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Cryo-electron tomography of intact cardiac muscle reveals myosin binding protein-C linking myosin and actin filaments

Xinrui Huang, Iratxe Torre, Michele Chiappi, Zhan Yin, Anupama Vydyanath, Shuangyi Cao, Oliver Raschdorf, Morgan Beeby, Bonnie L. Quigley, Pieter P. de Tombe, Jun Liu, Edward P. Morris, Pradeep K. Luther

2023Journal of Muscle Research and Cell Motility21 citationsDOIOpen Access PDF

Abstract

Myosin binding protein C (MyBP-C) is an accessory protein of the thick filament in vertebrate cardiac muscle arranged over 9 stripes of intervals of 430 Å in each half of the A-band in the region called the C-zone. Mutations in cardiac MyBP-C are a leading cause of hypertrophic cardiomyopathy the mechanism of which is unknown. It is a rod-shaped protein composed of 10 or 11 immunoglobulin- or fibronectin-like domains labelled C0 to C10 which binds to the thick filament via its C-terminal region. MyBP-C regulates contraction in a phosphorylation dependent fashion that may be through binding of its N-terminal domains with myosin or actin. Understanding the 3D organisation of MyBP-C in the sarcomere environment may provide new light on its function. We report here the fine structure of MyBP-C in relaxed rat cardiac muscle by cryo-electron tomography and subtomogram averaging of refrozen Tokuyasu cryosections. We find that on average MyBP-C connects via its distal end to actin across a disc perpendicular to the thick filament. The path of MyBP-C suggests that the central domains may interact with myosin heads. Surprisingly MyBP-C at Stripe 4 is different; it has weaker density than the other stripes which could result from a mainly axial or wavy path. Given that the same feature at Stripe 4 can also be found in several mammalian cardiac muscles and in some skeletal muscles, our finding may have broader implication and significance. In the D-zone, we show the first demonstration of myosin crowns arranged on a uniform 143 Å repeat.

Topics & Concepts

SarcomereActinMyosinMyosin headMyofilamentBiophysicsBiologyAnatomyCell biologyMyosin light-chain kinaseChemistryMyocyteCrystallographyCardiomyopathy and Myosin StudiesAdvanced Electron Microscopy Techniques and ApplicationsCardiovascular Effects of Exercise
Cryo-electron tomography of intact cardiac muscle reveals myosin binding protein-C linking myosin and actin filaments | Litcius