Platelet-derived growth factor subunit B (PDGF-B) protein secreted from skeletal muscle cells helps to repair muscles by encouraging myoblasts (muscle stem cells) to proliferate. The study findings promise game-changing therapies for treating muscular atrophy and injury.
To understand what role it plays, they took myoblasts, precursor cells which go on to differentiate into muscle fibers, and exposed them to PDGF-B. They were able to clearly show that PDGF-B induced greater proliferation of myoblasts.
What are Myokines
Myokines are small proteins secreted by skeletal muscle cells. They have a wide range of functions and may act on cells both near and far to where they are made. A comprehensive picture of how myokines affect cellular processes is far from clear, but it is believed that they play an important role in exercise-related bodily functions, particularly the maintenance of muscle tissue.
Curiously, they also found that PDGF-B impacted cells which had already differentiated. They took myotubes, a developmental stage of muscle fibers, and exposed them to the same myokine. Myotubes treated in this way exhibited significantly more maturation, visibly increasing in diameter under microscope observation. They also expressed more Myosin Heavy Chain, a key part of the protein structure of myosin, the molecular motor responsible for muscle contraction.
Role of Myokines in Regulating Skeletal Muscle Mass
Using a recently developed technique based on observing how myotubes react to an electric pulse, this was shown to directly correspond to increased contractile strength. Thus, PDGF-B not only helps make more muscle, but makes them stronger. But this doesn’t mean both processes are accelerated in a haphazard manner. They noticed subtle differences in PDGF-B signaling pathways between myotubes and myoblasts; the team believe these differences may be involved in cells switching from a proliferating phase to one where they are maturing.
The team’s work shows clearly that PDGF-B is involved in muscle regeneration and constitutes a big leap forward for developing effective treatments for muscle injury and atrophy as well as regimens for improving muscle performance.
This work was supported by Japan Society for the Promotion of Science (JSPS) KAKENHI Grants-in-Aid for Scientific Research [Grant Number JP 17H02159, JP 26242068 and 18H04086], the Promotion of Science Funding Program for Next Generation World-Leading Researchers [JSPS NEXT Program Number LS102], the TMU strategic research fund for innovative research projects and a Tokyo Metropolitan Government Advanced Research Grant [R2-2].
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