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Exercise-dependent increases in protein synthesis are accompanied by chromatin modifications and increased MRTF-SRF signalling.

Acta physiologica (Oxford, England) (2020-05-15)
Francesca Solagna, Leonardo Nogara, Kenneth A Dyar, Franziska Greulich, Ashfaq A Mir, Clara Türk, Theresa Bock, Alessia Geremia, Martina Baraldo, Roberta Sartori, Jean Farup, Henriette Uhlenhaut, Kristian Vissing, Marcus Krüger, Bert Blaauw
RESUMEN

Resistance exercise increases muscle mass over time. However, the early signalling events leading to muscle growth are not yet well-defined. Here, we aim to identify new signalling pathways important for muscle remodelling after exercise. We performed a phosphoproteomics screen after a single bout of exercise in mice. As an exercise model we used unilateral electrical stimulation in vivo and treadmill running. We analysed muscle biopsies from human subjects to verify if our findings in murine muscle also translate to exercise in humans. We identified a new phosphorylation site on Myocardin-Related Transcription Factor B (MRTF-B), a co-activator of serum response factor (SRF). Phosphorylation of MRTF-B is required for its nuclear translocation after exercise and is accompanied by the transcription of the SRF target gene Fos. In addition, high-intensity exercise also remodels chromatin at specific SRF target gene loci through the phosphorylation of histone 3 on serine 10 in myonuclei of both mice and humans. Ablation of the MAP kinase member MSK1/2 is sufficient to prevent this histone phosphorylation, reduce induction of SRF-target genes, and prevent increases in protein synthesis after exercise. Our results identify a new exercise signalling fingerprint in vivo, instrumental for exercise-induced protein synthesis and potentially muscle growth.

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DAPI, for nucleic acid staining
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Suero de cabra
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Anticuerpo anti-puromicina, clon 12D10, clone 12D10, from mouse
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Seroalbúmina bovina, heat shock fraction, pH 5.2, ≥96%