Interaction of contractile activity and training history on mRNA abundance in skeletal muscle from trained athletes

doi:10.1152/ajpendo.00299.2005

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Interaction of contractile activity and training history on mRNA abundance in skeletal muscle from trained athletes

Vernon G. Coffey,¹ Anthony Shield,¹ Benedict J. Canny,² Kate A. Carey,³ David Cameron-Smith,³ and John A. Hawley¹

¹School of Medical Sciences, RMIT University; ²Department of Physiology, Monash University; and ³School of Exercise and Nutrition Sciences, Deakin University, Melbourne, Australia

Submitted 1 July 2005 ; accepted in final form 29 November 2005

Skeletal muscle displays enormous plasticity to respond to contractileactivity with muscle from strength- (ST) and endurance-trained(ET) athletes representing diverse states of the adaptationcontinuum. Training adaptation can be viewed as the accumulationof specific proteins. Hence, the altered gene expression thatallows for changes in protein concentration is of major importancefor any training adaptation. Accordingly, the aim of the presentstudy was to quantify acute subcellular responses in muscleto habitual and unfamiliar exercise. After 24-h diet/exercisecontrol, 13 male subjects (7 ST and 6 ET) performed a randomorder of either resistance (8 x 5 maximal leg extensions) orendurance exercise (1 h of cycling at 70% peak O₂ uptake). Musclebiopsies were taken from vastus lateralis at rest and 3 h afterexercise. Gene expression was analyzed using real-time PCR withchanges normalized relative to preexercise values. After cyclingexercise, peroxisome proliferator-activated receptor- ${gamma}$ coactivator-1 ${alpha}$ (ET $~$ 8.5-fold, ST $~$ 10-fold, P < 0.001), pyruvate dehydrogenasekinase-4 (PDK-4; ET $~$ 26-fold, ST $~$ 39-fold), vascular endothelialgrowth factor (VEGF; ET $~$ 4.5-fold, ST $~$ 4-fold), and muscle atrophyF-box protein (MAFbx) (ET $~$ 2-fold, ST $~$ 0.4-fold) mRNA increasedin both groups, whereas MyoD ( $~$ 3-fold), myogenin ( $~$ 0.9-fold),and myostatin ( $~$ 2-fold) mRNA increased in ET but not in ST (P< 0.05). After resistance exercise PDK-4 ( $~$ 7-fold, P <0.01) and MyoD ( $~$ 0.7-fold) increased, whereas MAFbx ( $~$ 0.7-fold)and myostatin ( $~$ 0.6-fold) decreased in ET but not in ST. We concludethat prior training history can modify the acute gene responsesin skeletal muscle to subsequent exercise.

cycling; resistance exercise; training; adaptation

Address for reprint requests and other correspondence: J. A. Hawley, School of Medical Sciences, RMIT University, P. O. Box 71, Bundoora, Victoria, 3083, Australia (e-mail: john.hawley{at}rmit.edu.au)

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