Vitamin D deficiency contributes to overtraining syndrome in excessive trained C57BL/6 mice

Author:

Talvas J.1ORCID,Norgieux C.1,Burban E.1,Giraudet C.1,Patrac V.1,Salles J.1,Rigaudière J.‐P.1,Capel F.1,le Bacquer O.1,Ouchchane L.2,Richard R.1,Walrand S.13

Affiliation:

1. Human Nutrition Unit, UMR 1019 INRAE/UCA, CRNH‐Auvergne Clermont‐Ferrand France

2. CHU Clermont‐Ferrand Biostatistics and Medical Computing Unit Clermont‐Ferrand France

3. Department of Clinical Nutrition Clermont‐Ferrand University Hospital Center Clermont‐Ferrand France

Abstract

AbstractOvertraining syndrome is a condition resulting from excessive training load associated with inadequate recovery and poor sleep quality, leading to performance decrements and fatigue. Here we hypothesized that vitamin D (VitD) deficiency is a lead factor in the development of the overtraining syndrome. To test this hypothesis, two groups of 60‐week‐old C57BL/6 mice followed a 16‐week excessive eccentric‐based overtraining by excessive downhill running with or without dietary VitD depletion (EX and EX‐D groups). Two control groups were trained by uphill running at the same load with or without VitD depletion (CX and CX‐D groups). Handgrip strength decreased throughout the protocol for all groups but the decrease was sharper in EX‐D group (VitD × training, p = 0.0427). At the end of the protocol, the mass of Triceps brachii muscle, which is heavily stressed by eccentric contractions, was reduced in eccentric‐trained groups (training effect, p = 0.0107). This atrophy was associated with a lower concentration of the anabolic myokine IL‐15 (training effect, p = 0.0314) and a tendency to a higher expression of the atrogene cathepsin‐L (training effect, p = 0.0628). VitD depletion led to a 50% decrease of the fractional protein synthesis rate in this muscle (VitD effect, p = 0.0004) as well as decreased FGF21 (VitD effect, p = 0.0351) and increased osteocrin (VitD effect, p = 0.038) concentrations that would lead to metabolic defects. Moreover, the proportion of anti‐inflammatory Th2 lymphocytes was significantly decreased by the combination of eccentric training with VitD depletion (vitD × training, p = 0.0249) suggesting a systemic inflammation. Finally, exploratory behavior time of mice was decreased by VitD depletion (VitD effect, p = 0.0146) suggesting a cognitive dysfunction. Our results suggest that VitD deficiency exacerbates the effects of overtraining.

Publisher

Wiley

Subject

Physical Therapy, Sports Therapy and Rehabilitation,Orthopedics and Sports Medicine

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