Plasticity of skeletal muscle mitochondria in response to contractile activity

Peter J. Adhihetty; Isabella Irrcher; Anna-Maria Joseph; Vladimir Ljubicic; David A. Hood

doi:10.1113/eph8802505

Abstract

Regularly performed exercise in the form of endurance training produces a well-established adaptation in skeletal muscle termed mitochondrial biogenesis. The physiological benefit of this is an enhanced performance of muscle when subject to endurance exercise. This is not only of great advantage for athletic endeavours, but it also clearly improves the quality of life of previously sedentary individuals and those involved in injury rehabilitation. Here we review the molecular basis for mitochondrial biogenesis in muscle, from the initial signals arising in contracting muscle, to the transcription factors involved in mitochondrial and nuclear DNA transcription, as well as the post-translational import mechanisms required for the synthesis of the organelle. We discuss specific protein components associated with reactive oxygen species production, and suggest some questions which remain unanswered with respect to the role of exercise-induced mitochondrial biogenesis in ageing, apoptosis and disease. Experimental Physiology (2003) 88.1, 99-107.

Crossref Citations

This article has been cited by the following publications. This list is generated based on data provided by Crossref.

Nisoli, Enzo Clementi, Emilio Moncada, Salvador and Carruba, Michele O. 2004. Mitochondrial biogenesis as a cellular signaling framework. Biochemical Pharmacology, Vol. 67, Issue. 1, p. 1.

Taivassalo, Tanja and Haller, Ronald G. 2004. Implications of exercise training in mtDNA defects—use it or lose it?. Biochimica et Biophysica Acta (BBA) - Bioenergetics, Vol. 1659, Issue. 2-3, p. 221.

Ritov, Vladimir B. Menshikova, Elizabeth V. and Kelley, David E. 2004. High-performance liquid chromatography-based methods of enzymatic analysis: electron transport chain activity in mitochondria from human skeletal muscle. Analytical Biochemistry, Vol. 333, Issue. 1, p. 27.

Crowley, Vivion and Vidal–Puig, Antonio 2004. Pharmacotherapy of Obesity. p. 345.

Nisoli, Enzo Clementi, Emilio Tonello, Cristina Moncada, Salvador and Carruba, Michele O. 2004. Can endogenous gaseous messengers control mitochondrial biogenesis in mammalian cells?. Prostaglandins & Other Lipid Mediators, Vol. 73, Issue. 1-2, p. 9.

Nisoli, Enzo Falcone, Sestina Tonello, Cristina Cozzi, Valeria Palomba, Letizia Fiorani, Mara Pisconti, Addolorata Brunelli, Silvia Cardile, Annalisa Francolini, Maura Cantoni, Orazio Carruba, Michele O. Moncada, Salvador and Clementi, Emilio 2004. Mitochondrial biogenesis by NO yields functionally active mitochondria in mammals. Proceedings of the National Academy of Sciences, Vol. 101, Issue. 47, p. 16507.

HOOD, DAVID A. and JOSEPH, ANNA-MARIA 2005. Mechanisms of Mitochondrial Disease and the Role of Exercise: A Symposium. Medicine & Science in Sports & Exercise, Vol. 37, Issue. 12, p. 2084.

TAIVASSALO, TANJA and HALLER, RONALD G. 2005. Exercise and Training in Mitochondrial Myopathies. Medicine & Science in Sports & Exercise, Vol. 37, Issue. 12, p. 2094.

Clementi, Emilio and Nisoli, Enzo 2005. Nitric oxide and mitochondrial biogenesis: A key to long-term regulation of cellular metabolism. Comparative Biochemistry and Physiology Part A: Molecular & Integrative Physiology, Vol. 142, Issue. 2, p. 102.

Garnier, Anne Fortin, Dominique Zoll, Joffrey N'Guessan, Benoit Mettauer, Bertrand Lampert, Eliane Veksler, Vladimir and Ventura-Clapier, Renée 2005. Coordinated changes in mitochondrial function and biogenesis in healthy and diseased human skeletal muscle. The FASEB Journal, Vol. 19, Issue. 1, p. 43.

Toledo, Frederico G.S and Kelley, David E 2005. Mitochondrial dysfunction in the pathogenesis of insulin resistance associated with obesity, diabetes, and aging. Current Opinion in Endocrinology & Diabetes, Vol. 12, Issue. 2, p. 157.

Mahoney, Douglas J. and Tarnopolsky, Mark A. 2005. Understanding Skeletal Muscle Adaptation to Exercise Training in Humans: Contributions from Microarray Studies. Physical Medicine and Rehabilitation Clinics of North America, Vol. 16, Issue. 4, p. 859.

Koves, Timothy R. Li, Ping An, Jie Akimoto, Takayuki Slentz, Dorothy Ilkayeva, Olga Dohm, G. Lynis Yan, Zhen Newgard, Christopher B. and Muoio, Deborah M. 2005. Peroxisome Proliferator-activated Receptor-γ Co-activator 1α-mediated Metabolic Remodeling of Skeletal Myocytes Mimics Exercise Training and Reverses Lipid-induced Mitochondrial Inefficiency. Journal of Biological Chemistry, Vol. 280, Issue. 39, p. 33588.

St Clair Gibson, A. Goedecke, J.H. Harley, Y.X. Myers, L.J. Lambert, M.I. Noakesa, T.D. and Lambert, E.V. 2005. Metabolic setpoint control mechanisms in different physiological systems at rest and during exercise. Journal of Theoretical Biology, Vol. 236, Issue. 1, p. 60.

Nisoli, Enzo and Moncada, Salvador 2005. The Metabolic Syndrome at the Beginning of the XXI Century. p. 305.

Balietti, Marta Fattoretti, Patrizia Skalicky, Monika Viidik, Andrus Giorgetti, Belinda Grossi, Yessica and Bertoni-Freddari, Carlo 2005. The effect of chronic physical exercise on succinic dehydrogenase activity in the heart muscle of old rats. Biogerontology, Vol. 6, Issue. 2, p. 95.

Mahoney, D. J. Parise, G. Melov, S. Safdar, A. and Tarnopolsky, M. A. 2005. Analysis of global mRNA expression in human skeletal muscle during recovery from endurance exercise. The FASEB Journal, Vol. 19, Issue. 11, p. 1498.

Coffey, Vernon G. Shield, Anthony Canny, Benedict J. Carey, Kate A. Cameron-Smith, David and Hawley, John A. 2006. Interaction of contractile activity and training history on mRNA abundance in skeletal muscle from trained athletes. American Journal of Physiology-Endocrinology and Metabolism, Vol. 290, Issue. 5, p. E849.

Tang, Jason E. Hartman, Joseph W. and Phillips, Stuart M. 2006. Increased muscle oxidative potential following resistance training induced fibre hypertrophy in young men. Applied Physiology, Nutrition, and Metabolism, Vol. 31, Issue. 5, p. 495.

Mettauer, B. Zoll, J. Garnier, A. and Ventura-Clapier, R. 2006. Heart failure: a model of cardiac and skeletal muscle energetic failure. Pflügers Archiv - European Journal of Physiology, Vol. 452, Issue. 6, p. 653.

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Plasticity of skeletal muscle mitochondria in response to contractile activity

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