Ceramide is a sphingolipid that serves as an important second messenger in an increasing number of stress-induced pathways. Ceramide has long been known to affect the mitochondria, altering both morphology and physiology. We sought to assess the impact of ceramide on skeletal muscle mitochondrial structure and function. A primary observation was the rapid and dramatic division of mitochondria in ceramide-treated cells. This effect is likely to be a result of increased Drp1 (dynamin-related protein 1) action, as ceramide increased Drp1 expression and Drp1 inhibition prevented ceramide-induced mitochondrial fission. Further, we found that ceramide treatment reduced mitochondrial O2 consumption (i.e. respiration) in cultured myotubes and permeabilized red gastrocnemius muscle fibre bundles. Ceramide treatment also increased H2O2 levels and reduced Akt/PKB (protein kinase B) phosphorylation in myotubes. However, inhibition of mitochondrial fission via Drp1 knockdown completely protected the myotubes and fibre bundles from ceramide-induced metabolic disruption, including maintained mitochondrial respiration, reduced H2O2 levels and unaffected insulin signalling. These data suggest that the forced and sustained mitochondrial fission that results from ceramide accrual may alter metabolic function in skeletal muscle, which is a prominent site not only of energy demand (via the mitochondria), but also of ceramide accrual with weight gain.
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Research Article|
November 22 2013
Mitochondrial fission mediates ceramide-induced metabolic disruption in skeletal muscle
Melissa E. Smith;
Melissa E. Smith
*Department of Physiology and Developmental Biology, Brigham Young University, Provo, UT, U.S.A.
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Trevor S. Tippetts;
Trevor S. Tippetts
*Department of Physiology and Developmental Biology, Brigham Young University, Provo, UT, U.S.A.
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Eric S. Brassfield;
Eric S. Brassfield
*Department of Physiology and Developmental Biology, Brigham Young University, Provo, UT, U.S.A.
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Braden J. Tucker;
Braden J. Tucker
*Department of Physiology and Developmental Biology, Brigham Young University, Provo, UT, U.S.A.
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Adelaide Ockey;
Adelaide Ockey
*Department of Physiology and Developmental Biology, Brigham Young University, Provo, UT, U.S.A.
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Adam C. Swensen;
Adam C. Swensen
†Department of Chemistry and Biochemistry, Brigham Young University, Provo, UT, U.S.A.
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Tamil S. Anthonymuthu;
Tamil S. Anthonymuthu
†Department of Chemistry and Biochemistry, Brigham Young University, Provo, UT, U.S.A.
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Trevor D. Washburn;
Trevor D. Washburn
*Department of Physiology and Developmental Biology, Brigham Young University, Provo, UT, U.S.A.
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Daniel A. Kane;
Daniel A. Kane
‡Department of Human Kinetics, St. Francis Xavier University, Antigonish, NS, Canada
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John T. Prince;
John T. Prince
†Department of Chemistry and Biochemistry, Brigham Young University, Provo, UT, U.S.A.
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Benjamin T. Bikman
Benjamin T. Bikman
1
*Department of Physiology and Developmental Biology, Brigham Young University, Provo, UT, U.S.A.
1To whom correspondence should be addressed (email [email protected]).
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Publisher: Portland Press Ltd
Received:
June 17 2013
Revision Received:
September 26 2013
Accepted:
September 30 2013
Accepted Manuscript online:
September 30 2013
Online ISSN: 1470-8728
Print ISSN: 0264-6021
© The Authors Journal compilation © 2013 Biochemical Society
2013
Biochem J (2013) 456 (3): 427–439.
Article history
Received:
June 17 2013
Revision Received:
September 26 2013
Accepted:
September 30 2013
Accepted Manuscript online:
September 30 2013
Citation
Melissa E. Smith, Trevor S. Tippetts, Eric S. Brassfield, Braden J. Tucker, Adelaide Ockey, Adam C. Swensen, Tamil S. Anthonymuthu, Trevor D. Washburn, Daniel A. Kane, John T. Prince, Benjamin T. Bikman; Mitochondrial fission mediates ceramide-induced metabolic disruption in skeletal muscle. Biochem J 15 December 2013; 456 (3): 427–439. doi: https://doi.org/10.1042/BJ20130807
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