Environmental hypoxia favors myoblast differentiation and fast phenotype but blunts activation of protein synthesis after resistance exercise in human skeletal muscle

Gnimassou, Olouyomi; Fern�ndez-Verdejo, Rodrigo; Brook, Matthew; Naslain, Damien; Balan, Estelle; Sayda, Mariwan; Cegielski, Jessica; Nielens, Henri; Decottignies, Anabelle; Demoulin, Jean-Baptiste; Smith, Kenneth; Atherton, Philip J.; Francaux, Marc; Deldicque, Louise

doi:10.1096/fj.201800049rr

Environmental hypoxia favors myoblast differentiation and fast phenotype but blunts activation of protein synthesis after resistance exercise in human skeletal muscle

Gnimassou, Olouyomi; Fern�ndez-Verdejo, Rodrigo; Brook, Matthew; Naslain, Damien; Balan, Estelle; Sayda, Mariwan; Cegielski, Jessica; Nielens, Henri; Decottignies, Anabelle; Demoulin, Jean-Baptiste; Smith, Kenneth; Atherton, Philip J.; Francaux, Marc; Deldicque, Louise

Authors

Olouyomi Gnimassou

Rodrigo Fern�ndez-Verdejo

Mr MATTHEW BROOK MATTHEW.BROOK@NOTTINGHAM.AC.UK
Associate Professor

Damien Naslain

Estelle Balan

Mariwan Sayda

Jessica Cegielski

Henri Nielens

Anabelle Decottignies

Jean-Baptiste Demoulin

Professor KENNETH SMITH KEN.SMITH@NOTTINGHAM.AC.UK
PROFESSOR OF METABOLIC MASS SPECTROMETRY

Professor PHILIP ATHERTON philip.atherton@nottingham.ac.uk
PROFESSOR OF CLINICAL, METABOLIC & MOLECULAR PHYSIOLOGY

Marc Francaux

Louise Deldicque

Abstract

We hypothesized that a single session of resistance exercise performed in moderate hypoxic (FiO2: 14%) environmental conditions would potentiate the anabolic response during the recovery period spent in normoxia. Twenty subjects performed a 1-leg knee extension session in normoxic or hypoxic conditions. Muscle biopsies were taken 15 min and 4 h after exercise in the vastus lateralis of the exercised and the nonexercised legs. Blood and saliva samples were taken at regular intervals before, during, and after the exercise session. The muscle fractional-protein synthetic rate was determined by deuterium incorporation into proteins, and the protein-degradation rate was determined by methylhistidine release from skeletalmuscle.Wefoundthat:1)hypoxiablunted the activation of protein synthesis after resistance exercise; 2) hypoxia down-regulated the transcriptional program of autophagy; 3) hypoxia regulated the expression of genes involved in glucose metabolism at rest and the genes involved in myoblast differentiation and fusion and in muscle contraction machinery after exercise; and 4) the hypoxia-inducible factor-1alpha pathway was not activated at the time points studied. Contrary to our hypothesis, environmental hypoxia did not potentiate the short-term anabolic response after resistance exercise, but it initiated transcriptional regulations that could potentially translate into satellite cell incorporation and higher force production in the long term.

Citation

Gnimassou, O., Fernández-Verdejo, R., Brook, M., Naslain, D., Balan, E., Sayda, M., Cegielski, J., Nielens, H., Decottignies, A., Demoulin, J.-B., Smith, K., Atherton, P. J., Francaux, M., & Deldicque, L. (2018). Environmental hypoxia favors myoblast differentiation and fast phenotype but blunts activation of protein synthesis after resistance exercise in human skeletal muscle. FASEB Journal, 32, https://doi.org/10.1096/fj.201800049rr

Journal Article Type	Article
Acceptance Date	Apr 9, 2018
Online Publication Date	Apr 19, 2018
Publication Date	Sep 12, 2018
Deposit Date	Sep 14, 2018
Publicly Available Date	Sep 14, 2018
Journal	The FASEB Journal
Print ISSN	0892-6638
Electronic ISSN	1530-6860
Publisher	Federation of American Society of Experimental Biology (FASEB)
Peer Reviewed	Peer Reviewed
Volume	32
DOI	https://doi.org/10.1096/fj.201800049rr
Public URL	https://nottingham-repository.worktribe.com/output/1076389
Publisher URL	https://www.fasebj.org/doi/10.1096/fj.201800049RR