Cardiovascular action of insulin in health and disease: focus in endothelial L-arginine transport and cardiac voltage-dependent potassium channels.

Cardiovascular action of insulin in health and disease: focus in endothelial L-arginine transport and cardiac voltage-dependent potassium channels.

The impairment of insulin signaling on diabetes mellitus has been related to cardiovascular dysfunction, heart failure and sudden death. In human endothelium, cationic amino acid transporter 1 (hCAT-1) is related to the synthesis of nitric oxide (NO). Insulin has a vascular effect in endothelial cel...

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Main Authors: Sebastián eDubó, David eGallegos, Lissette eCabrera, Luis eSobrevia, Leandro Antonio Zuniga, Marcelo eGonzalez
Format: Article
Language:English
Published: Frontiers Media S.A. 2016-03-01
Series:Frontiers in Physiology
Subjects:
Endothelium
Heart Failure
Insulin
Nitric Oxide
action potential
insulin resistance.
Online Access:http://journal.frontiersin.org/Journal/10.3389/fphys.2016.00074/full
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spelling doaj-785d6c33d7874e02ac23c05a18f1c5112020-11-25T00:04:14ZengFrontiers Media S.A.Frontiers in Physiology1664-042X2016-03-01710.3389/fphys.2016.00074182755Cardiovascular action of insulin in health and disease: focus in endothelial L-arginine transport and cardiac voltage-dependent potassium channels.Sebastián eDubó0David eGallegos1Lissette eCabrera2Lissette eCabrera3Luis eSobrevia4Luis eSobrevia5Luis eSobrevia6Leandro Antonio Zuniga7Marcelo eGonzalez8Marcelo eGonzalez9Universidad de ConcepciónUniversidad de ConcepciónUniversidad de ConcepciónUniversidad Diego PortalesPontificia Universidad Católica de ChileUniversity of QueenslandUniversidad de SevillaUniversidad de TalcaUniversidad de ConcepciónGroup of Research and Innovation in Vascular Health (GRIVAS Health)The impairment of insulin signaling on diabetes mellitus has been related to cardiovascular dysfunction, heart failure and sudden death. In human endothelium, cationic amino acid transporter 1 (hCAT-1) is related to the synthesis of nitric oxide (NO). Insulin has a vascular effect in endothelial cells through a signaling pathway that involved increases of hCAT-1 expression and L-arginine transport. This mechanism is disrupted in diabetes, a phenomenon potentiated by excessive accumulation of reactive oxygen species (ROS), which contributes to lower availability of NO and endothelial dysfunction. On the other hand, the electrical remodeling in cardiomyocytes is considered a key factor in heart failure progression associated to diabetes mellitus, generating a challenge to understand the specific role of insulin and the pathways involved in cardiac function. Studies on isolated mammalian cardiomyocytes have shown a prolongated action potential in ventricular repolarization phase that produces a long QT interval. The long QT generated is well explained by attenuation in the repolarizing potassium currents in cardiac ventricles. The impaired insulin signaling causes specific changes in these currents, such a decrease amplitude of the transient outward K+ (Ito) and the ultra-rapid delayed rectifier (IKur) currents where, together, a reduction of mRNA and protein expression levels of α-subunits (Ito, fast; Kv 4.2 and IKs; Kv 1.5) or β-subunits (KChIP2 and MiRP) of K+ channels involved in these currents in a MAPK mediated pathway process have been described. These results support the hypothesis that the lack of insulin signaling can produce an abnormal repolarization in cardiomyocytes. Furthermore, the arrhythmogenic potential due to reduced Ito current can contribute to an increase in the incidence of sudden death in heart failure. This review aims to show, based on pathophysiological models, the regulatory function that would have insulin in vascular system and in cardiac electrophysiology.http://journal.frontiersin.org/Journal/10.3389/fphys.2016.00074/fullEndotheliumHeart FailureInsulinNitric Oxideaction potentialinsulin resistance.
collection DOAJ
language English
format Article
sources DOAJ
