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Myosin heavy chain isoform content and energy metabolism can be uncoupled in pig skeletal muscle

Department of Animal Sciences, Purdue University, W. Lafayette, IN 47907

dgerrard{at}purdue.edu

Abstract

Genetic selection for improved growth and overall meatiness has resulted in the occurrence of 2 major mutations in pigs, the Rendement Napole (RN) and Halothane (Hal) gene mutations. At the tissue level, these mutations influence energy metabolism in skeletal muscle and muscle fiber type composition, yet also influence total body composition. The RN mutation affects the AMP-activated protein kinase gamma (AMPK) subunit and results in increased glycogen deposition in the muscle; while the Hal mutation alters sarcoplasmic calcium release mechanisms and results in altered energy metabolism. From a meat quality standpoint, these mutations influence independently the extent and rate of muscle energy metabolism postmortem, respectively. Even though these mutations alter overall muscle energy metabolism and histochemically-derived muscle fiber type independently; their effects have not been yet fully elucidated in respect to myosin heavy chain (MyHC) isoform content and those enzymes responsible for defining energetics of the tissue. Therefore, the objective of this study was to determine the collective effects of the RN and Hal genes on genes and gene products associated with different muscle fiber types in pig skeletal muscle. To overcome potential pitfalls associated with traditional muscle fiber typing, real-time PCR, gel electrophoresis, and Western blotting were used to evaluate MyHC composition and several energy-related gene expressions in muscles from wild type, RN, Hal, and Hal-RN mutant pigs. MyHC mRNA levels displayed sequential transitions from IIb to IIx and IIa in pigs bearing the RN mutation. In addition, our results showed MyHC protein isoform abundance is correlated with mRNA level supporting the hypothesis that MyHC genes are transcriptionally controlled. However, transcript abundance of genes involved in energy metabolism, including lactate dehydrogenase, citrate synthase, glycogen synthase, and PPAR, was not different between genotypes. These data show that the RN and Hal gene mutations alter muscle fiber type composition and suggest that muscle fiber energy metabolism and speed of contraction, the two determinants of muscle fiber type, can be uncoupled.

Key Words: halothane • myosin heavy chain • porcine • Rendement Napole • skeletal muscle

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