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PDGFRβ signaling restrains myocyte function to limit the regenerative capacity of skeletal muscle.


ABSTRACT: Muscle cell fusion is critical for the formation and maintenance of multinucleated myotubes during skeletal muscle development and regeneration. However, the molecular mechanisms directing cell-cell fusion are not fully understood. Here, we identified platelet-derived growth factor receptor β (PDGFRβ) signaling as a key modulator of myocyte function in adult muscle cells. Our findings demonstrated that genetic deletion of Pdgfrb enhanced muscle regeneration and increased myofiber size, whereas Pdgfrb activation impaired muscle repair. Inhibition of PDGFRβ activity promoted myonuclear accretion in both mouse and human myotubes, whereas PDGFRβ activation stalled myotube development by preventing cell spreading to limit fusion potential. Furthermore, PDGFRβ activity cooperated with TGF-β signaling to regulate myocyte size and fusion. Mechanistically, PDGFRβ signaling required STAT1 activation, and blocking STAT1 phosphorylation enhanced myofiber repair and size during regeneration. Collectively, PDGFRβ signaling acts as a regenerative checkpoint and represents a potential clinical target to improve skeletal muscle repair.

SUBMITTER: Xue S 

PROVIDER: S-EPMC12904705 | biostudies-literature | 2026 Feb

REPOSITORIES: biostudies-literature

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PDGFRβ signaling restrains myocyte function to limit the regenerative capacity of skeletal muscle.

Xue Siwen S   Benvie Abigail M AM   Blum Jamie E JE   Cosgrove Benjamin D BD   Thalacker-Mercer Anna E AE   Berry Daniel C DC  

The Journal of clinical investigation 20251216 4


Muscle cell fusion is critical for the formation and maintenance of multinucleated myotubes during skeletal muscle development and regeneration. However, the molecular mechanisms directing cell-cell fusion are not fully understood. Here, we identified platelet-derived growth factor receptor β (PDGFRβ) signaling as a key modulator of myocyte function in adult muscle cells. Our findings demonstrated that genetic deletion of Pdgfrb enhanced muscle regeneration and increased myofiber size, whereas P  ...[more]

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