Dietary Protein Level Regulates Expression of the Mitochondrial Branched-Chain Aminotransferase in Rats

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Dietary Protein Level Regulates Expression of the Mitochondrial Branched-Chain Aminotransferase in Rats

Manuscript received 4 December 1997. Initial reviews completed 29 January 1998. Revision accepted 3 April 1998.

Nimbe Torres, Gabriel López, Soledad De Santiago, Susan M. Hutson^*, and Armando R. Tovar

Departamento de Fisiología de la Nutrición, Instituto Nacional de Nutrición, México D.F., 14000, Mexico and ^* Department of Biochemistry, Wake Forest University Medical Center, Winston-Salem, NC 27157

The first step in the degradation of branched-chain amino acids (BCAA) is transamination catalyzed by the branched-chain aminotransferase(BCAT), which is located in extrahepatic tissues. Studies of theeffect of dietary protein on BCAT activity have given contradictoryresults. Therefore, we established the levels of BCAT activityand mitochondrial BCAT (BCATm) mRNA expression in different organsand tissues of rats. We then determined the effect of differentlevels of dietary protein in well-nourished rats, the effect offeeding a 0.5% casein diet for 5 wk (protein-malnourished rats)and nutritional rehabilitation of these rats with different levelsof dietary protein on BCAT activity and BCATm mRNA expressionin selected tissues. Finally, the response of tissue BCAT activityand BCATm mRNA levels in rats fed a 10% casein diet and injectedwith glucagon (4 d) or hydrocortisone (7 d) was determined. Thehighest concentration of BCATm mRNA was found in stomach, followedby kidney, heart, muscle, brain, skin and lung. Low levels werefound in intestine, and no BCATm mRNA was detectable in liver.Although BCAT activity was significantly higher in muscle, kidneyand brain from rats adapted to consume a 50% casein diet for 7h/d for 10 d than in rats fed 6, 18 or 35% casein diets, onlymuscle had significantly higher levels of BCATm mRNA. In protein-malnourishedrats, BCAT activity and BCATm mRNA expression in kidney, muscleand heart were not different from those of rats with free accessto an 18% casein diet. Nutritional rehabilitation of the protein-malnourishedrats with 50% casein for 21 d significantly increased the BCATactivity and BCATm mRNA expression in muscle. Neither hydrocortisonenor glucagon injection affected BCAT activity or BCATm mRNA concentrationsin rat kidney, muscle or heart. We conclude that the nutritionalregulation of BCATm is extrahepatic, tissue specific and may involvetranscriptional and post-translational mechanisms.

Key words: branched-chain aminotransferase, hormones, malnutrition, protein, rats.

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