Abstract
Maintenance of skeletal muscle mass is contingent upon the dynamic equilibrium (fasted losses–fed gains) in protein turnover. Of all nutrients, the single amino acid leucine (Leu) possesses the most marked anabolic characteristics in acting as a trigger element for the initiation of protein synthesis. While the mechanisms by which Leu is ‘sensed’ have been the subject of great scrutiny, as a branched-chain amino acid, Leu can be catabolized within muscle, thus posing the possibility that metabolites of Leu could be involved in mediating the anabolic effect(s) of Leu. Our objective was to measure muscle protein anabolism in response to Leu and its metabolite HMB. Using [1,2-13C2]Leu and [2H5]phenylalanine tracers, and GC-MS/GC-C-IRMS we studied the effect of HMB or Leu alone on MPS (by tracer incorporation into myofibrils), and for HMB we also measured muscle proteolysis (by arteriovenous (A–V) dilution). Orally consumed 3.42 g free-acid (FA-HMB) HMB (providing 2.42 g of pure HMB) exhibited rapid bioavailability in plasma and muscle and, similarly to 3.42 g Leu, stimulated muscle protein synthesis (MPS; HMB +70%vs. Leu +110%). While HMB and Leu both increased anabolic signalling (mechanistic target of rapamycin; mTOR), this was more pronounced with Leu (i.e. p70S6K1 signalling ≤90 min vs. ≤30 min for HMB). HMB consumption also attenuated muscle protein breakdown (MPB; −57%) in an insulin-independent manner. We conclude that exogenous HMB induces acute muscle anabolism (increased MPS and reduced MPB) albeit perhaps via distinct, and/or additional mechanism(s) to Leu.
Highlights
Postabsorptive periods are dominated by negative protein balance (muscle protein breakdown (MPB) exceeds muscle protein synthesis (MPS)) that can only be reversed by food intake
Nutrient-mediated increases in MPS preserve the net muscle protein equilibrium to ensure muscle mass remains constant. Much of this effect has been attributed to the single essential amino acid (EAA) Leu (Kimball & Jefferson, 2006)
The majority of focus has been on identifying proximal signalling mechanisms by which branched-chain amino acid (BCAA), and Leu stimulated MPS, Leu is able to undergo catabolism in muscle and we were interested in exploring the possibility that Leu metabolites could possess anabolic attributes
Summary
Postabsorptive periods are dominated by negative protein balance (muscle protein breakdown (MPB) exceeds muscle protein synthesis (MPS)) that can only be reversed by food intake This ‘anabolic’ shift towards a positive protein balance is principally driven via a brief (∼2 h) but substantial (∼3-fold) postprandial elevation in MPS (Atherton et al 2010a), with a small (∼50%) contribution from MPB depression (Wilkes et al 2009). It follows that adequate nutritional intake is crucial for maintenance of skeletal muscle mass. It is on this basis that Leu has been suggested as a direct modulator of MPS, in addition to the more obvious role as a substrate
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