Potential role of leucine metabolism in the leucine-signaling pathway involving mTOR

doi:10.1152/ajpendo.00153.2003

Potential role of leucine metabolism in the leucine-signaling pathway involving mTOR

Christopher J. Lynch,¹ Beth Halle,¹ Hisao Fujii,² Thomas C. Vary,¹ Reidar Wallin,³ Zahi Damuni,¹ and Susan M. Hutson²

¹Department of Cellular and Molecular Physiology, Pennsylvania State University College of Medicine, Hershey, Pennsylvania 17033; and Departments of ²Biochemistry and ³Internal Medicine, Wake Forest University School of Medicine, Winston-Salem, North Carolina 27157

Submitted 8 April 2003 ; accepted in final form 10 June 2003

Leucine has been shown to stimulate adipose tissue protein synthesisin vivo as well as leptin secretion, protein synthesis, hyper-plasticgrowth, and tissue morphogenesis in in vitro experiments usingfreshly isolated adipocytes. Recently, others have proposedthat leucine oxidation in the mitochondria may be required toactivate the mammalian target of rapamycin (mTOR), the cytosolicSer/Thr protein kinase that appears to mediate some of theseeffects. The first irreversible and rate-limiting step in leucineoxidation is catalyzed by the branched-chain ${alpha}$ -keto acid dehydrogenase(BCKD) complex. The activity of this complex is regulated acutelyby phosphorylation of the E1 ${alpha}$ -subunit at Ser²⁹³ (S293), whichinactivates the complex. Because the ${alpha}$ -keto acid of leucine regulatesthe activity of BCKD kinase, it has been suggested as a potentialtarget for leucine regulation of mTOR. To study the regulationof BCKD phosphorylation and its potential link to mTOR activation,a phosphopeptide-specific antibody recognizing this site wasdeveloped and characterized. Phospho-S293 (pS293) immunoreactivityin liver corresponded closely to diet-induced changes in BCKDactivity state. Immunoreactivity was also increased in TREMK-4cells after the induction of BCKD kinase by a drug-induciblepromoter. BCKD S293 phosphorylations in adipose tissue and gastrocnemius(which is mostly inactive in vivo) were similar. This suggeststhat BCKD complex in epididymal adipose tissue from food-deprivedrats is mostly inactive (unable to oxidize leucine), as is thecase in muscle. To begin to test the leucine oxidation hypothesisof mTOR activation, the dose-dependent effects of orally administeredleucine on acute activation of S6K1 (an mTOR substrate) andBCKD were compared using the pS293 antibodies. Increasing dosesof leucine directly correlated with increases in plasma leucineconcentration. Phosphorylation of S6K1 (Thr³⁸⁹, the phosphorylationsite leading to activation) in adipose tissue was maximal ata dose of leucine that increased plasma leucine approximatelythreefold. Changes in BCKD phosphorylation state required higherplasma leucine concentrations. The results seem more consistentwith a role for BCKD and BCKD kinase in the activation of leucinemetabolism/oxidation than in the activation of the leucine signalto mTOR.

mammalian target of rapamycin; ribosomal protein S6 kinase-1; branched-chain ${alpha}$ -keto acid dehydrogenase

Address for reprint requests and other correspondence: C. J. Lynch, Dept. of Cell. & Mol. Physiology (MC H166, Rm C4757), Penn State College of Medicine, 500 University Dr., Hershey, PA 17033 (E-mail: clynch{at}psu.edu).

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