Communications Biology (May 2024)

Fast myosin binding protein C knockout in skeletal muscle alters length-dependent activation and myofilament structure

  • Anthony L. Hessel,
  • Michel N. Kuehn,
  • Seong-Won Han,
  • Weikang Ma,
  • Thomas C. Irving,
  • Brent A. Momb,
  • Taejeong Song,
  • Sakthivel Sadayappan,
  • Wolfgang A. Linke,
  • Bradley M. Palmer

DOI
https://doi.org/10.1038/s42003-024-06265-8
Journal volume & issue
Vol. 7, no. 1
pp. 1 – 9

Abstract

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Abstract In striated muscle, the sarcomeric protein myosin-binding protein-C (MyBP-C) is bound to the myosin thick filament and is predicted to stabilize myosin heads in a docked position against the thick filament, which limits crossbridge formation. Here, we use the homozygous Mybpc2 knockout (C2-/-) mouse line to remove the fast-isoform MyBP-C from fast skeletal muscle and then conduct mechanical functional studies in parallel with small-angle X-ray diffraction to evaluate the myofilament structure. We report that C2−/− fibers present deficits in force production and calcium sensitivity. Structurally, passive C2-/- fibers present altered sarcomere length-independent and -dependent regulation of myosin head conformations, with a shift of myosin heads towards actin. At shorter sarcomere lengths, the thin filament is axially extended in C2-/-, which we hypothesize is due to increased numbers of low-level crossbridges. These findings provide testable mechanisms to explain the etiology of debilitating diseases associated with MyBP-C.