The extracellular matrix microtopography drives critical changes in cellular motility and Rho A activity in colon cancer cells

We have shown that the microtopography (mT) underlying colon cancer changes as a tumor de-differentiates. We distinguish the well-differentiated mT based on the increasing number of "pits" and poorly differentiated mT on the basis of increasing number of "posts." We investigated...

Descripción completa

Detalles Bibliográficos
Autores principales: Rapier, Rebecca, Huq, Jameela, Vishnubhotla, Ramana, Bulic, Marinka, Perrault, Cecile M, Metlushko, Vitali, Cho, Michael, Tay, Roger Tran Son, Glover, Sarah C
Formato: Texto
Lenguaje:English
Publicado: BioMed Central 2010
Materias:
Primary Research
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC2919527/
https://www.ncbi.nlm.nih.gov/pubmed/20667086
http://dx.doi.org/10.1186/1475-2867-10-24
_version_ 1782185197476773888
author Rapier, Rebecca
Huq, Jameela
Vishnubhotla, Ramana
Bulic, Marinka
Perrault, Cecile M
Metlushko, Vitali
Cho, Michael
Tay, Roger Tran Son
Glover, Sarah C
author_facet Rapier, Rebecca
Huq, Jameela
Vishnubhotla, Ramana
Bulic, Marinka
Perrault, Cecile M
Metlushko, Vitali
Cho, Michael
Tay, Roger Tran Son
Glover, Sarah C
author_sort Rapier, Rebecca
collection PubMed
description We have shown that the microtopography (mT) underlying colon cancer changes as a tumor de-differentiates. We distinguish the well-differentiated mT based on the increasing number of "pits" and poorly differentiated mT on the basis of increasing number of "posts." We investigated Rho A as a mechanosensing protein using mT features derived from those observed in the ECM of colon cancer. We evaluated Rho A activity in less-tumorogenic (Caco-2 E) and more tumorigenic (SW620) colon cancer cell-lines on microfabricated pits and posts at 2.5 μm diameter and 200 nm depth/height. In Caco-2 E cells, we observed a decrease in Rho A activity as well as in the ratio of G/F actin on surfaces with either pits or posts but despite this low activity, knockdown of Rho A led to a significant decrease in confined motility suggesting that while Rho A activity is reduced on these surfaces it still plays an important role in controlling cellular response to barriers. In SW620 cells, we observed that Rho A activity was greatest in cells plated on a post microtopography which led to increased cell motility, and an increase in actin cytoskeletal turnover.
format Text
id pubmed-2919527
institution National Center for Biotechnology Information
language English
publishDate 2010
publisher BioMed Central
record_format MEDLINE/PubMed
spelling pubmed-29195272010-08-11 The extracellular matrix microtopography drives critical changes in cellular motility and Rho A activity in colon cancer cells Rapier, Rebecca Huq, Jameela Vishnubhotla, Ramana Bulic, Marinka Perrault, Cecile M Metlushko, Vitali Cho, Michael Tay, Roger Tran Son Glover, Sarah C Cancer Cell Int Primary Research We have shown that the microtopography (mT) underlying colon cancer changes as a tumor de-differentiates. We distinguish the well-differentiated mT based on the increasing number of "pits" and poorly differentiated mT on the basis of increasing number of "posts." We investigated Rho A as a mechanosensing protein using mT features derived from those observed in the ECM of colon cancer. We evaluated Rho A activity in less-tumorogenic (Caco-2 E) and more tumorigenic (SW620) colon cancer cell-lines on microfabricated pits and posts at 2.5 μm diameter and 200 nm depth/height. In Caco-2 E cells, we observed a decrease in Rho A activity as well as in the ratio of G/F actin on surfaces with either pits or posts but despite this low activity, knockdown of Rho A led to a significant decrease in confined motility suggesting that while Rho A activity is reduced on these surfaces it still plays an important role in controlling cellular response to barriers. In SW620 cells, we observed that Rho A activity was greatest in cells plated on a post microtopography which led to increased cell motility, and an increase in actin cytoskeletal turnover. BioMed Central 2010-07-28 /pmc/articles/PMC2919527/ /pubmed/20667086 http://dx.doi.org/10.1186/1475-2867-10-24 Text en Copyright ©2010 Rapier et al; licensee BioMed Central Ltd. http://creativecommons.org/licenses/by/2.0 This is an Open Access article distributed under the terms of the Creative Commons Attribution License (http://creativecommons.org/licenses/by/2.0), which permits unrestricted use, distribution, and reproduction in any medium, provided the original work is properly cited.
