British Journal of Nutrition

Full Papers

Metabolism and Metabolic Studies

Resistance exercise enhances myofibrillar protein synthesis with graded intakes of whey protein in older men

Yifan Yanga1, Leigh Breena1, Nicholas A. Burda1, Amy J. Hectora1, Tyler A. Churchward-Vennea1, Andrea R. Jossea1, M. A. Tarnopolskya2 and Stuart M. Phillipsa1 c1

a1 Exercise Metabolism Research Group, Department of Kinesiology, McMaster University, 1280 Main Street West, Hamilton, ON, Canada L8S 4K1

a2 Pediatrics and Neurology, McMaster University, Hamilton, ON, Canada

Abstract

Feeding stimulates robust increases in muscle protein synthesis (MPS); however, ageing may alter the anabolic response to protein ingestion and the subsequent aminoacidaemia. With this as background, we aimed to determine in the present study the dose–response of MPS with the ingestion of isolated whey protein, with and without prior resistance exercise, in the elderly. For the purpose of this study, thirty-seven elderly men (age 71 (sd 4) years) completed a bout of unilateral leg-based resistance exercise before ingesting 0, 10, 20 or 40 g of whey protein isolate (W0–W40, respectively). Infusion of l-[1-13C]leucine and l-[ring-13C6]phenylalanine with bilateral vastus lateralis muscle biopsies were used to ascertain whole-body leucine oxidation and 4 h post-protein consumption of MPS in the fed-state of non-exercised and exercised leg muscles. It was determined that whole-body leucine oxidation increased in a stepwise, dose-dependent manner. MPS increased above basal, fasting values by approximately 65 and 90 % for W20 and W40, respectively (P < 0·05), but not with lower doses of whey. While resistance exercise was generally effective at stimulating MPS, W20 and W40 ingestion post-exercise increased MPS above W0 and W10 exercised values (P < 0·05) and W40 was greater than W20 (P < 0·05). Based on the study, the following conclusions were drawn. At rest, the optimal whey protein dose for non-frail older adults to consume, to increase myofibrillar MPS above fasting rates, was 20 g. Resistance exercise increases MPS in the elderly at all protein doses, but to a greater extent with 40 g of whey ingestion. These data suggest that, in contrast to younger adults, in whom post-exercise rates of MPS are saturated with 20 g of protein, exercised muscles of older adults respond to higher protein doses.

(Received August 10 2011)

(Revised November 23 2011)

(Accepted December 14 2011)

(Online publication February 07 2012)

Key Words:

  • Sarcopenia;
  • Protein metabolism;
  • Hypertrophy

Correspondence:

c1 Corresponding author: S. M. Phillips, fax +1 905 523 6011, email phillis@mcmaster.ca

Footnotes

  Abbreviations: EAA, essential amino acids; FSR, fractional synthetic rate; MPS, muscle protein synthesis; SPPB, Short Physical Performance Battery; W0, 0 g of whey protein isolate; W10, 10 g of whey protein isolate; W20, 20 g of whey protein isolate; W40, 40 g of whey protein isolate

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