The extracellular matrix controls gap junction protein expression and function in postnatal hippocampal neural progenitor cells

The extracellular matrix controls gap junction protein expression and function in postnatal hippocampal neural progenitor cells

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<p>Abstract</p> <p>Background</p> <p>Gap junction protein and extracellular matrix signalling systems act in concert to influence developmental specification of neural stem and progenitor cells. It is not known how these two signalling systems interact. Here, we examine...

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Main Authors: Imbeault Sophie, Gauvin Lianne G, Toeg Hadi D, Pettit Alexandra, Sorbara Catherine D, Migahed Lamiaa, DesRoches Rebecca, Menzies A Sheila, Nishii Kiyomasa, Paul David L, Simon Alexander M, Bennett Steffany AL
Format: Article
Language:English
Published: BMC 2009-02-01
Series:BMC Neuroscience
Online Access:http://www.biomedcentral.com/1471-2202/10/13
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spelling doaj-85c6f30f8e5d48dfa2282f565ddf9a882020-11-24T22:12:51ZengBMCBMC Neuroscience1471-22022009-02-011011310.1186/1471-2202-10-13The extracellular matrix controls gap junction protein expression and function in postnatal hippocampal neural progenitor cellsImbeault SophieGauvin Lianne GToeg Hadi DPettit AlexandraSorbara Catherine DMigahed LamiaaDesRoches RebeccaMenzies A SheilaNishii KiyomasaPaul David LSimon Alexander MBennett Steffany AL<p>Abstract</p> <p>Background</p> <p>Gap junction protein and extracellular matrix signalling systems act in concert to influence developmental specification of neural stem and progenitor cells. It is not known how these two signalling systems interact. Here, we examined the role of ECM components in regulating connexin expression and function in postnatal hippocampal progenitor cells.</p> <p>Results</p> <p>We found that Cx26, Cx29, Cx30, Cx37, Cx40, Cx43, Cx45, and Cx47 mRNA and protein but only Cx32 and Cx36 mRNA are detected in distinct neural progenitor cell populations cultured in the absence of exogenous ECM. Multipotential Type 1 cells express Cx26, Cx30, and Cx43 protein. Their Type 2a progeny but not Type 2b and 3 neuronally committed progenitor cells additionally express Cx37, Cx40, and Cx45. Cx29 and Cx47 protein is detected in early oligodendrocyte progenitors and mature oligodendrocytes respectively. Engagement with a laminin substrate markedly increases Cx26 protein expression, decreases Cx40, Cx43, Cx45, and Cx47 protein expression, and alters subcellular localization of Cx30. These changes are associated with decreased neurogenesis. Further, laminin elicits the appearance of Cx32 protein in early oligodendrocyte progenitors and Cx36 protein in immature neurons. These changes impact upon functional connexin-mediated hemichannel activity but not gap junctional intercellular communication.</p> <p>Conclusion</p> <p>Together, these findings demonstrate a new role for extracellular matrix-cell interaction, specifically laminin, in the regulation of intrinsic connexin expression and function in postnatal neural progenitor cells.</p> http://www.biomedcentral.com/1471-2202/10/13
collection DOAJ
language English
format Article
sources DOAJ
author Imbeault Sophie
Gauvin Lianne G
Toeg Hadi D
Pettit Alexandra
Sorbara Catherine D
Migahed Lamiaa
DesRoches Rebecca
Menzies A Sheila
Nishii Kiyomasa
Paul David L
Simon Alexander M
Bennett Steffany AL
spellingShingle Imbeault Sophie
Gauvin Lianne G
Toeg Hadi D
Pettit Alexandra
Sorbara Catherine D
Migahed Lamiaa
DesRoches Rebecca
Menzies A Sheila
Nishii Kiyomasa
Paul David L
Simon Alexander M
Bennett Steffany AL
The extracellular matrix controls gap junction protein expression and function in postnatal hippocampal neural progenitor cells
BMC Neuroscience
author_facet Imbeault Sophie
Gauvin Lianne G
Toeg Hadi D
Pettit Alexandra
Sorbara Catherine D
Migahed Lamiaa
DesRoches Rebecca
Menzies A Sheila
Nishii Kiyomasa
Paul David L
Simon Alexander M
Bennett Steffany AL
author_sort Imbeault Sophie
title The extracellular matrix controls gap junction protein expression and function in postnatal hippocampal neural progenitor cells
title_short The extracellular matrix controls gap junction protein expression and function in postnatal hippocampal neural progenitor cells
title_full The extracellular matrix controls gap junction protein expression and function in postnatal hippocampal neural progenitor cells
title_fullStr The extracellular matrix controls gap junction protein expression and function in postnatal hippocampal neural progenitor cells
title_full_unstemmed The extracellular matrix controls gap junction protein expression and function in postnatal hippocampal neural progenitor cells
title_sort extracellular matrix controls gap junction protein expression and function in postnatal hippocampal neural progenitor cells
publisher BMC
series BMC Neuroscience
issn 1471-2202
publishDate 2009-02-01
description <p>Abstract</p> <p>Background</p> <p>Gap junction protein and extracellular matrix signalling systems act in concert to influence developmental specification of neural stem and progenitor cells. It is not known how these two signalling systems interact. Here, we examined the role of ECM components in regulating connexin expression and function in postnatal hippocampal progenitor cells.</p> <p>Results</p> <p>We found that Cx26, Cx29, Cx30, Cx37, Cx40, Cx43, Cx45, and Cx47 mRNA and protein but only Cx32 and Cx36 mRNA are detected in distinct neural progenitor cell populations cultured in the absence of exogenous ECM. Multipotential Type 1 cells express Cx26, Cx30, and Cx43 protein. Their Type 2a progeny but not Type 2b and 3 neuronally committed progenitor cells additionally express Cx37, Cx40, and Cx45. Cx29 and Cx47 protein is detected in early oligodendrocyte progenitors and mature oligodendrocytes respectively. Engagement with a laminin substrate markedly increases Cx26 protein expression, decreases Cx40, Cx43, Cx45, and Cx47 protein expression, and alters subcellular localization of Cx30. These changes are associated with decreased neurogenesis. Further, laminin elicits the appearance of Cx32 protein in early oligodendrocyte progenitors and Cx36 protein in immature neurons. These changes impact upon functional connexin-mediated hemichannel activity but not gap junctional intercellular communication.</p> <p>Conclusion</p> <p>Together, these findings demonstrate a new role for extracellular matrix-cell interaction, specifically laminin, in the regulation of intrinsic connexin expression and function in postnatal neural progenitor cells.</p>
url http://www.biomedcentral.com/1471-2202/10/13
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