Protein expression of STRO-1 cells in response to different topographic features

Human skeletal stemcells (STRO-1 positive) display distinct responses to different topographical features. On a flat surface, skeletal cells spread, and in vitro, they typically display a polarized, fibroblast-like morphology. However, on microgrooved surfaces, these cells prefer to stretch along th...

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Main Authors:	Fahsai Kantawong, Mary E. Robertson, Nikolaj Gadegaard, Richard O.C. Oreffo, Richard J. Burchmore, Matthew J. Dalby
Format:	Journal
Published:	2018
Subjects:	Engineering Materials Science Medicine
Online Access:	https://www.scopus.com/inward/record.uri?partnerID=HzOxMe3b&scp=84855961480&origin=inward http://cmuir.cmu.ac.th/jspui/handle/6653943832/49934
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Institution:	Chiang Mai University

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spelling	th-cmuir.6653943832-499342018-09-04T04:25:20Z Protein expression of STRO-1 cells in response to different topographic features Fahsai Kantawong Mary E. Robertson Nikolaj Gadegaard Richard O.C. Oreffo Richard J. Burchmore Matthew J. Dalby Engineering Materials Science Medicine Human skeletal stemcells (STRO-1 positive) display distinct responses to different topographical features. On a flat surface, skeletal cells spread, and in vitro, they typically display a polarized, fibroblast-like morphology. However, on microgrooved surfaces, these cells prefer to stretch along the grooves forming a similar morphology to in vivo, bipolarized fibroblasts. In contrast, on nanopits, these cells display a polygonal and osteoblastic phenotype. We have examined mechanotransduction events of STRO-1 positive in response to fibroblastic, microgrooved and osteogenic, controlled disorder nanopit, topographies using proteomics after 3 days in culture. Protein expression profiles were analyzed by difference gel electrophoresis to identify proteins that showed modulation of expression in response to different topographic features to assess early decision events in these cells on these discrete topographies. After only 72 hours in culture, STRO-1 positive displayed differential regulations of families of proteins involved in cell migration and proliferation. The current study indicated that osteogenic decision specific events had already occurred. Runx2 was localized in nuclei of the skeletal stem cells on the osteogenic nanopits; however, few signaling pathway changes were observed. This study demonstrated that micro- and nanotopographies activated skeletal stem cells at different times and with distinct mechanotransduction profiles. © 2011 Fahsai Kantawong et al. 2018-09-04T04:20:33Z 2018-09-04T04:20:33Z 2011-12-01 Journal 20417314 2-s2.0-84855961480 10.4061/2011/534603 https://www.scopus.com/inward/record.uri?partnerID=HzOxMe3b&scp=84855961480&origin=inward http://cmuir.cmu.ac.th/jspui/handle/6653943832/49934
institution	Chiang Mai University
building	Chiang Mai University Library
country	Thailand
collection	CMU Intellectual Repository
topic	Engineering Materials Science Medicine
spellingShingle	Engineering Materials Science Medicine Fahsai Kantawong Mary E. Robertson Nikolaj Gadegaard Richard O.C. Oreffo Richard J. Burchmore Matthew J. Dalby Protein expression of STRO-1 cells in response to different topographic features
description	Human skeletal stemcells (STRO-1 positive) display distinct responses to different topographical features. On a flat surface, skeletal cells spread, and in vitro, they typically display a polarized, fibroblast-like morphology. However, on microgrooved surfaces, these cells prefer to stretch along the grooves forming a similar morphology to in vivo, bipolarized fibroblasts. In contrast, on nanopits, these cells display a polygonal and osteoblastic phenotype. We have examined mechanotransduction events of STRO-1 positive in response to fibroblastic, microgrooved and osteogenic, controlled disorder nanopit, topographies using proteomics after 3 days in culture. Protein expression profiles were analyzed by difference gel electrophoresis to identify proteins that showed modulation of expression in response to different topographic features to assess early decision events in these cells on these discrete topographies. After only 72 hours in culture, STRO-1 positive displayed differential regulations of families of proteins involved in cell migration and proliferation. The current study indicated that osteogenic decision specific events had already occurred. Runx2 was localized in nuclei of the skeletal stem cells on the osteogenic nanopits; however, few signaling pathway changes were observed. This study demonstrated that micro- and nanotopographies activated skeletal stem cells at different times and with distinct mechanotransduction profiles. © 2011 Fahsai Kantawong et al.
format	Journal
author	Fahsai Kantawong Mary E. Robertson Nikolaj Gadegaard Richard O.C. Oreffo Richard J. Burchmore Matthew J. Dalby
author_facet	Fahsai Kantawong Mary E. Robertson Nikolaj Gadegaard Richard O.C. Oreffo Richard J. Burchmore Matthew J. Dalby
author_sort	Fahsai Kantawong
title	Protein expression of STRO-1 cells in response to different topographic features
title_short	Protein expression of STRO-1 cells in response to different topographic features
title_full	Protein expression of STRO-1 cells in response to different topographic features
title_fullStr	Protein expression of STRO-1 cells in response to different topographic features
title_full_unstemmed	Protein expression of STRO-1 cells in response to different topographic features
title_sort	protein expression of stro-1 cells in response to different topographic features
publishDate	2018
url	https://www.scopus.com/inward/record.uri?partnerID=HzOxMe3b&scp=84855961480&origin=inward http://cmuir.cmu.ac.th/jspui/handle/6653943832/49934
_version_	1681423499375149056

Protein expression of STRO-1 cells in response to different topographic features

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