Adaptations of Skeletal Muscle Mitochondria to Obesity, Exercise, and Polyunsaturated Fatty Acids

Adaptations of Skeletal Muscle Mitochondria to Obesity, Exercise, and Polyunsaturated Fatty Acids

Mitochondria intricately modulate their energy production through the control of mitochondrial adaptation (mitochondrial biogenesis, fusion, and/or fission) to meet energy demands. Nutrient overload may result in dysregulated mitochondrial biogenesis, morphology toward mitochondrial fragmentation, a...

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Bibliographic Details
Published in:Lipids Vol. 53; no. 3; pp. 271 - 278
Main Authors: Chen, Phoebe B., Yang, Jason S., Park, Yeonhwa
Format: Journal Article
Language:English
Published: Hoboken, USA John Wiley & Sons, Inc 01-03-2018
Subjects:
CLA
Conjugated linoleic acid
Exercise mimetics
Mitochondrial dynamics
Conjugated linoleic acid
CLA
Exercise mimetics
Mitochondrial dynamics
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Summary:Mitochondria intricately modulate their energy production through the control of mitochondrial adaptation (mitochondrial biogenesis, fusion, and/or fission) to meet energy demands. Nutrient overload may result in dysregulated mitochondrial biogenesis, morphology toward mitochondrial fragmentation, and oxidative stress in the skeletal muscle. In addition, physical activity and diet components influence mitochondrial function. Exercise may stimulate mitochondrial biogenesis and promote mitochondrial fusion/fission in the skeletal muscle. Moreover, some dietary fatty acids, such as n‐3 polyunsaturated fatty acids and conjugated linoleic acid, have been identified to positively regulate mitochondrial adaptation in the skeletal muscle. This review discusses the association of mitochondrial impairments and obesity, and presents an overview of various mechanisms of which exercise training and mitochondrial nutrients promote mitochondrial function in the skeletal muscle.
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ISSN:0024-4201
1558-9307
DOI:10.1002/lipd.12037