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Glucose Regulates Rat Beta Cell Number through Age-Dependent Effects on Beta Cell Survival and Proliferation

BACKGROUND: Glucose effects on beta cell survival and DNA-synthesis suggest a role as regulator of beta cell mass but data on beta cell numbers are lacking. We examined outcome of these influences on the number of beta cells isolated at different growth stages in their population. METHODS: Beta cell...

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Autores principales: Assefa, Zerihun, Lavens, Astrid, Steyaert, Christophe, Stangé, Geert, Martens, Geert A., Ling, Zhidong, Hellemans, Karine, Pipeleers, Daniel
Formato: Online Artículo Texto
Lenguaje:English
Publicado: Public Library of Science 2014
Materias:
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC3887027/
https://www.ncbi.nlm.nih.gov/pubmed/24416358
http://dx.doi.org/10.1371/journal.pone.0085174
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author Assefa, Zerihun
Lavens, Astrid
Steyaert, Christophe
Stangé, Geert
Martens, Geert A.
Ling, Zhidong
Hellemans, Karine
Pipeleers, Daniel
author_facet Assefa, Zerihun
Lavens, Astrid
Steyaert, Christophe
Stangé, Geert
Martens, Geert A.
Ling, Zhidong
Hellemans, Karine
Pipeleers, Daniel
author_sort Assefa, Zerihun
collection PubMed
description BACKGROUND: Glucose effects on beta cell survival and DNA-synthesis suggest a role as regulator of beta cell mass but data on beta cell numbers are lacking. We examined outcome of these influences on the number of beta cells isolated at different growth stages in their population. METHODS: Beta cells from neonatal, young-adult and old rats were cultured serum-free for 15 days. Their number was counted by automated whole-well imaging distinguishing influences on cell survival and on proliferative activity. RESULTS: Elevated glucose (10–20 versus 5 mmol/l) increased the number of living beta cells from 8-week rats to 30%, following a time- and concentration-dependent recruitment of quiescent cells into DNA-synthesis; a glucokinase-activator lowered the threshold but did not raise total numbers of glucose-recruitable cells. No glucose-induced increase occurred in beta cells from 40-week rats. Neonatal beta cells doubled in number at 5 mmol/l involving a larger activated fraction that did not increase at higher concentrations; however, their higher susceptibility to glucose toxicity at 20 mmol/l resulted in 20% lower living cell numbers than at start. None of the age groups exhibited a repetitively proliferating subpopulation. CONCLUSIONS: Chronically elevated glucose levels increased the number of beta cells from young-adult but not from old rats; they interfered with expansion of neonatal beta cells and reduced their number. These effects are attributed to age-dependent differences in basal and glucose-induced proliferative activity and in cellular susceptibility to glucose toxicity. They also reflect age-dependent variations in the functional heterogeneity of the rat beta cell population.
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spelling pubmed-38870272014-01-10 Glucose Regulates Rat Beta Cell Number through Age-Dependent Effects on Beta Cell Survival and Proliferation Assefa, Zerihun Lavens, Astrid Steyaert, Christophe Stangé, Geert Martens, Geert A. Ling, Zhidong Hellemans, Karine Pipeleers, Daniel PLoS One Research Article BACKGROUND: Glucose effects on beta cell survival and DNA-synthesis suggest a role as regulator of beta cell mass but data on beta cell numbers are lacking. We examined outcome of these influences on the number of beta cells isolated at different growth stages in their population. METHODS: Beta cells from neonatal, young-adult and old rats were cultured serum-free for 15 days. Their number was counted by automated whole-well imaging distinguishing influences on cell survival and on proliferative activity. RESULTS: Elevated glucose (10–20 versus 5 mmol/l) increased the number of living beta cells from 8-week rats to 30%, following a time- and concentration-dependent recruitment of quiescent cells into DNA-synthesis; a glucokinase-activator lowered the threshold but did not raise total numbers of glucose-recruitable cells. No glucose-induced increase occurred in beta cells from 40-week rats. Neonatal beta cells doubled in number at 5 mmol/l involving a larger activated fraction that did not increase at higher concentrations; however, their higher susceptibility to glucose toxicity at 20 mmol/l resulted in 20% lower living cell numbers than at start. None of the age groups exhibited a repetitively proliferating subpopulation. CONCLUSIONS: Chronically elevated glucose levels increased the number of beta cells from young-adult but not from old rats; they interfered with expansion of neonatal beta cells and reduced their number. These effects are attributed to age-dependent differences in basal and glucose-induced proliferative activity and in cellular susceptibility to glucose toxicity. They also reflect age-dependent variations in the functional heterogeneity of the rat beta cell population. Public Library of Science 2014-01-09 /pmc/articles/PMC3887027/ /pubmed/24416358 http://dx.doi.org/10.1371/journal.pone.0085174 Text en © 2014 Assefa 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
Assefa, Zerihun
Lavens, Astrid
Steyaert, Christophe
Stangé, Geert
Martens, Geert A.
Ling, Zhidong
Hellemans, Karine
Pipeleers, Daniel
Glucose Regulates Rat Beta Cell Number through Age-Dependent Effects on Beta Cell Survival and Proliferation
title Glucose Regulates Rat Beta Cell Number through Age-Dependent Effects on Beta Cell Survival and Proliferation
title_full Glucose Regulates Rat Beta Cell Number through Age-Dependent Effects on Beta Cell Survival and Proliferation
title_fullStr Glucose Regulates Rat Beta Cell Number through Age-Dependent Effects on Beta Cell Survival and Proliferation
title_full_unstemmed Glucose Regulates Rat Beta Cell Number through Age-Dependent Effects on Beta Cell Survival and Proliferation
title_short Glucose Regulates Rat Beta Cell Number through Age-Dependent Effects on Beta Cell Survival and Proliferation
title_sort glucose regulates rat beta cell number through age-dependent effects on beta cell survival and proliferation
topic Research Article
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC3887027/
https://www.ncbi.nlm.nih.gov/pubmed/24416358
http://dx.doi.org/10.1371/journal.pone.0085174
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