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Is the Mechanical Activity of Epithelial Cells Controlled by Deformations or Forces?

Overview
Journal Biophys J
Publisher Cell Press
Specialty Biophysics
Date 2005 Oct 11
PMID 16214867
Citations 154
Authors
Alexandre Saez
Axel Buguin
Pascal Silberzan
Benoit Ladoux
Affiliations
Soon will be listed here.
Abstract

The traction forces developed by cells depend strongly on the substrate rigidity. In this letter, we characterize quantitatively this effect on MDCK epithelial cells by using a microfabricated force sensor consisting in a high-density array of soft pillars whose stiffness can be tailored by changing their height and radius to obtain a rigidity range from 2 nN/microm up to 130 nN/microm. We find that the forces exerted by the cells are proportional to the spring constant of the pillars meaning that, on average, the cells deform the pillars by the same amount whatever their rigidity. The relevant parameter may thus be a deformation rather than a force. These dynamic observations are correlated with the reinforcement of focal adhesions that increases with the substrate rigidity.

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