Cells sense cues in their surrounding microenvironment. These cues are converted into intracellular signals and transduced to the nucleus in order for the cell to respond and adapt its function. Within the nucleus, structural changes occur that ultimately lead to changes in the gene expression. In this study, we explore the structural changes of the nucleus of human mesenchymal stem cells as an effect of topographical cues. We use a controlled nanotopography to drive shape changes to the cell nucleus, and measure the changes with both fluorescence microscopy and a novel light scattering technique. The nucleus changes shape dramatically in response to the nanotopography, and in a manner dependent on the mechanical properties of the substrate. The kinetics of the nuclear deformation follows an unexpected trajectory. As opposed to a gradual shape change in response to the topography, once the cytoskeleton attains an aligned and elongation morphology on the time scale of several hours, the nucleus changes shape rapidly and intensely.
Description
Deformation of stem cell nuclei by nanotopographical cues - Soft Matter (RSC Publishing) DOI:10.1039/B921206J
%0 Journal Article
%1 chalut2010deformation
%A Chalut, Kevin J.
%A Kulangara, Karina
%A Giacomelli, Michael G.
%A Wax, Adam
%A Leong, Kam W.
%D 2010
%I The Royal Society of Chemistry
%J Soft Matter
%K nanotopography phd stemcell
%N 8
%P 1675--1681
%R 10.1039/B921206J
%T Deformation of stem cell nuclei by nanotopographical cues
%U http://dx.doi.org/10.1039/B921206J
%V 6
%X Cells sense cues in their surrounding microenvironment. These cues are converted into intracellular signals and transduced to the nucleus in order for the cell to respond and adapt its function. Within the nucleus, structural changes occur that ultimately lead to changes in the gene expression. In this study, we explore the structural changes of the nucleus of human mesenchymal stem cells as an effect of topographical cues. We use a controlled nanotopography to drive shape changes to the cell nucleus, and measure the changes with both fluorescence microscopy and a novel light scattering technique. The nucleus changes shape dramatically in response to the nanotopography, and in a manner dependent on the mechanical properties of the substrate. The kinetics of the nuclear deformation follows an unexpected trajectory. As opposed to a gradual shape change in response to the topography, once the cytoskeleton attains an aligned and elongation morphology on the time scale of several hours, the nucleus changes shape rapidly and intensely.
@article{chalut2010deformation,
abstract = {Cells sense cues in their surrounding microenvironment. These cues are converted into intracellular signals and transduced to the nucleus in order for the cell to respond and adapt its function. Within the nucleus{,} structural changes occur that ultimately lead to changes in the gene expression. In this study{,} we explore the structural changes of the nucleus of human mesenchymal stem cells as an effect of topographical cues. We use a controlled nanotopography to drive shape changes to the cell nucleus{,} and measure the changes with both fluorescence microscopy and a novel light scattering technique. The nucleus changes shape dramatically in response to the nanotopography{,} and in a manner dependent on the mechanical properties of the substrate. The kinetics of the nuclear deformation follows an unexpected trajectory. As opposed to a gradual shape change in response to the topography{,} once the cytoskeleton attains an aligned and elongation morphology on the time scale of several hours{,} the nucleus changes shape rapidly and intensely.},
added-at = {2014-03-03T13:01:34.000+0100},
author = {Chalut, Kevin J. and Kulangara, Karina and Giacomelli, Michael G. and Wax, Adam and Leong, Kam W.},
biburl = {https://www.bibsonomy.org/bibtex/29198990e31d2b99a8328c8d8419f016a/bkoch},
description = {Deformation of stem cell nuclei by nanotopographical cues - Soft Matter (RSC Publishing) DOI:10.1039/B921206J},
doi = {10.1039/B921206J},
interhash = {44413501e7aba6bd0c866f2aba3d32d2},
intrahash = {9198990e31d2b99a8328c8d8419f016a},
journal = {Soft Matter},
keywords = {nanotopography phd stemcell},
number = 8,
pages = {1675--1681},
publisher = {The Royal Society of Chemistry},
timestamp = {2014-03-03T13:01:34.000+0100},
title = {Deformation of stem cell nuclei by nanotopographical cues},
url = {http://dx.doi.org/10.1039/B921206J},
volume = 6,
year = 2010
}