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Effects of resistance exercise, collagen ingestion and circulating oestrogen concentration on collagen synthesis in a female athlete: a case report.

Lee, Joonsung; Tang, Jonathan C.Y.; Dutton, John; Dunn, Rachel; Fraser, William D.; Enright, Kevin; Clark, David R.; Stewart, Claire E.; Erskine, Robert M.

Authors

Joonsung Lee

Jonathan C.Y. Tang

John Dutton

Rachel Dunn

William D. Fraser

Kevin Enright

Claire E. Stewart

Robert M. Erskine



Abstract

We investigated the effects of resistance exercise (RE), hydrolysed collagen (HC) ingestion and circulating oestrogen concentration on collagen synthesis in a naturally menstruating female CrossFit athlete. In a double-blind, randomised cross-over design, the participant (36 years; height 1.61 m; mass 82.6 kg) consumed 0 or 30 g HC prior to performing back-squat RE when endogenous circulating oestrogen concentration was low (onset of menses, OM) and high (late follicular phase, LF) during two consecutive menstrual cycles. Ten 5-mL blood samples were collected during each of the four interventions to analyse concentrations of serum 17β-oestradiol, and biomarkers of type I collagen turnover, that is serum procollagen type I N-terminal propeptide (PINP, a biomarker of collagen synthesis) and plasma β-isomerised C-terminal telopeptide of type I collagen (β-CTX, a biomarker of collagen breakdown), as well as the serum concentration of 18 collagen amino acids. 17β-Oestradiol concentration was 5-fold higher at LF (891 ± 116 pmol L−1) than OM (180 ± 13 pmol L−1). The PINP concentration × time area under the curve (AUC) was higher in the 30 g HC OM intervention (201 μg L−1 h) than the 30 g HC LF (144 μg L−1 h), 0 g HC OM (151 μg L−1 h) and 0 g HC LF (122 μg L−1 h) interventions. β-CTX concentration decreased 1.4-fold from pre-RE to 6 h post-RE in all interventions. Thus, high circulating oestrogen concentration was associated with lower collagen synthesis following RE in this female athlete. Ingesting 30 g HC, however, augmented the collagen synthesis response at LF and particularly at OM. Highlights: What is the central question of this study? Does resistance exercise-induced collagen synthesis vary according to circulating oestrogen concentration in a naturally menstruating female athlete, and if so, does hydrolysed collagen ingestion have any impact? What is the main finding and its importance? Exercise-induced collagen synthesis was low when circulating oestrogen concentration was high and vice versa. However, ingesting 30 g hydrolysed collagen prior to exercise reduced the negative effect of oestrogen on collagen synthesis. As high circulating oestrogen has been associated with greater injury risk in females, supplementing exercise with hydrolysed collagen may help protect these tissues from injury.

Citation

LEE, J., TANG, J.C.Y., DUTTON, J., DUNN, R., FRASER, W.D., ENRIGHT, K., CLARK, D.R., STEWART, C.E. and ERSKINE, R.M. 2024. Effects of resistance exercise, collagen ingestion and circulating oestrogen concentration on collagen synthesis in a female athlete: a case report. Experimental physiology [online], Early View. Available from: https://doi.org/10.1113/EP091897

Journal Article Type Article
Acceptance Date Jun 6, 2024
Online Publication Date Jun 20, 2024
Deposit Date Jun 27, 2024
Publicly Available Date Jun 27, 2024
Journal Experimental physiology
Print ISSN 0958-0670
Electronic ISSN 1469-445X
Publisher Wiley
Peer Reviewed Peer Reviewed
DOI https://doi.org/10.1113/EP091897
Keywords Connective tissue; Female; Glycine; Oestrogen; Proline
Public URL https://rgu-repository.worktribe.com/output/2378297

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LEE 2024 Effects of resistance exercise (VOR-EARLY VIEW) (856 Kb)
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Publisher Licence URL
https://creativecommons.org/licenses/by/4.0/

Copyright Statement
© 2024 The Authors. Experimental Physiology published by John Wiley & Sons Ltd on behalf of The Physiological Society. This is an open access article under the terms of the Creative Commons Attribution License, which permits use, distribution and reproduction in any medium, provided the original work is properly cited.

Version
VOR-Early View uploaded 2024.06.27




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