Publications

Abstract

CONTEXT: The urea cycle is a rate-limiting step for amino acid nitrogen elimination. The rate of urea synthesis is a true indicator of whole-body protein catabolism. Testosterone reduces protein and nitrogen loss. The effect of testosterone on hepatic urea synthesis in humans has not been studied. OBJECTIVE: To determine whether testosterone reduces hepatic urea production. DESIGN: An open-label study. PATIENTS AND INTERVENTION: Eight hypogonadal men were studied at baseline, and after two weeks of transdermal testosterone replacement (Testogel, 100 mg/day). MAIN OUTCOMES MEASURES: The rate of hepatic urea synthesis was measured by the urea turnover technique using stable isotope methodology, with (15)N2-urea as tracer. Whole-body leucine turnover was measured, from which leucine rate of appearance (LRa), an index of protein breakdown and leucine oxidation (Lox), a measure of irreversible protein loss, were calculated. RESULTS: Testosterone administration significantly reduced the rate of hepatic urea production (from 544.4 +/- 71.8 to 431.7 +/- 68.3 micromol/min; P < 0.01), which was paralleled by a significant reduction in serum urea concentration. Testosterone treatment significantly reduced net protein loss, as measured by percent Lox/LRa, by 19.3 +/- 5.8% (P < 0.05). There was a positive association between Lox and hepatic urea production at baseline (r(2) = 0.60, P < 0.05) and after testosterone administration (r(2) = 0.59, P < 0.05). CONCLUSION: Testosterone replacement reduces protein loss and hepatic urea synthesis. We conclude that testosterone regulates whole-body protein metabolism by suppressing the urea cycle.