Insulin is a key modulator of fetoplacental endothelium metabolic disturbances in gestational diabetes mellitus

Insulin is a key modulator of fetoplacental endothelium metabolic disturbances in gestational diabetes mellitus

Gestational diabetes mellitus (GDM) is a disease of the mother that associates with altered fetoplacental vascular function. GDM–associated maternal hyperglycaemia result in fetal hyperglycaemia, a condition that leads to fetal hyperinsulinemia and altered L-arginine transport and synthesis of nitri...

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Main Authors: Luis eSobrevia, Rocío eSalsoso, Bárbara eFuenzalida, Eric eBarros, Lilian eToledo, Carolina ePizarro, Luis eSilva, Mario eSubiabre, Roberto eVillalobos, Joaquín eAraos, Fernando eToledo, Marcelo eGonzalez, Jaime eGutiérrez, Marcelo eFarías, Fabian ePardo, Indira eChiarello, Andrea eLeiva
Format: Article
Language:English
Published: Frontiers Media S.A. 2016-03-01
Series:Frontiers in Physiology
Subjects:
Endoplasmic Reticulum Stress
Endothelium
Insulin
Lipids
Placenta
Angiogenesis
Online Access:http://journal.frontiersin.org/Journal/10.3389/fphys.2016.00119/full
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spelling doaj-b84e109e4185449ca3f1d3144e297da92020-11-24T22:33:45ZengFrontiers Media S.A.Frontiers in Physiology1664-042X2016-03-01710.3389/fphys.2016.00119181563Insulin is a key modulator of fetoplacental endothelium metabolic disturbances in gestational diabetes mellitusLuis eSobrevia0Luis eSobrevia1Luis eSobrevia2Rocío eSalsoso3Bárbara eFuenzalida4Eric eBarros5Lilian eToledo6Carolina ePizarro7Luis eSilva8Mario eSubiabre9Roberto eVillalobos10Joaquín eAraos11Fernando eToledo12Marcelo eGonzalez13Jaime eGutiérrez14Marcelo eFarías15Fabian ePardo16Indira eChiarello17Andrea eLeiva18Pontificia Universidad Católica de ChileUniversity of QueenslandUniversidad de SevillaPontificia Universidad Católica de ChilePontificia Universidad Católica de ChilePontificia Universidad Católica de ChilePontificia Universidad Católica de ChilePontificia Universidad Católica de ChilePontificia Universidad Católica de ChilePontificia Universidad Católica de ChilePontificia Universidad Católica de ChilePontificia Universidad Católica de ChileUniversidad del Bio-BioUniversidad de ConcepciónUniversidad San SebastiánPontificia Universidad Católica de ChilePontificia Universidad Católica de ChilePontificia Universidad Católica de ChilePontificia Universidad Católica de ChileGestational diabetes mellitus (GDM) is a disease of the mother that associates with altered fetoplacental vascular function. GDM–associated maternal hyperglycaemia result in fetal hyperglycaemia, a condition that leads to fetal hyperinsulinemia and altered L-arginine transport and synthesis of nitric oxide, i.e., endothelial dysfunction. These alterations in the fetoplacental endothelial function are present in women with GDM that were under diet or insulin therapy. Since these women and their newborn show normal glycaemia at term, other factors or conditions could be altered and/or not resolved by restoring a normal level of circulating D-glucose. GDM associates with metabolic disturbances, such as abnormal handling of the locally released vasodilator adenosine, and biosynthesis and metabolism of cholesterol lipoproteins, or metabolic diseases resulting in endoplasmic reticulum stress and altered angiogenesis. Insulin acts as a potent modulator of all these phenomena under normal conditions as reported in primary cultures of cells obtained from the human placenta; however, GDM and the role of insulin regarding these alterations in this disease are poorly understood. This review focuses on the potential link between insulin and endoplasmic reticulum stress, hypercholesterolemia, and angiogenesis in GDM in the human fetoplacental vasculature. Based in reports in primary culture placental endothelium we propose that insulin is a factor restoring endothelial function in GDM by reversing ERS, hypercholesterolaemia and angiogenesis to a physiological state involving insulin activation of insulin receptor isoforms and adenosine receptors and metabolism in the human placenta from GDM pregnancies.http://journal.frontiersin.org/Journal/10.3389/fphys.2016.00119/fullEndoplasmic Reticulum StressEndotheliumInsulinLipidsPlacentaAngiogenesis
