Altered skeletal muscle function and beneficial effects of exercise training in a rat model of induced pulmonary emphysema

Author:

Passerieux Emilie1,Desplanche Elodie1,Alburquerque Laurie1,Wynands Quentin2,Bellanger Axel2,Virsolvy Anne1ORCID,Gouzi Farés2ORCID,Cazorla Olivier2,Bourdin Arnaud2,Hayot Maurice2,Pomiès Pascal1ORCID

Affiliation:

1. PhyMedExp, INSERM, CNRS Université de Montpellier Montpellier France

2. PhyMedExp, INSERM, CNRS, CHRU Montpellier Université de Montpellier Montpellier France

Abstract

AbstractAimChronic obstructive pulmonary disease (COPD) is characterized by progressive airflow obstruction and development of emphysema. Among the comorbidities associated with COPD, skeletal muscle dysfunction is known to affect exercise capacity and the survival rate of patients. Pulmonary rehabilitation (PR), via exercise training, is essential for COPD patients. However, the response to PR is most often moderate. An animal model that recapitulates critical features of chronic human disease and provides access to muscle function should therefore be useful to improve PR benefits.MethodsWe used a rat model of induced emphysema based on pulmonary instillations of elastase (ELA) and lipopolysaccharides (LPS). We assessed the long‐term effects of ELA/LPS and the potential effectiveness of endurance training on the skeletal muscle function. In vivo strength of the animals, and ex vivo contractility, endurance, type 1 fiber proportion, fiber cross‐sectional area, and capillarization of both soleus and extensor digitorum longus (EDL) were assessed.ResultsAn impaired overall muscle strength with decreased force, reduced capillarization, and atrophy of type 1 fiber of EDL was observed in ELA/LPS rats. Soleus was not affected. Endurance training was able to reduce fatigability, and increase type 1 fiber proportion and capillarization of soleus, and improve force, endurance, and capillarization of EDL in control and ELA/LPS rats.ConclusionOur rat model of induced emphysema, which shares some features with the phenotype present in patients with COPD, could represent a suitable model to study skeletal muscle dysfunction and the effects of exercise training on muscle function in patients.

Funder

Agir pour les Maladies Chroniques

Fondation Air Liquide

Fédération Française de Cardiologie

Publisher

Wiley

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