Effect of eccentric versus concentric exercise training on mitochondrial function

Marie-Eve Isner-Horobeti; Laurence Rasseneur; Evelyne Lonsdorfer-Wolf; Stéphane Pascal Dufour; Stéphane Doutreleau; Jamal Bouitbir; Joffrey Zoll; Sophia Kapchinsky; Bernard Geny; Frédéric Nicolas Daussin; Yan Burelle; Ruddy Richard

doi:10.1002/mus.24215

Effect of eccentric versus concentric exercise training on mitochondrial function

Muscle Nerve. 2014 Nov;50(5):803-11. doi: 10.1002/mus.24215. Epub 2014 Aug 30.

Authors

Marie-Eve Isner-Horobeti¹, Laurence Rasseneur, Evelyne Lonsdorfer-Wolf, Stéphane Pascal Dufour, Stéphane Doutreleau, Jamal Bouitbir, Joffrey Zoll, Sophia Kapchinsky, Bernard Geny, Frédéric Nicolas Daussin, Yan Burelle, Ruddy Richard

Affiliation

¹ Strasbourg University, Physical and Rehabilitation Medicine Department, Strasbourg University Rehabilitation Institute, France; Strasbourg University, Fédération de Médecine Translationnelle de Strasbourg (FMTS), EA 3072 "Mitochondrie, stress oxydant et protection musculaire", France.

PMID: 24639213
DOI: 10.1002/mus.24215

Abstract

Introduction: The effect of eccentric (ECC) versus concentric (CON) training on metabolic properties in skeletal muscle is understood poorly. We determined the responses in oxidative capacity and mitochondrial H2 O2 production after eccentric (ECC) versus concentric (CON) training performed at similar mechanical power.

Methods: Forty-eight rats performed 5- or 20-day eccentric (ECC) or concentric (CON) training programs. Mitochondrial respiration, H2 O2 production, citrate synthase activity (CS), and skeletal muscle damage were assessed in gastrocnemius (GAS), soleus (SOL) and vastus intermedius (VI) muscles.

Results: Maximal mitochondrial respiration improved only after 20 days of concentric (CON) training in GAS and SOL. H2 O2 production increased specifically after 20 days of eccentric ECC training in VI. Skeletal muscle damage occurred transiently in VI after 5 days of ECC training.

Conclusions: Twenty days of ECC versus CON training performed at similar mechanical power output do not increase skeletal muscle oxidative capacities, but it elevates mitochondrial H2 O2 production in VI, presumably linked to transient muscle damage.

Keywords: eccentric exercise; mitochondria; oxidative capacities; reactive oxygen species; skeletal muscle.

MeSH terms

Adenosine Diphosphate / metabolism
Animals
Body Mass Index
Citrate (si)-Synthase / metabolism
Creatine Kinase / metabolism
Hydrogen Peroxide / metabolism
Lactic Acid / blood
Male
Maximal Voluntary Ventilation
Mitochondria, Muscle / physiology*
Muscle, Skeletal / metabolism
Muscle, Skeletal / ultrastructure*
Oxidative Stress / physiology*
Physical Conditioning, Animal / physiology*
Rats
Rats, Wistar
Succinic Acid
Time Factors

Substances

Lactic Acid
Adenosine Diphosphate
Succinic Acid
Hydrogen Peroxide
Citrate (si)-Synthase
Creatine Kinase