Literature DB >> 19618471

Proliferation of mouse embryonic stem cell progeny and the spontaneous contractile activity of cardiomyocytes are affected by microtopography.

Jesse K Biehl1, Satoshi Yamanaka, Tejal A Desai, Kenneth R Boheler, Brenda Russell.   

Abstract

The niche in which stem cells reside and differentiate is a complex physicochemical microenvironment that regulates cell function. The role played by three-dimensional physical contours was studied on cell progeny derived from mouse embryonic stem cells using microtopographies created on PDMS (poly-dimethyl-siloxane) membranes. While markers of differentiation were not affected, the proliferation of heterogeneous mouse embryonic stem cell-derived progeny was attenuated by 15 microm-, but not 5 microm-high microprojections. This reduction was reversed by Rho kinase and myosin light chain kinase inhibition, which diminishes the tension generating ability of stress fibers. Purified cardiomyocytes derived from embryonic stem cells also showed significant blunting of proliferation and increased beating rates compared with cells grown on flat substrates. Thus, proliferation of stem cell-derived progeny appears to be regulated by microtopography through tension-generation of contractility in the third-dimension. These results emphasize the importance of topographic cues in the modulation of stem cell progeny behavior. Copyright (c) 2009 Wiley-Liss, Inc.

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Year:  2009        PMID: 19618471      PMCID: PMC3717369          DOI: 10.1002/dvdy.22030

Source DB:  PubMed          Journal:  Dev Dyn        ISSN: 1058-8388            Impact factor:   3.780


  42 in total

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4.  Force and focal adhesion assembly: a close relationship studied using elastic micropatterned substrates.

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6.  Cells lying on a bed of microneedles: an approach to isolate mechanical force.

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Review 7.  Differentiation of pluripotent embryonic stem cells into cardiomyocytes.

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Review 8.  Multiscale modeling of form and function.

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  11 in total

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10.  Endothelial cells derived from embryonic stem cells respond to cues from topographical surface patterns.

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