Tissue-specific effects of chronic dietary leucine and norleucine supplementation on protein synthesis in rats

doi:10.1152/ajpendo.00085.2002

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Tissue-specific effects of chronic dietary leucine and norleucine supplementation on protein synthesis in rats

Christopher J. Lynch¹, Susan M. Hutson², Brian J. Patson¹, Alain Vaval¹, and Thomas C. Vary¹

¹ Department of Cellular and Molecular Physiology, Pennsylvania State University College of Medicine, Hershey, Pennsylvania 17033; and ² Department of Biochemistry, Wake Forest University Medical School, Winston-Salem, North Carolina 27157

Acute administration of leucine and norleucine activates the mammalian target of rapamycin (mTOR) cell-signaling pathway andincreases rates of protein synthesis in a number of tissues infasted rats. Although persistent stimulation of mTOR signalingis thought to increase protein synthetic capacity, little informationis available concerning the effects of chronic administrationof these agonists on protein synthesis, mTOR signal transduction,or leucine metabolism. Hence, we developed a model of chronicleucine/norleucine supplementation via drinking water and examinedthe effects of chronic (12 days) supplementation on protein synthesisin adipose tissue, kidney, heart, liver, and skeletal muscle fromad libitum-fed rats. The relative concentration of proteins involvedin mTOR signaling and the two initial steps in leucine oxidationwere also examined. Leucine or norleucine supplementation wasaccompanied by increased rates of protein synthesis in adiposetissue, liver, and skeletal muscle, but not in heart or kidney.Supplementation was not associated with increases in the anabolichormones insulin or insulin-like growth factor I. Chronic supplementationdid not cause apparent adaptation in either components of themTOR cell-signaling pathway that respond to leucine (mTOR, ribosomalprotein S6 kinase, and eukaryotic initiation factor 4E-bindingprotein-1) or the first two steps in leucine metabolism (the mitochondrialisoform of branched-chain amino acid transaminase, branched-chainketo acid dehydrogenase, and branched-chain keto acid dehydrogenasekinase), which may be involved in terminating the signal fromleucine. These results suggest that provision of leucine or norleucinesupplementation via the drinking water results in stimulationof postprandial protein synthesis in adipose tissue, skeletalmuscle, and liver without notable adaptive changes in signalingproteins or metabolicenzymes.

mammalian target of rapamycin; adipose tissue; eukaryotic initiation factor 4E-binding protein-1; branched-chain keto acid dehydrogenase kinase

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				S. R. Kimball and L. S. Jefferson Signaling Pathways and Molecular Mechanisms through which Branched-Chain Amino Acids Mediate Translational Control of Protein Synthesis J. Nutr., January 1, 2006; 136(1): 227S - 231S. [Abstract] [Full Text] [PDF]

				N. J. M. Cano, D. Fouque, and X. M. Leverve Application of Branched-Chain Amino Acids in Human Pathological States: Renal Failure J. Nutr., January 1, 2006; 136(1): 299S - 307S. [Abstract] [Full Text] [PDF]

				T. C. Vary, S. Goodman, L. E. Kilpatrick, and C. J. Lynch Nutrient regulation of PKC{epsilon} is mediated by leucine, not insulin, in skeletal muscle Am J Physiol Endocrinol Metab, October 1, 2005; 289(4): E684 - E694. [Abstract] [Full Text] [PDF]

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