Effect of insulin on system A amino acid transport in human skeletal muscle

R. C. Bonadonna, M. P. Saccomani, C. Cobelli, R. A. DeFronzo

Research output: Contribution to journalArticlepeer-review

72 Scopus citations


Transmembrane transport of neutral amino acids in skeletal muscle is mediated by at least four different systems (system A, ASC, L, and N(m)), and may be an important target for insulin's effects on amino acid and protein metabolism. We have measured net amino acid exchanges and fractional rates of inward (K(in), min-1) and outward (K(out), min-1) transmembrane transport of 2-methylaminoisobutyric acid (MeAIB, a nonmetabolizable amino acid analogue, specific for system A amino acid transport) in forearm deep tissues (skeletal muscle), by combining the forearm perfusion technique and a novel dual tracer ([1-H3]-D-mannitol and 2-[1-14C]-methylaminoisobutyric acid) approach for measuring in vivo the activity of system A amino acid transport. Seven healthy lean subjects were studied. After a baseline period, insulin was infused into the brachial artery to achieve local physiologic hyperinsulinemia (76±8 μU/ml vs 6.4±1.6 μU/ml in the basal period, P < 0.01) without affecting systemic hormone and substrate concentrations. Insulin switched forearm amino acid exchange from a net output (-2,630±1,100 nmol/min per kg of forearm tissue) to a net uptake (1,610±600 nmol/min per kg, P < 0.01 vs baseline). Phenylalanine and tyrosine balances simultaneously shifted from a net output (-146±47 and -173±34 nmol/min per kg, respectively) to a zero balance (16.3±51 for phenylalanine and 15.5±14.3 nmol/min per kg for tyrosine, P < 0.01 vs baseline for both), showing that protein synthesis and breakdown were in equilibrium during hyperinsulinemia. Net negative balances of alanine, methionine, glycine, threonine and asparagine (typical substrates for system A amino acid transport) also were decreased by insulin, whereas serine (another substrate for system A transport) shifted from a zero balance to net uptake. Insulin increased k(in) of MeAIB from a basal value of 11.8 · 10-2±1.7 · 10-2 · min-1 to 13.7 · 10-2±2.2 · 10-2 · min-1 (P < 0.02 vs the postabsorptive value), whereas k(out) was unchanged. We conclude that physiologic hyperinsulinemia stimulates the activity of system A amino acid transport in human skeletal muscle, and that this effect may play a role in determining the overall concomitant response of muscle amino acid/protein metabolism to insulin.

Original languageEnglish (US)
Pages (from-to)514-521
Number of pages8
JournalJournal of Clinical Investigation
Issue number2
StatePublished - 1993
Externally publishedYes


  • 2-methylaminoisobutyric acid
  • first-pass kinetics
  • limb balance
  • protein turnover

ASJC Scopus subject areas

  • Medicine(all)


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