Abstract
Although mitochondrial dysfunction is often accompanied by excessive reactive oxygen species (ROS) production, we previously showed that an increase in random somatic mtDNA mutations does not result in increased oxidative stress. Normal levels of ROS and oxidative stress could also be a result of an active compensatory mechanism such as a mild increase in proton leak. Uncoupling protein 2 (UCP2) was proposed to play such a role in many physiological situations. However, we show that upregulation of UCP2 in mtDNA mutator mice is not associated with altered proton leak kinetics or ROS production, challenging the current view on the role of UCP2 in energy metabolism. Instead, our results argue that high UCP2 levels allow better utilization of fatty acid oxidation resulting in a beneficial effect on mitochondrial function in heart, postponing systemic lactic acidosis and resulting in longer lifespan in these mice. This study proposes a novel mechanism for an adaptive response to mitochondrial cardiomyopathy that links changes in metabolism to amelioration of respiratory chain deficiency and longer lifespan.
Publication types
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Research Support, Non-U.S. Gov't
MeSH terms
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Acidosis, Lactic / metabolism
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Animals
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Cardiomyopathies / pathology
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Eating / genetics
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Energy Metabolism / genetics*
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Fatty Acids / metabolism*
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Ion Channels / genetics*
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Life Expectancy
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Mice
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Mice, Inbred C57BL
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Mice, Knockout
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Mitochondria, Heart / genetics
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Mitochondria, Heart / metabolism*
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Mitochondrial Diseases / genetics*
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Mitochondrial Diseases / metabolism
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Mitochondrial Proteins / genetics*
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Myocardium / metabolism
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Oxidation-Reduction
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Oxidative Stress
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Proton Pumps / genetics
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Reactive Oxygen Species / metabolism
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Uncoupling Protein 2
Substances
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Fatty Acids
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Ion Channels
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Mitochondrial Proteins
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Proton Pumps
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Reactive Oxygen Species
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Ucp2 protein, mouse
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Uncoupling Protein 2
Grants and funding
AT is supported by grants from The Swedish Research Council, The Åke Wiberg Foundation, CECAD Cologne, The German Research Council, and The European Research Council (ERC contract 310700). SAD and PM are supported by PhD scholarships from CECAD Graduate School. The funders had no role in study design, data collection and analysis, decision to publish, or preparation of the manuscript.