collection DOAJ
language English
format Article
sources DOAJ
author Luis eSobrevia
Luis eSobrevia
Luis eSobrevia
Rocío eSalsoso
Bárbara eFuenzalida
Eric eBarros
Lilian eToledo
Carolina ePizarro
Luis eSilva
Mario eSubiabre
Roberto eVillalobos
Joaquín eAraos
Fernando eToledo
Marcelo eGonzalez
Jaime eGutiérrez
Marcelo eFarías
Fabian ePardo
Indira eChiarello
Andrea eLeiva
spellingShingle Luis eSobrevia
Luis eSobrevia
Luis eSobrevia
Rocío eSalsoso
Bárbara eFuenzalida
Eric eBarros
Lilian eToledo
Carolina ePizarro
Luis eSilva
Mario eSubiabre
Roberto eVillalobos
Joaquín eAraos
Fernando eToledo
Marcelo eGonzalez
Jaime eGutiérrez
Marcelo eFarías
Fabian ePardo
Indira eChiarello
Andrea eLeiva
Insulin is a key modulator of fetoplacental endothelium metabolic disturbances in gestational diabetes mellitus
Frontiers in Physiology
Endoplasmic Reticulum Stress
Endothelium
Insulin
Lipids
Placenta
Angiogenesis
author_facet Luis eSobrevia
Luis eSobrevia
Luis eSobrevia
Rocío eSalsoso
Bárbara eFuenzalida
Eric eBarros
Lilian eToledo
Carolina ePizarro
Luis eSilva
Mario eSubiabre
Roberto eVillalobos
Joaquín eAraos
Fernando eToledo
Marcelo eGonzalez
Jaime eGutiérrez
Marcelo eFarías
Fabian ePardo
Indira eChiarello
Andrea eLeiva
author_sort Luis eSobrevia
title Insulin is a key modulator of fetoplacental endothelium metabolic disturbances in gestational diabetes mellitus
title_short Insulin is a key modulator of fetoplacental endothelium metabolic disturbances in gestational diabetes mellitus
title_full Insulin is a key modulator of fetoplacental endothelium metabolic disturbances in gestational diabetes mellitus
title_fullStr Insulin is a key modulator of fetoplacental endothelium metabolic disturbances in gestational diabetes mellitus
title_full_unstemmed Insulin is a key modulator of fetoplacental endothelium metabolic disturbances in gestational diabetes mellitus
title_sort insulin is a key modulator of fetoplacental endothelium metabolic disturbances in gestational diabetes mellitus
publisher Frontiers Media S.A.
series Frontiers in Physiology
issn 1664-042X
publishDate 2016-03-01
description Gestational diabetes mellitus (GDM) is a disease of the mother that associates with altered fetoplacental vascular function. GDM–associated maternal hyperglycaemia result in fetal hyperglycaemia, a condition that leads to fetal hyperinsulinemia and altered L-arginine transport and synthesis of nitric oxide, i.e., endothelial dysfunction. These alterations in the fetoplacental endothelial function are present in women with GDM that were under diet or insulin therapy. Since these women and their newborn show normal glycaemia at term, other factors or conditions could be altered and/or not resolved by restoring a normal level of circulating D-glucose. GDM associates with metabolic disturbances, such as abnormal handling of the locally released vasodilator adenosine, and biosynthesis and metabolism of cholesterol lipoproteins, or metabolic diseases resulting in endoplasmic reticulum stress and altered angiogenesis. Insulin acts as a potent modulator of all these phenomena under normal conditions as reported in primary cultures of cells obtained from the human placenta; however, GDM and the role of insulin regarding these alterations in this disease are poorly understood. This review focuses on the potential link between insulin and endoplasmic reticulum stress, hypercholesterolemia, and angiogenesis in GDM in the human fetoplacental vasculature. Based in reports in primary culture placental endothelium we propose that insulin is a factor restoring endothelial function in GDM by reversing ERS, hypercholesterolaemia and angiogenesis to a physiological state involving insulin activation of insulin receptor isoforms and adenosine receptors and metabolism in the human placenta from GDM pregnancies.
topic Endoplasmic Reticulum Stress
Endothelium
Insulin
Lipids
Placenta
Angiogenesis
url http://journal.frontiersin.org/Journal/10.3389/fphys.2016.00119/full
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