The Mitochondrial Calcium Uniporter Matches Energetic Supply with Cardiac Workload during Stress and Modulates Permeability Transition

Timothy S. Luongo; Jonathan P. Lambert; Ancai Yuan; Xueqian Zhang; Polina Gross; Jianliang Song; Santhanam Shanmughapriya; Erhe Gao; Mohit Jain; Steven R. Houser; Walter J. Koch; Joseph Y. Cheung; Muniswamy Madesh; John W. Elrod

doi:10.1016/j.celrep.2015.06.017

Cell Reports (Jul 2015)

The Mitochondrial Calcium Uniporter Matches Energetic Supply with Cardiac Workload during Stress and Modulates Permeability Transition

Timothy S. Luongo,
Jonathan P. Lambert,
Ancai Yuan,
Xueqian Zhang,
Polina Gross,
Jianliang Song,
Santhanam Shanmughapriya,
Erhe Gao,
Mohit Jain,
Steven R. Houser,
Walter J. Koch,
Joseph Y. Cheung,
Muniswamy Madesh,
John W. Elrod

Affiliations

Timothy S. Luongo: Center for Translational Medicine, Department of Pharmacology, Temple University School of Medicine, Philadelphia, PA 19140, USA
Jonathan P. Lambert: Center for Translational Medicine, Department of Pharmacology, Temple University School of Medicine, Philadelphia, PA 19140, USA
Ancai Yuan: Center for Translational Medicine, Department of Pharmacology, Temple University School of Medicine, Philadelphia, PA 19140, USA
Xueqian Zhang: Center for Translational Medicine, Department of Pharmacology, Temple University School of Medicine, Philadelphia, PA 19140, USA
Polina Gross: Center for Cardiovascular Research, Department of Physiology, Temple University School of Medicine, Philadelphia, PA 19140, USA
Jianliang Song: Center for Translational Medicine, Department of Pharmacology, Temple University School of Medicine, Philadelphia, PA 19140, USA
Santhanam Shanmughapriya: Center for Translational Medicine, Department of Pharmacology, Temple University School of Medicine, Philadelphia, PA 19140, USA
Erhe Gao: Center for Translational Medicine, Department of Pharmacology, Temple University School of Medicine, Philadelphia, PA 19140, USA
Mohit Jain: Department of Pharmacology, University of California San Diego, La Jolla, CA 92093, USA
Steven R. Houser: Center for Cardiovascular Research, Department of Physiology, Temple University School of Medicine, Philadelphia, PA 19140, USA
Walter J. Koch: Center for Translational Medicine, Department of Pharmacology, Temple University School of Medicine, Philadelphia, PA 19140, USA
Joseph Y. Cheung: Center for Translational Medicine, Department of Pharmacology, Temple University School of Medicine, Philadelphia, PA 19140, USA
Muniswamy Madesh: Center for Translational Medicine, Department of Pharmacology, Temple University School of Medicine, Philadelphia, PA 19140, USA
John W. Elrod: Center for Translational Medicine, Department of Pharmacology, Temple University School of Medicine, Philadelphia, PA 19140, USA

DOI: https://doi.org/10.1016/j.celrep.2015.06.017
Journal volume & issue: Vol. 12, no. 1
pp. 23 – 34

Abstract

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Cardiac contractility is mediated by a variable flux in intracellular calcium (Ca2+), thought to be integrated into mitochondria via the mitochondrial calcium uniporter (MCU) channel to match energetic demand. Here, we examine a conditional, cardiomyocyte-specific, mutant mouse lacking Mcu, the pore-forming subunit of the MCU channel, in adulthood. Mcu−/− mice display no overt baseline phenotype and are protected against mCa2+ overload in an in vivo myocardial ischemia-reperfusion injury model by preventing the activation of the mitochondrial permeability transition pore, decreasing infarct size, and preserving cardiac function. In addition, we find that Mcu−/− mice lack contractile responsiveness to acute β-adrenergic receptor stimulation and in parallel are unable to activate mitochondrial dehydrogenases and display reduced bioenergetic reserve capacity. These results support the hypothesis that MCU may be dispensable for homeostatic cardiac function but required to modulate Ca2+-dependent metabolism during acute stress.

Published in Cell Reports

ISSN: 2211-1247 (Online)
Publisher: Elsevier
Country of publisher: Netherlands
LCC subjects: Science: Biology (General)
Website: http://www.cell.com/cell-reports/home

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