c-MAF transduces fast motor neuron firing to sustain fast-glycolytic myofibers and neuromuscular junctions
Autor/innen
- Edgar Jauliac
- Stephanie Backer
- Shunya Sadaki
- Julien Gondin
- Aurelie Fessard
- Hugues Escoffier
- Maeva Roullat
- Maxime Di Gallo
- Adrien Levesque
- Doriane Pereira
- Mattieu Dos Santos
- Vincent Vuong
- Alexander S. Ham
- Franck Letourneur
- Rémi Pierre
- Markus A. Rüegg
- Carmen Birchmeier
- Ryo Fujita
- Athanassia Sotiropoulos
- Pascal Maire
Journal
- bioRxiv
Quellenangabe
- bioRxiv
Zusammenfassung
This study examined how motoneuron activity influences transcription factor binding in mouse fast glycolytic Myh4+ muscle fibers. Single nucleus multiomics of innervated versus denervated tibialis anterior muscles revealed altered chromatin accessibility: SIX and c-MAF binding sites decreased while JUN, FOS, and RUNX1 sites increased in denervated Myh4+ myonuclei. c-MAF showed strong nuclear enrichment after 100 Hz stimulation and periods of increased motoneuron activity but was absent following denervation, establishing it as a primary readout of fast motoneuron firing. Genome-wide analysis demonstrated that c-MAF binding site spacing encodes functionally distinct muscle gene programs. Analysis of constitutive and inducible skeletal muscle-specific c-Maf mutants revealed that c-MAF loss caused region-specific MYH4+ fiber atrophy, MYH1/MYH2 fiber type shifts resembling ALS G93A mouse phenotypes, and progressive neuromuscular junction fragmentation with increased motoneuron terminal sprouting and ectopic reinnervation. These findings establish c-MAF as a critical mediator linking motoneuron activity to muscle gene regulation, fiber integrity, and neuromuscular junction maintenance in fast glycolytic fibers.