spellingShingle Primary Research
Rapier, Rebecca
Huq, Jameela
Vishnubhotla, Ramana
Bulic, Marinka
Perrault, Cecile M
Metlushko, Vitali
Cho, Michael
Tay, Roger Tran Son
Glover, Sarah C
The extracellular matrix microtopography drives critical changes in cellular motility and Rho A activity in colon cancer cells
title The extracellular matrix microtopography drives critical changes in cellular motility and Rho A activity in colon cancer cells
title_full The extracellular matrix microtopography drives critical changes in cellular motility and Rho A activity in colon cancer cells
title_fullStr The extracellular matrix microtopography drives critical changes in cellular motility and Rho A activity in colon cancer cells
title_full_unstemmed The extracellular matrix microtopography drives critical changes in cellular motility and Rho A activity in colon cancer cells
title_short The extracellular matrix microtopography drives critical changes in cellular motility and Rho A activity in colon cancer cells
title_sort extracellular matrix microtopography drives critical changes in cellular motility and rho a activity in colon cancer cells
topic Primary Research
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC2919527/
https://www.ncbi.nlm.nih.gov/pubmed/20667086
http://dx.doi.org/10.1186/1475-2867-10-24
work_keys_str_mv AT rapierrebecca theextracellularmatrixmicrotopographydrivescriticalchangesincellularmotilityandrhoaactivityincoloncancercells
AT huqjameela theextracellularmatrixmicrotopographydrivescriticalchangesincellularmotilityandrhoaactivityincoloncancercells
AT vishnubhotlaramana theextracellularmatrixmicrotopographydrivescriticalchangesincellularmotilityandrhoaactivityincoloncancercells
AT bulicmarinka theextracellularmatrixmicrotopographydrivescriticalchangesincellularmotilityandrhoaactivityincoloncancercells
AT perraultcecilem theextracellularmatrixmicrotopographydrivescriticalchangesincellularmotilityandrhoaactivityincoloncancercells
AT metlushkovitali theextracellularmatrixmicrotopographydrivescriticalchangesincellularmotilityandrhoaactivityincoloncancercells
AT chomichael theextracellularmatrixmicrotopographydrivescriticalchangesincellularmotilityandrhoaactivityincoloncancercells
AT tayrogertranson theextracellularmatrixmicrotopographydrivescriticalchangesincellularmotilityandrhoaactivityincoloncancercells
AT gloversarahc theextracellularmatrixmicrotopographydrivescriticalchangesincellularmotilityandrhoaactivityincoloncancercells
AT rapierrebecca extracellularmatrixmicrotopographydrivescriticalchangesincellularmotilityandrhoaactivityincoloncancercells
AT huqjameela extracellularmatrixmicrotopographydrivescriticalchangesincellularmotilityandrhoaactivityincoloncancercells
AT vishnubhotlaramana extracellularmatrixmicrotopographydrivescriticalchangesincellularmotilityandrhoaactivityincoloncancercells
AT bulicmarinka extracellularmatrixmicrotopographydrivescriticalchangesincellularmotilityandrhoaactivityincoloncancercells
AT perraultcecilem extracellularmatrixmicrotopographydrivescriticalchangesincellularmotilityandrhoaactivityincoloncancercells
AT metlushkovitali extracellularmatrixmicrotopographydrivescriticalchangesincellularmotilityandrhoaactivityincoloncancercells
AT chomichael extracellularmatrixmicrotopographydrivescriticalchangesincellularmotilityandrhoaactivityincoloncancercells
AT tayrogertranson extracellularmatrixmicrotopographydrivescriticalchangesincellularmotilityandrhoaactivityincoloncancercells
AT gloversarahc extracellularmatrixmicrotopographydrivescriticalchangesincellularmotilityandrhoaactivityincoloncancercells

Ejemplares similares