author Sebastián eDubó
David eGallegos
Lissette eCabrera
Lissette eCabrera
Luis eSobrevia
Luis eSobrevia
Luis eSobrevia
Leandro Antonio Zuniga
Marcelo eGonzalez
Marcelo eGonzalez
spellingShingle Sebastián eDubó
David eGallegos
Lissette eCabrera
Lissette eCabrera
Luis eSobrevia
Luis eSobrevia
Luis eSobrevia
Leandro Antonio Zuniga
Marcelo eGonzalez
Marcelo eGonzalez
Cardiovascular action of insulin in health and disease: focus in endothelial L-arginine transport and cardiac voltage-dependent potassium channels.
Frontiers in Physiology
Endothelium
Heart Failure
Insulin
Nitric Oxide
action potential
insulin resistance.
author_facet Sebastián eDubó
David eGallegos
Lissette eCabrera
Lissette eCabrera
Luis eSobrevia
Luis eSobrevia
Luis eSobrevia
Leandro Antonio Zuniga
Marcelo eGonzalez
Marcelo eGonzalez
author_sort Sebastián eDubó
title Cardiovascular action of insulin in health and disease: focus in endothelial L-arginine transport and cardiac voltage-dependent potassium channels.
title_short Cardiovascular action of insulin in health and disease: focus in endothelial L-arginine transport and cardiac voltage-dependent potassium channels.
title_full Cardiovascular action of insulin in health and disease: focus in endothelial L-arginine transport and cardiac voltage-dependent potassium channels.
title_fullStr Cardiovascular action of insulin in health and disease: focus in endothelial L-arginine transport and cardiac voltage-dependent potassium channels.
title_full_unstemmed Cardiovascular action of insulin in health and disease: focus in endothelial L-arginine transport and cardiac voltage-dependent potassium channels.
title_sort cardiovascular action of insulin in health and disease: focus in endothelial l-arginine transport and cardiac voltage-dependent potassium channels.
publisher Frontiers Media S.A.
series Frontiers in Physiology
issn 1664-042X
publishDate 2016-03-01
description The impairment of insulin signaling on diabetes mellitus has been related to cardiovascular dysfunction, heart failure and sudden death. In human endothelium, cationic amino acid transporter 1 (hCAT-1) is related to the synthesis of nitric oxide (NO). Insulin has a vascular effect in endothelial cells through a signaling pathway that involved increases of hCAT-1 expression and L-arginine transport. This mechanism is disrupted in diabetes, a phenomenon potentiated by excessive accumulation of reactive oxygen species (ROS), which contributes to lower availability of NO and endothelial dysfunction. On the other hand, the electrical remodeling in cardiomyocytes is considered a key factor in heart failure progression associated to diabetes mellitus, generating a challenge to understand the specific role of insulin and the pathways involved in cardiac function. Studies on isolated mammalian cardiomyocytes have shown a prolongated action potential in ventricular repolarization phase that produces a long QT interval. The long QT generated is well explained by attenuation in the repolarizing potassium currents in cardiac ventricles. The impaired insulin signaling causes specific changes in these currents, such a decrease amplitude of the transient outward K+ (Ito) and the ultra-rapid delayed rectifier (IKur) currents where, together, a reduction of mRNA and protein expression levels of α-subunits (Ito, fast; Kv 4.2 and IKs; Kv 1.5) or β-subunits (KChIP2 and MiRP) of K+ channels involved in these currents in a MAPK mediated pathway process have been described. These results support the hypothesis that the lack of insulin signaling can produce an abnormal repolarization in cardiomyocytes. Furthermore, the arrhythmogenic potential due to reduced Ito current can contribute to an increase in the incidence of sudden death in heart failure. This review aims to show, based on pathophysiological models, the regulatory function that would have insulin in vascular system and in cardiac electrophysiology.
topic Endothelium
Heart Failure
Insulin
Nitric Oxide
action potential
insulin resistance.
url http://journal.frontiersin.org/Journal/10.3389/fphys.2016.00074/full
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