Inducible Overexpression of GLUT1 Prevents Mitochondrial Dysfunction and Attenuates Structural Remodeling in Pressure Overload but Does Not Prevent Left Ventricular Dysfunction

Overview

Journal J Am Heart Assoc

Specialty Cardiology & Vascular Diseases

Date 2013 Sep 21

PMID 24052497

Citations 58

Authors

Renata O Pereira

Adam R Wende

Curtis Olsen

Jamie Soto

Tenley Rawlings

Yi Zhu

Steven M Anderson

E Dale Abel

Affiliations

Soon will be listed here.

Abstract

Background: Increased glucose transporter 1 (GLUT1) expression and glucose utilization that accompany pressure overload-induced hypertrophy (POH) are believed to be cardioprotective. Moreover, it has been shown that lifelong transgenic overexpression of GLUT1 in the heart prevents cardiac dysfunction after aortic constriction. The relevance of this model to clinical practice is unclear because of the life-long duration of increased glucose metabolism. Therefore, we sought to determine if a short-term increase in GLUT1-mediated myocardial glucose uptake would still confer cardioprotection if overexpression occurred at the onset of POH.

Methods And Results: Mice with cardiomyocyte-specific inducible overexpression of a hemagglutinin (HA)-tagged GLUT1 transgene (G1HA) and their controls (Cont) were subjected to transverse aortic constriction (TAC) 2 days after transgene induction with doxycycline (DOX). Analysis was performed 4 weeks after TAC. Mitochondrial function, adenosine triphosphate (ATP) synthesis, and mRNA expression of oxidative phosphorylation (OXPHOS) genes were reduced in Cont mice, but were maintained in concert with increased glucose utilization in G1HA following TAC. Despite attenuated adverse remodeling in G1HA relative to control TAC mice, cardiac hypertrophy was exacerbated in these mice, and positive dP/dt (in vivo) and cardiac power (ex vivo) were equivalently decreased in Cont and G1HA TAC mice compared to shams, consistent with left ventricular dysfunction. O-GlcNAcylation of Ca2+ cycling proteins was increased in G1HA TAC hearts.

Conclusions: Short-term cardiac specific induction of GLUT1 at the onset of POH preserves mitochondrial function and attenuates pathological remodeling, but exacerbates the hypertrophic phenotype and is insufficient to prevent POH-induced cardiac contractile dysfunction, possibly due to impaired calcium cycling.

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