A potent liver-mediated mechanism for loss of muscle mass during androgen deprivation therapy

A potent liver-mediated mechanism for loss of muscle mass during androgen deprivation therapy

Context Androgen deprivation therapy (ADT) in prostate cancer results in muscular atrophy, due to loss of the anabolic actions of testosterone. Recently, we discovered that testosterone acts on the hepatic urea cycle to reduce amino acid nitrogen elimination. We now hypothesize that ADT enhances pro...

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Published in:Endocrine Connections Vol. 8; no. 5; pp. 605 - 615
Main Authors: Lam, Teresa, McLean, Mark, Hayden, Amy, Poljak, Anne, Cheema, Birinder, Gurney, Howard, Stone, Glenn, Bahl, Neha, Reddy, Navneeta, Shahidipour, Haleh, Birzniece, Vita
Format: Journal Article
Language:English
Published: England Bioscientifica Ltd 01-05-2019
Bioscientifica
Subjects:
hypogonadism
prostate cancer
sarcopenia
testosterone
urea production
prostate cancer
hypogonadism
testosterone
sarcopenia
urea production
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Summary:Context Androgen deprivation therapy (ADT) in prostate cancer results in muscular atrophy, due to loss of the anabolic actions of testosterone. Recently, we discovered that testosterone acts on the hepatic urea cycle to reduce amino acid nitrogen elimination. We now hypothesize that ADT enhances protein oxidative losses by increasing hepatic urea production, resulting in muscle catabolism. We also investigated whether progressive resistance training (PRT) can offset ADT-induced changes in protein metabolism. Objective To investigate the effect of ADT on whole-body protein metabolism and hepatic urea production with and without a home-based PRT program. Design A randomized controlled trial. Patients and intervention Twenty-four prostate cancer patients were studied before and after 6 weeks of ADT. Patients were randomized into either usual care (UC) (n = 11) or PRT (n = 13) starting immediately after ADT. Main outcome measures The rate of hepatic urea production was measured by the urea turnover technique using 15N2-urea. Whole-body leucine turnover was measured, and leucine rate of appearance (LRa), an index of protein breakdown and leucine oxidation (Lox), a measure of irreversible protein loss, was calculated. Results ADT resulted in a significant mean increase in hepatic urea production (from 427.6 ± 18.8 to 486.5 ± 21.3; P < 0.01) regardless of the exercise intervention. Net protein loss, as measured by Lox/Lra, increased by 12.6 ± 4.9% (P < 0.05). PRT preserved lean body mass without affecting hepatic urea production. Conclusion As early as 6 weeks after initiation of ADT, the suppression of testosterone increases protein loss through elevated hepatic urea production. Short-term PRT was unable to offset changes in protein metabolism during a state of profound testosterone deficiency.
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ISSN:2049-3614
2049-3614
DOI:10.1530/EC-19-0179