Building‐up fit muscles for the future

‘Special issue ‐ In Utero and Early Life Programming of Aging and Disease’. Skeletal muscle (SM) adaptations to physical exercise (PE) have been extensively studied due, not only to the relevance of its in situ plasticity, but also to the SM endocrine‐like effects in noncontractile tissues, such as brain, liver or adipocytes. Regular PE has been considered a pleiotropic nonpharmacological strategy to prevent and counteract the deleterious consequences of several metabolic, cardiovascular, oncological and neurodegenerative disorders. Additionally, PE performed by parents seems to have a direct impact in the offspring through the transgenerational programming of different tissues, such as SM. In fact, SM offspring programming mechanisms seems to be orchestrated, at least in part, by epigenetic machinery conditioning transcriptional or post‐transcriptional processes. Ultimately, PE performed in the early in life is also a critical window of opportunity to positively modulate the juvenile and adult phenotype. Parental PE has a positive impact in several health‐related offspring outcomes, such as SM metabolism, differentiation, morphology and ultimately in offspring exercise volition and endurance. Also, early‐life PE counteracts conceptional‐related adverse effects and induces long‐lasting healthy benefits throughout adulthood. Additionally, epigenetics mechanisms seem to play a key role in the PE‐induced SM adaptations. Despite the undoubtedly positive role of parental and early‐life PE on SM phenotype, a strong research effort is still needed to better understand the mechanisms that positively regulate PE‐induced SM programming.