The effect of novel nitrogen-rich plasma polymer coatings on the phenotypic profile of notochordal cells

The effect of novel nitrogen-rich plasma polymer coatings on the phenotypic profile of notochordal cells

<p>Abstract</p> <p>Background</p> <p>The loss of the notochordal cells from the nucleus pulposus is associated with ageing and disc degeneration. However, understanding the mechanisms responsible for the loss of these cells has been hampered in part due to the difficult...

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Main Authors: Wertheimer Michael R, Ouellet Jean A, Hunter Christopher J, Girard-Lauriault Pierre-Luc, Petit Alain, Wang Hong, Mwale Fackson, Antoniou John
Format: Article
Language:English
Published: BMC 2007-09-01
Series:BioMedical Engineering OnLine
Online Access:http://www.biomedical-engineering-online.com/content/6/1/33
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spelling doaj-54c09842a05d4a21b3a28bdeabfac6e62020-11-24T23:57:15ZengBMCBioMedical Engineering OnLine1475-925X2007-09-01613310.1186/1475-925X-6-33The effect of novel nitrogen-rich plasma polymer coatings on the phenotypic profile of notochordal cellsWertheimer Michael ROuellet Jean AHunter Christopher JGirard-Lauriault Pierre-LucPetit AlainWang HongMwale FacksonAntoniou John<p>Abstract</p> <p>Background</p> <p>The loss of the notochordal cells from the nucleus pulposus is associated with ageing and disc degeneration. However, understanding the mechanisms responsible for the loss of these cells has been hampered in part due to the difficulty of culturing and maintaining their phenotype. Furthermore, little is known about the influence of the substratum on the molecular markers of notochordal cells.</p> <p>Methods</p> <p>Notochordal cells were isolated from lumbar spine of non-chondrodystrophoid dogs and cultured on N-rich plasma polymer layers, so-called "PPE:N" (N-doped plasma-polymerised ethylene, containing up to 36% [N]) surfaces, for 3, 7 or 14 days. Gene expression of vimentin (VIM), pleiotrophin (PTN), matrix Gla protein (MGP), cartilage oligomeric matrix protein (COMP), keratin 18 (KRT 18), aggrecan (AGG), collagen type 1 (COL1A2), collagen type 2 (COL2A1) was analyzed through semi-quantitative reverse transcription-polymerase chain reaction (RT-PCR).</p> <p>Results</p> <p>Notochordal cells were maintained in culture on PPE:N for up to 14 days with no loss in cell viability. Except for VIM, gene expression varied depending on the culture periods and [N] concentration of the substratum. Generally, PPE:N surfaces altered gene expression significantly when cells were cultured for 3 or 7 days.</p> <p>Conclusion</p> <p>The present study has shown that notochordal cells from dogs can attach to and grow on PPE:N surfaces. Analysis of the expression of different genes in these cells cultured on different N-functionalized surfaces indicates that cellular behaviour is gene-specific and time-dependent. Further studies are required to better understand the roles of specific surface functionalities on receptor sites, and their effects on cellular phenotypes.</p> http://www.biomedical-engineering-online.com/content/6/1/33
collection DOAJ
language English
format Article
sources DOAJ
author Wertheimer Michael R
Ouellet Jean A
Hunter Christopher J
Girard-Lauriault Pierre-Luc
Petit Alain
Wang Hong
Mwale Fackson
Antoniou John
spellingShingle Wertheimer Michael R
Ouellet Jean A
Hunter Christopher J
Girard-Lauriault Pierre-Luc
Petit Alain
Wang Hong
Mwale Fackson
Antoniou John
The effect of novel nitrogen-rich plasma polymer coatings on the phenotypic profile of notochordal cells
BioMedical Engineering OnLine
author_facet Wertheimer Michael R
Ouellet Jean A
Hunter Christopher J
Girard-Lauriault Pierre-Luc
Petit Alain
Wang Hong
Mwale Fackson
Antoniou John
author_sort Wertheimer Michael R
title The effect of novel nitrogen-rich plasma polymer coatings on the phenotypic profile of notochordal cells
title_short The effect of novel nitrogen-rich plasma polymer coatings on the phenotypic profile of notochordal cells
title_full The effect of novel nitrogen-rich plasma polymer coatings on the phenotypic profile of notochordal cells
title_fullStr The effect of novel nitrogen-rich plasma polymer coatings on the phenotypic profile of notochordal cells
title_full_unstemmed The effect of novel nitrogen-rich plasma polymer coatings on the phenotypic profile of notochordal cells
title_sort effect of novel nitrogen-rich plasma polymer coatings on the phenotypic profile of notochordal cells
publisher BMC
series BioMedical Engineering OnLine
issn 1475-925X
publishDate 2007-09-01
description <p>Abstract</p> <p>Background</p> <p>The loss of the notochordal cells from the nucleus pulposus is associated with ageing and disc degeneration. However, understanding the mechanisms responsible for the loss of these cells has been hampered in part due to the difficulty of culturing and maintaining their phenotype. Furthermore, little is known about the influence of the substratum on the molecular markers of notochordal cells.</p> <p>Methods</p> <p>Notochordal cells were isolated from lumbar spine of non-chondrodystrophoid dogs and cultured on N-rich plasma polymer layers, so-called "PPE:N" (N-doped plasma-polymerised ethylene, containing up to 36% [N]) surfaces, for 3, 7 or 14 days. Gene expression of vimentin (VIM), pleiotrophin (PTN), matrix Gla protein (MGP), cartilage oligomeric matrix protein (COMP), keratin 18 (KRT 18), aggrecan (AGG), collagen type 1 (COL1A2), collagen type 2 (COL2A1) was analyzed through semi-quantitative reverse transcription-polymerase chain reaction (RT-PCR).</p> <p>Results</p> <p>Notochordal cells were maintained in culture on PPE:N for up to 14 days with no loss in cell viability. Except for VIM, gene expression varied depending on the culture periods and [N] concentration of the substratum. Generally, PPE:N surfaces altered gene expression significantly when cells were cultured for 3 or 7 days.</p> <p>Conclusion</p> <p>The present study has shown that notochordal cells from dogs can attach to and grow on PPE:N surfaces. Analysis of the expression of different genes in these cells cultured on different N-functionalized surfaces indicates that cellular behaviour is gene-specific and time-dependent. Further studies are required to better understand the roles of specific surface functionalities on receptor sites, and their effects on cellular phenotypes.</p>
url http://www.biomedical-engineering-online.com/content/6/1/33
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