Frontiers in physiology

Muscle-released tiny particles help communication between muscles and other organs

Updated

Abstract

Skeletal muscle-derived (SKM-EVs) may play significant roles in intercellular communication and have implications for various organs.

  • SKM-EVs are known to carry bioactive molecules that facilitate communication between skeletal muscle and other organs.
  • These vesicles are involved in processes such as muscle growth, repair, and metabolic regulation.
  • Evidence suggests that SKM-EVs may influence the function of organs like bone, the cardiovascular system, adipose tissue, and the nervous system.
  • Emerging research indicates a potential link between SKM-EVs and the development of type 2 diabetes, systemic inflammation, and other chronic diseases.
  • There is a highlighted need for further investigation into the mechanisms of SKM-EVs for their potential as therapeutic targets and diagnostic biomarkers.

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What this is

  • Skeletal muscle (SKM) acts as an active secretory organ, releasing () that communicate with other organs.
  • This review summarizes the biological characteristics, composition, and uptake mechanisms of SKM-derived (SKM-).
  • It also explores how SKM- influence functions in various organs and their potential roles in diseases like type 2 diabetes.

Essence

  • SKM-derived (SKM-) facilitate communication between skeletal muscle and other organs, impacting functions like muscle repair and metabolic regulation. They also play roles in chronic diseases, highlighting their potential as therapeutic targets.

Key takeaways

  • SKM- are crucial for intercellular communication, transporting proteins, lipids, and nucleic acids to various organs. They influence muscle regeneration, metabolic regulation, and the development of chronic diseases.
  • The review identifies specific miRNAs within SKM- that modulate cellular processes in recipient cells, impacting muscle health and systemic metabolism. For example, miR-206 plays a role in muscle differentiation and regeneration.
  • Understanding the mechanisms of SKM- can lead to innovative therapeutic strategies for conditions like type 2 diabetes and muscle wasting diseases, emphasizing the need for further research into their functions.

Caveats

  • The review notes a lack of systematic studies on the functions of SKM-, leaving gaps in understanding their regulatory mechanisms across different physiological and pathological states.
  • Variability in EV isolation methods may affect the purity and comparability of results, presenting challenges for future research and clinical applications.

Definitions

  • Extracellular vesicles (EVs): Small membrane-enclosed structures secreted by cells, involved in intercellular communication.
  • Myokines: Cytokines or other peptides produced and released by muscle cells that affect various physiological processes.

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