Modulation of Mouse Embryonic Stem Cell Proliferation and Neural Differentiation by the P2X7 Receptor

BACKGROUND: Novel developmental functions have been attributed to the P2X7 receptor (P2X7R) including proliferation stimulation and neural differentiation. Mouse embryonic stem cells (ESC), induced with retinoic acid to neural differentiation, closely assemble processes occurring during neuroectoder...

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Autores principales: Glaser, Talita, de Oliveira, Sophia La Banca, Cheffer, Arquimedes, Beco, Renata, Martins, Patrícia, Fornazari, Maynara, Lameu, Claudiana, Junior, Helio Miranda Costa, Coutinho-Silva, Robson, Ulrich, Henning
Formato: Online Artículo Texto
Lenguaje:English
Publicado: Public Library of Science 2014
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Research Article
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC4010452/
https://www.ncbi.nlm.nih.gov/pubmed/24798220
http://dx.doi.org/10.1371/journal.pone.0096281
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author Glaser, Talita
de Oliveira, Sophia La Banca
Cheffer, Arquimedes
Beco, Renata
Martins, Patrícia
Fornazari, Maynara
Lameu, Claudiana
Junior, Helio Miranda Costa
Coutinho-Silva, Robson
Ulrich, Henning
author_facet Glaser, Talita
de Oliveira, Sophia La Banca
Cheffer, Arquimedes
Beco, Renata
Martins, Patrícia
Fornazari, Maynara
Lameu, Claudiana
Junior, Helio Miranda Costa
Coutinho-Silva, Robson
Ulrich, Henning
author_sort Glaser, Talita
collection PubMed
description BACKGROUND: Novel developmental functions have been attributed to the P2X7 receptor (P2X7R) including proliferation stimulation and neural differentiation. Mouse embryonic stem cells (ESC), induced with retinoic acid to neural differentiation, closely assemble processes occurring during neuroectodermal development of the early embryo. PRINCIPAL FINDINGS: P2X7R expression together with the pluripotency marker Oct-4 was highest in undifferentiated ESC. In undifferentiated cells, the P2X7R agonist Bz-ATP accelerated cell cycle entry, which was blocked by the specific P2X7R inhibitor KN-62. ESC induced to neural differentiation with retinoic acid, reduced Oct-4 and P2X7R expression. P2X7R receptor-promoted intracellular calcium fluxes were obtained at lower Bz-ATP ligand concentrations in undifferentiated and in neural-differentiated cells compared to other studies. The presence of KN-62 led to increased number of cells expressing SSEA-1, Dcx and β3-tubulin, as well as the number of SSEA-1 and β3-tubulin-double-positive cells confirming that onset of neuroectodermal differentiation and neuronal fate determination depends on suppression of P2X7R activity. Moreover, an increase in the number of Ki-67 positive cells in conditions of P2X7R inhibition indicates rescue of progenitors into the cell cycle, augmenting the number of neuroblasts and consequently neurogenesis. CONCLUSIONS: In embryonic cells, P2X7R expression and activity is upregulated, maintaining proliferation, while upon induction to neural differentiation P2X7 receptor expression and activity needs to be suppressed.
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spelling pubmed-40104522014-05-09 Modulation of Mouse Embryonic Stem Cell Proliferation and Neural Differentiation by the P2X7 Receptor Glaser, Talita de Oliveira, Sophia La Banca Cheffer, Arquimedes Beco, Renata Martins, Patrícia Fornazari, Maynara Lameu, Claudiana Junior, Helio Miranda Costa Coutinho-Silva, Robson Ulrich, Henning PLoS One Research Article BACKGROUND: Novel developmental functions have been attributed to the P2X7 receptor (P2X7R) including proliferation stimulation and neural differentiation. Mouse embryonic stem cells (ESC), induced with retinoic acid to neural differentiation, closely assemble processes occurring during neuroectodermal development of the early embryo. PRINCIPAL FINDINGS: P2X7R expression together with the pluripotency marker Oct-4 was highest in undifferentiated ESC. In undifferentiated cells, the P2X7R agonist Bz-ATP accelerated cell cycle entry, which was blocked by the specific P2X7R inhibitor KN-62. ESC induced to neural differentiation with retinoic acid, reduced Oct-4 and P2X7R expression. P2X7R receptor-promoted intracellular calcium fluxes were obtained at lower Bz-ATP ligand concentrations in undifferentiated and in neural-differentiated cells compared to other studies. The presence of KN-62 led to increased number of cells expressing SSEA-1, Dcx and β3-tubulin, as well as the number of SSEA-1 and β3-tubulin-double-positive cells confirming that onset of neuroectodermal differentiation and neuronal fate determination depends on suppression of P2X7R activity. Moreover, an increase in the number of Ki-67 positive cells in conditions of P2X7R inhibition indicates rescue of progenitors into the cell cycle, augmenting the number of neuroblasts and consequently neurogenesis. CONCLUSIONS: In embryonic cells, P2X7R expression and activity is upregulated, maintaining proliferation, while upon induction to neural differentiation P2X7 receptor expression and activity needs to be suppressed. Public Library of Science 2014-05-05 /pmc/articles/PMC4010452/ /pubmed/24798220 http://dx.doi.org/10.1371/journal.pone.0096281 Text en © 2014 Glaser et al http://creativecommons.org/licenses/by/4.0/ This is an open-access article distributed under the terms of the Creative Commons Attribution License, which permits unrestricted use, distribution, and reproduction in any medium, provided the original author and source are properly credited.
spellingShingle Research Article
Glaser, Talita
de Oliveira, Sophia La Banca
Cheffer, Arquimedes
Beco, Renata
Martins, Patrícia
Fornazari, Maynara
Lameu, Claudiana
Junior, Helio Miranda Costa
Coutinho-Silva, Robson
Ulrich, Henning
Modulation of Mouse Embryonic Stem Cell Proliferation and Neural Differentiation by the P2X7 Receptor
title Modulation of Mouse Embryonic Stem Cell Proliferation and Neural Differentiation by the P2X7 Receptor
title_full Modulation of Mouse Embryonic Stem Cell Proliferation and Neural Differentiation by the P2X7 Receptor
title_fullStr Modulation of Mouse Embryonic Stem Cell Proliferation and Neural Differentiation by the P2X7 Receptor
title_full_unstemmed Modulation of Mouse Embryonic Stem Cell Proliferation and Neural Differentiation by the P2X7 Receptor
title_short Modulation of Mouse Embryonic Stem Cell Proliferation and Neural Differentiation by the P2X7 Receptor
title_sort modulation of mouse embryonic stem cell proliferation and neural differentiation by the p2x7 receptor
topic Research Article
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC4010452/
https://www.ncbi.nlm.nih.gov/pubmed/24798220
http://dx.doi.org/10.1371/journal.pone.0096281
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