Current Issues in Sport Science (Feb 2024)

Cardiovascular and muscular plasticity in an endurance-master athlete following 12 weeks of detraining and retraining: A case study.

  • Nadège Zanou,
  • Vincent Gremeaux,
  • Nicolas Place,
  • Romuald Lepers

DOI
https://doi.org/10.36950/2024.2ciss084
Journal volume & issue
Vol. 9, no. 2

Abstract

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Introduction This study aimed at examining the cardiorespiratory and muscular adaptations following 12 weeks of detraining and retraining in a 53-year-old endurance master athlete. Methods Data were collected before and after detraining and after retraining. Maximal oxygen uptake (VO2max) was evaluated during maximal cycling exercise. Proteins involved in muscle contraction, mitochondrial function and glycolysis were investigated using western blot analysis. Results VO2max decreased by 7% after detraining and was 5% greater than baseline after retraining. Detraining induced an important increase in the ryanodine receptor type 1 protein levels (RyR1, +44%) with a decrease in the protein levels of its stabilizer FKBP12 (-24%). We observed a 138% increase in the sarco-endoplasmic reticulum ATPase 1 protein and a 42% increase in the myosin heavy chain fast-twitch protein in response to detraining, suggesting transformation towards a more glycolytic phenotype. This was associated with depressed levels of the mitochondrial biogenesis and oxidative phosphorylation (OXPHOS) proteins, while the expression of the mitochondrial dynamic proteins appeared stimulated. Twelve weeks of retraining reversed almost all the alterations observed in muscle proteins, but specifically increased mitochondrial biogenesis, OXPHOS and antioxidant defense proteins as well as the glucose transporter 4 (Glut -4, +36%) and hexokinase (+100%) proteins levels compared to baseline. The mitochondrial dynamic proteins were further increased with the retraining. Discussion/Conclusion These data provide novel information on cardiorespiratory and muscular plasticity suggesting that highly endurance-trained athletes might show substantial muscular adaptations while retrained after a detraining period and call for more extensive clinical trials.

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