Genomic expression of mesenchymal stem cells to altered nanoscale topographies
Genomic expression of mesenchymal stem cells to altered nanoscale topographies
The understanding of cellular response to the shape of their environment would be of benefit in the development of artificial extracellular environments for potential use in the production of biomimetic surfaces. Specifically, the understanding of how cues from the extracellular environment can be used to understand stem cell differentiation would be of special interest in regenerative medicine.In this paper, the genetic profile of mesenchymal stem cells cultured on two osteogenic nanoscale topographies (pitted surface versus raised islands) are compared with cells treated with dexamethasone, a corticosteroid routinely used to stimulate bone formation in culture from mesenchymal stem cells, using 19k gene microarrays as well as 101 gene arrays specific for osteoblast and endothelial biology.The current studies show that by altering the shape of the matrix a cell response (genomic profile) similar to that achieved with chemical stimulation can be elicited. Here, we show that bone formation can be achieved with efficiency similar to that of dexamethasone with the added benefit that endothelial cell development is not inhibited. We further show that the mechanism of action of the topographies and dexamethasone differs. This could have an implication for tissue engineering in which a simultaneous, targeted, development of a tissue, such as bone, without the suppression of angiogenesis to supply nutrients to the new tissue is required. The results further demonstrate that perhaps the shape of the extracellular matrix is critical to tissue development.
nanobioscience, mesenchymal stem cells, osteogenesis, differentiation, nanotopography, microarray
1055-1065
Dalby, Matthew J.
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Andar, Abhay
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Nag, Abhijit
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Affrossman, Stanley
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Tare, Rahul
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McFarlane, Sara
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Oreffo, Richard O.C.
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6 September 2008
Dalby, Matthew J.
25dcae6a-8289-4169-abb7-c45fff0bafdc
Andar, Abhay
d7819f77-6ca3-4bc5-a547-c4d05101b623
Nag, Abhijit
8c573262-dd54-4d1d-9aa2-346f83aa94fa
Affrossman, Stanley
bf16b996-406e-47cd-b907-815fdea21201
Tare, Rahul
587c9db4-e409-4e7c-a02a-677547ab724a
McFarlane, Sara
0134d431-fa4c-402c-8630-7ce1a8fe8f4e
Oreffo, Richard O.C.
ff9fff72-6855-4d0f-bfb2-311d0e8f3778
Dalby, Matthew J., Andar, Abhay, Nag, Abhijit, Affrossman, Stanley, Tare, Rahul, McFarlane, Sara and Oreffo, Richard O.C.
(2008)
Genomic expression of mesenchymal stem cells to altered nanoscale topographies.
Journal of the Royal Society Interface, 5 (26), .
(doi:10.1098/rsif.2008.0016).
Abstract
The understanding of cellular response to the shape of their environment would be of benefit in the development of artificial extracellular environments for potential use in the production of biomimetic surfaces. Specifically, the understanding of how cues from the extracellular environment can be used to understand stem cell differentiation would be of special interest in regenerative medicine.In this paper, the genetic profile of mesenchymal stem cells cultured on two osteogenic nanoscale topographies (pitted surface versus raised islands) are compared with cells treated with dexamethasone, a corticosteroid routinely used to stimulate bone formation in culture from mesenchymal stem cells, using 19k gene microarrays as well as 101 gene arrays specific for osteoblast and endothelial biology.The current studies show that by altering the shape of the matrix a cell response (genomic profile) similar to that achieved with chemical stimulation can be elicited. Here, we show that bone formation can be achieved with efficiency similar to that of dexamethasone with the added benefit that endothelial cell development is not inhibited. We further show that the mechanism of action of the topographies and dexamethasone differs. This could have an implication for tissue engineering in which a simultaneous, targeted, development of a tissue, such as bone, without the suppression of angiogenesis to supply nutrients to the new tissue is required. The results further demonstrate that perhaps the shape of the extracellular matrix is critical to tissue development.
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Published date: 6 September 2008
Keywords:
nanobioscience, mesenchymal stem cells, osteogenesis, differentiation, nanotopography, microarray
Identifiers
Local EPrints ID: 61040
URI: http://eprints.soton.ac.uk/id/eprint/61040
ISSN: 1742-5689
PURE UUID: b38e822a-7775-4e07-9385-235696dc2e5d
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Date deposited: 03 Oct 2008
Last modified: 16 Mar 2024 03:39
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Contributors
Author:
Matthew J. Dalby
Author:
Abhay Andar
Author:
Abhijit Nag
Author:
Stanley Affrossman
Author:
Sara McFarlane
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