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Epigenetic rewiring of skeletal muscle enhancers after exercise training supports a role in whole-body function and human health

Kristine Williams, Germán D. Carrasquilla, Lars R. Ingerslev, Mette Yde Hochreuter, Svenja Hansson, Nicolas J. Pillon, Ida Donkin, Soetkin Versteyhe, Juleen R. Zierath, Tuomas O. Kilpeläinen, Romain Barrès

2021Molecular Metabolism31 citationsDOIOpen Access PDF

Abstract

OBJECTIVES: Regular physical exercise improves health by reducing the risk of a plethora of chronic disorders. We hypothesized that endurance exercise training remodels the activity of gene enhancers in skeletal muscle and that this remodeling contributes to the beneficial effects of exercise on human health. METHODS AND RESULTS: By studying changes in histone modifications, we mapped the genome-wide positions and activities of enhancers in skeletal muscle biopsies collected from young sedentary men before and after 6 weeks of endurance exercise. We identified extensive remodeling of enhancer activities after exercise training, with a large subset of the remodeled enhancers located in the proximity of genes transcriptionally regulated after exercise. By overlapping the position of enhancers with genetic variants, we identified an enrichment of disease-associated genetic variants within the exercise-remodeled enhancers. CONCLUSION: Our data provide evidence of a functional link between epigenetic rewiring of enhancers to control their activity after exercise training and the modulation of disease risk in humans.

Topics & Concepts

EpigeneticsSkeletal muscleEnhancerFunction (biology)MedicineBiologyBioinformaticsGeneticsEndocrinologyGene expressionGeneGenetics and Physical PerformanceEpigenetics and DNA MethylationGenomics and Chromatin Dynamics
Epigenetic rewiring of skeletal muscle enhancers after exercise training supports a role in whole-body function and human health | Litcius