Depressed mitochondrial transcription factors and oxidative capacity in rat failing cardiac and skeletal muscles

doi:10.1113/jphysiol.2003.045104

Depressed mitochondrial transcription factors and oxidative capacity in rat failing cardiac and skeletal muscles

A. Garnier, D. Fortin, C. Deloménie *, I. Momken, V. Veksler and R. Ventura-Clapier

Cardiologie Cellulaire et Moléculaire U-446 INSERM, Faculté de Pharmacie and * IFR-ISIT, Université Paris-Sud, 92296 Châtenay-Malabry, France

Congestive heart failure (CHF) induces alterations in energy metabolism and mitochondrial function that span cardiac as well as skeletal muscles. Whether these defects originate from altered mitochondrial DNA copy number and/or mitochondrial gene transcription is not known at present, nor are the factors that control mitochondrial capacity in different muscle types completely understood. We used an experimental model of CHF induced by aortic banding in the rat and investigated mitochondrial respiration and enzyme activity of biochemical mitochondrial markers in cardiac, slow and fast skeletal muscles. We quantified mitochondrial DNA (mtDNA), expression of nuclear (COX IV) and mitochondrial (COX I) encoded cytochrome c oxidase subunits as well as nuclear factors involved in mitochondrial biogenesis and in the necessary coordinated interplay between nuclear and mitochondrial genomes in health and CHF. CHF induced a decrease in oxidative capacity and mitochondrial enzyme activities with a parallel decrease in the mRNA level of COX I and IV, but no change in mtDNA content. The expression of the peroxisome proliferator activated receptor gamma co-activator 1 $alpha$ (PGC-1 $alpha$ ) gene was downregulated in CHF, as well as nuclear respiratory factor 2 and mitochondrial transcription factor A, which act downstream from PGC-1 $alpha$ . Most interestingly, only the level of PGC-1 $alpha$ expression was strongly correlated with muscle oxidative capacity in cardiac and skeletal muscles, both in healthy and CHF rats. Mitochondrial gene transcription is reduced in CHF, and PGC-1 $alpha$ appears as a potential modulator of muscle oxidative capacity under these experimental conditions.

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				Z. Arany, B. K. Wagner, Y. Ma, J. Chinsomboon, D. Laznik, and B. M. Spiegelman Gene expression-based screening identifies microtubule inhibitors as inducers of PGC-1{alpha} and oxidative phosphorylation PNAS, March 25, 2008; 105(12): 4721 - 4726. [Abstract] [Full Text] [PDF]

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				S. Bhashyam, P. Parikh, H. Bolukoglu, A. H. Shannon, J. H. Porter, Y.-T. Shen, and R. P. Shannon Aging is associated with myocardial insulin resistance and mitochondrial dysfunction Am J Physiol Heart Circ Physiol, November 1, 2007; 293(5): H3063 - H3071. [Abstract] [Full Text] [PDF]

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				S. A. Sathyapala, P. Kemp, and M. I. Polkey Decreased muscle PPAR concentrations: a mechanism underlying skeletal muscle abnormalities in COPD? Eur. Respir. J., August 1, 2007; 30(2): 191 - 193. [Full Text] [PDF]

				A. H. Remels, P. Schrauwen, R. Broekhuizen, J. Willems, S. Kersten, H. R. Gosker, and A. M. Schols Peroxisome proliferator-activated receptor expression is reduced in skeletal muscle in COPD Eur. Respir. J., August 1, 2007; 30(2): 245 - 252. [Abstract] [Full Text] [PDF]

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