Protein restriction in early life is associated with changes in insulin sensitivity and pancreatic [beta]-cell function during pregnancy

Protein restriction in early life is associated with changes in insulin sensitivity and pancreatic [beta]-cell function during pregnancy

Malnutrition in early life impairs glucose-stimulated insulin secretion in adulthood. Conversely, pregnancy is associated with a significant increase in glucose-stimulated insulin secretion under conditions of normoglycaemia. A failure in [beta]-cell adaptive changes may contribute to the onset of d...

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Veröffentlicht in:British journal of nutrition 2013-01, Vol.109 (2), p.236
Hauptverfasser: Ignácio-Souza, Letícia Martins, Reis, Sílvia Regina, Arantes, Vanessa Cristina, Botosso, Bárbara Laet, Veloso, Roberto Vilela, Ferreira, Fabiano, Boschero, Antonio Carlos, Carneiro, Everardo Magalhães, de Barros Reis, Marise Auxiliadora, Latorraca, Márcia Queiroz
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Sprache:eng
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Biosynthesis
Cells
Glucose
Insulin
Malnutrition
Pregnancy
Proteins
Sensitivity
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container_issue 2
container_start_page 236
container_title British journal of nutrition
container_volume 109
creator Ignácio-Souza, Letícia Martins
Reis, Sílvia Regina
Arantes, Vanessa Cristina
Botosso, Bárbara Laet
Veloso, Roberto Vilela
Ferreira, Fabiano
Boschero, Antonio Carlos
Carneiro, Everardo Magalhães
de Barros Reis, Marise Auxiliadora
Latorraca, Márcia Queiroz
description Malnutrition in early life impairs glucose-stimulated insulin secretion in adulthood. Conversely, pregnancy is associated with a significant increase in glucose-stimulated insulin secretion under conditions of normoglycaemia. A failure in [beta]-cell adaptive changes may contribute to the onset of diabetes. Thus, glucose homeostasis and [beta]-cell function were evaluated in control-fed pregnant (CP) and non-pregnant (CNP) or protein-restricted pregnant (LPP) and non-pregnant (LPNP) rats, from fetal to adult life, and in protein-restricted rats that were recovered after weaning (RP and RNP). The typical insulin resistance of pregnancy was not observed in the RP rats, nor did pregnancy increase the insulin content/islet in the LPP group. The glucose dose-response curves from pregnant rats were shifted to the left in relation to the non-pregnant rats, except in the recovered group. Glucose utilisation but not oxidation in islets from the RP and LPP groups was reduced at a concentration of 8·3 mm-glucose compared with islets from the CP group. Cyclic AMP content and the potentiation of glucose-stimulated insulin secretion by isobutylmethylxanthine at a concentration of 2·8 mm-glucose indicated increased adenylyl cyclase 3 activity but reduced protein kinase A-[alpha] activity in islets from the RP and LPP rats. Protein kinase C (PKC)-[alpha] but not phospholipase C (PLC)-[beta]1 expression was reduced in islets from the RP group. Phorbol-12-myristate 13-acetate produced a less potent stimulation of glucose-stimulated insulin secretion in the RP group. Thus, the alterations exhibited by islets from the LPP group appeared to be due to reduced islet mass and/or insulin biosynthesis. In the RP group the loss of the adaptive capacity apparently resulted from uncoupling between glucose metabolism and the amplifying signals of the secretory process, as well as a severe attenuation of the PLC/PKC pathway. [PUBLICATION ABSTRACT]
doi_str_mv 10.1017/S000711451200089X
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Conversely, pregnancy is associated with a significant increase in glucose-stimulated insulin secretion under conditions of normoglycaemia. A failure in [beta]-cell adaptive changes may contribute to the onset of diabetes. Thus, glucose homeostasis and [beta]-cell function were evaluated in control-fed pregnant (CP) and non-pregnant (CNP) or protein-restricted pregnant (LPP) and non-pregnant (LPNP) rats, from fetal to adult life, and in protein-restricted rats that were recovered after weaning (RP and RNP). The typical insulin resistance of pregnancy was not observed in the RP rats, nor did pregnancy increase the insulin content/islet in the LPP group. The glucose dose-response curves from pregnant rats were shifted to the left in relation to the non-pregnant rats, except in the recovered group. Glucose utilisation but not oxidation in islets from the RP and LPP groups was reduced at a concentration of 8·3 mm-glucose compared with islets from the CP group. 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Conversely, pregnancy is associated with a significant increase in glucose-stimulated insulin secretion under conditions of normoglycaemia. A failure in [beta]-cell adaptive changes may contribute to the onset of diabetes. Thus, glucose homeostasis and [beta]-cell function were evaluated in control-fed pregnant (CP) and non-pregnant (CNP) or protein-restricted pregnant (LPP) and non-pregnant (LPNP) rats, from fetal to adult life, and in protein-restricted rats that were recovered after weaning (RP and RNP). The typical insulin resistance of pregnancy was not observed in the RP rats, nor did pregnancy increase the insulin content/islet in the LPP group. The glucose dose-response curves from pregnant rats were shifted to the left in relation to the non-pregnant rats, except in the recovered group. Glucose utilisation but not oxidation in islets from the RP and LPP groups was reduced at a concentration of 8·3 mm-glucose compared with islets from the CP group. 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source Elektronische Zeitschriftenbibliothek - Frei zugängliche E-Journals; Cambridge Journals; Free Full-Text Journals in Chemistry
subjects Biosynthesis
Cells
Glucose
Insulin
Malnutrition
Pregnancy
Proteins
Sensitivity
title Protein restriction in early life is associated with changes in insulin sensitivity and pancreatic [beta]-cell function during pregnancy
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