journal volume & issue: Vol. 2016

Abstract

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The endothelial lining of the vasculature is exposed to a large variety of biochemical and hemodynamic stimuli with different gradients throughout the vascular network. Adequate adaptation requires endothelial cells to be highly plastic, which is reflected by the remarkable heterogeneity of endothelial cells in tissues and organs. Hemodynamic forces such as fluid shear stress and cyclic strain are strong modulators of the endothelial phenotype and function. Although endothelial plasticity is essential during development and adult physiology, proatherogenic stimuli can induce adverse plasticity which contributes to disease. Endothelial-to-mesenchymal transition (EndMT), the hallmark of endothelial plasticity, was long thought to be restricted to embryonic development but has emerged as a pathologic process in a plethora of diseases. In this perspective we argue how shear stress and cyclic strain can modulate EndMT and discuss how this is reflected in atherosclerosis and pulmonary arterial hypertension.

Published in Stem Cells International

ISSN: 1687-966X (Print); 1687-9678 (Online)
Publisher: Hindawi Limited
Country of publisher: United Kingdom
LCC subjects: Medicine: Internal medicine
Website: https://www.hindawi.com/journals/sci/

About the journal