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Background Skeletal muscle is one of to the most dynamic and plastic tissues. The capacity to regenerate arises from adult muscle stem cells termed myogenic progenitors (MPs) that are activated in response to injury and differentiate to replenish damaged muscle fibers. The age-related loss of muscle mass is reflected in the reduced regenerative potential of MPs. The underlying mechanisms are still unclear and insights into alterations in adult muscle stem cells during ageing are urgently needed. We have previously identified a novel muscle-specific microRNA, miR-501-3p, that is enriched in activated MPs. Pharmacological inhibition of miR-501 during muscle regeneration promoted small-diameter neofibers. Here, we provide evidence for the regulation of miR-501 in skeletal muscle during aging and its effect on newly formed myofibers using genetic deletion in mice. Methods We analysed the regulation and upstream signalling pathways of miR-501 in primary myoblasts from mice and humans and in skeletal muscle from young and aged mice. We generated a novel Cre-loxP mouse model, which allowed for global and MP-specific deletion of miR-501. Skeletal muscle regeneration was induced using cardiotoxin (CTX) and assessed using immunofluorescence and transcriptomic analysis. Results miR-501 was upregulated in muscle cells by the paracrine growth factors platelet derived growth factor (PDGF) and vascular endothelial growth factor (VEGF) through the Janus tyrosine kinase (JAK)-signal transducer and activator of transcription-3 (STAT3) signalling axis. Expression levels of miR-501 as well as its upstream regulators Pdgf and Vegf were significantly reduced in skeletal muscle from aged mice (22 months) compared to young mice (3 months) by 67.8% (p Conclusion Our data indicate that paracrine growth factor signalling contributes to muscle fiber formation via miR-501 in myogenic progenitor cells and its effect on the sarcomere. Restoring the Pdgf+Vegf/miR-501 axis might have the potential to improve muscle formation during aging. Presentation: Monday, June 13, 2022 11:00 a.m. - 11:15 a.m. |
