An exploration of the methods to determine the protein‐specific synthesis and breakdown rates in vivo in humans

Lars Holm; Kasper Dideriksen; Rie H. Nielsen; Simon Doessing; Rasmus L. Bechshoeft; Grith Højfeldt; Marcus Moberg; Eva Blomstrand; Søren Reitelseder; Gerrit vanHall

doi:10.14814/phy2.14143

Physiological Reports (Sep 2019)

An exploration of the methods to determine the protein‐specific synthesis and breakdown rates in vivo in humans

Lars Holm,
Kasper Dideriksen,
Rie H. Nielsen,
Simon Doessing,
Rasmus L. Bechshoeft,
Grith Højfeldt,
Marcus Moberg,
Eva Blomstrand,
Søren Reitelseder,
Gerrit vanHall

Affiliations

Lars Holm: Institute of Sports Medicine and Department of Orthopedic Surgery M Bispebjerg Hospital Copenhagen Denmark
Kasper Dideriksen: Institute of Sports Medicine and Department of Orthopedic Surgery M Bispebjerg Hospital Copenhagen Denmark
Rie H. Nielsen: Institute of Sports Medicine and Department of Orthopedic Surgery M Bispebjerg Hospital Copenhagen Denmark
Simon Doessing: Institute of Sports Medicine and Department of Orthopedic Surgery M Bispebjerg Hospital Copenhagen Denmark
Rasmus L. Bechshoeft: Institute of Sports Medicine and Department of Orthopedic Surgery M Bispebjerg Hospital Copenhagen Denmark
Grith Højfeldt: Institute of Sports Medicine and Department of Orthopedic Surgery M Bispebjerg Hospital Copenhagen Denmark
Marcus Moberg: Aastrand Laboratory Swedish School of Sport and Health Sciences Stockholm Sweden
Eva Blomstrand: Aastrand Laboratory Swedish School of Sport and Health Sciences Stockholm Sweden
Søren Reitelseder: Institute of Sports Medicine and Department of Orthopedic Surgery M Bispebjerg Hospital Copenhagen Denmark
Gerrit vanHall: Department of Biomedical Sciences Faculty of Health and Medical Sciences University of Copenhagen Copenhagen Denmark

DOI: https://doi.org/10.14814/phy2.14143
Journal volume & issue: Vol. 7, no. 17
pp. n/a – n/a

Abstract

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Abstract The present study explores the methods to determine human in vivo protein‐specific myofibrillar and collagenous connective tissue protein fractional synthesis and breakdown rates. We found that in human myofibrillar proteins, the protein‐bound tracer disappearance method to determine the protein fractional breakdown rate (FBR) (via 2H2O ingestion, endogenous labeling of 2H‐alanine that is incorporated into proteins, and FBR quantified by its disappearance from these proteins) has a comparable intrasubject reproducibility (range: 0.09–53.5%) as the established direct‐essential amino acid, here L‐ring‐13C6‐phenylalanine, incorporation method to determine the muscle protein fractional synthesis rate (FSR) (range: 2.8–56.2%). Further, the determination of the protein breakdown in a protein structure with complex post‐translational processing and maturation, exemplified by human tendon tissue, was not achieved in this experimentation, but more investigation is encouraged to reveal the possibility. Finally, we found that muscle protein FBR measured with an essential amino acid tracer prelabeling is inappropriate presumably because of significant and prolonged intracellular recycling, which also may become a significant limitation for determination of the myofibrillar FSR when repeated infusion trials are completed in the same participants.

Published in Physiological Reports

ISSN: 2051-817X (Online)
Publisher: Wiley
Country of publisher: United States
LCC subjects: Science: Physiology
Website: https://physoc.onlinelibrary.wiley.com/journal/2051817x

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Abstract

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