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Brain-muscle communication prevents muscle aging by maintaining daily physiology.

Arun KumarMireia Vaca-DempereThomas MortimerOleg DeryaginJacob G SmithPaul PetrusKevin Brian KoronowskiCarolina Magdalen GrecoJessica SegalésEva AndrésVera LukesovaValentina M ZinnaPatrick-Simon WelzAntonio L SerranoEusebio PerdigueroPaolo Sassone-CorsiSalvador Aznar BenitahPura Muñoz-Cánoves
Published in: Science (New York, N.Y.) (2024)
A molecular clock network is crucial for daily physiology and maintaining organismal health. We examined the interactions and importance of intratissue clock networks in muscle tissue maintenance. In arrhythmic mice showing premature aging, we created a basic clock module involving a central and a peripheral (muscle) clock. Reconstituting the brain-muscle clock network is sufficient to preserve fundamental daily homeostatic functions and prevent premature muscle aging. However, achieving whole muscle physiology requires contributions from other peripheral clocks. Mechanistically, the muscle peripheral clock acts as a gatekeeper, selectively suppressing detrimental signals from the central clock while integrating important muscle homeostatic functions. Our research reveals the interplay between the central and peripheral clocks in daily muscle function and underscores the impact of eating patterns on these interactions.
Keyphrases
  • skeletal muscle
  • physical activity
  • healthcare
  • public health
  • white matter
  • insulin resistance
  • weight loss
  • climate change
  • health information
  • resting state
  • functional connectivity
  • network analysis