Myosin binding protein h dominates the "c-zone" in ultrafast swimming muscles of developing zebrafish.

Abstract

The ‘C-zone’ of mature vertebrate skeletal muscle sarcomeres is characterized by the presence of Myosin-Binding Protein C (MyBP-C), which ‘tunes’ contractility via its N-terminal domain interactions with the myosin head region and/or the thin filament. The ultrafast swimming muscles of zebrafish larvae are a perfect model system to define MyBP-C isoform function, due to tractable genetics and easily characterized muscle mechanics. However, liquid chromatography mass spectrometry shows 5-day-old larval muscle expresses MyBP-C at only ∼5% of the ∼1:10 molar ratio with myosin heavy chain (MYH) typically associated with full C-zone occupancy, while a little-studied MyBP-C paralog, Myosin-Binding Protein H (MyBP-H) comprises the remaining ∼95%. MyBP-H is homologous to MyBP-C's C terminus, which binds to the myosin thick filament backbone, but it lacks analagous N-terminal regulatory domains, which are critical to MyBP-C's slowing of muscle shortening. Therefore, the presence of MyBP-H may underlie the extreme contractile speed of larval muscle (>30 lengths/s), and/or indicate its involvement in muscle development. To define MyBP-H's potential roles, we first imaged its sarcomeric localization in larvae expressing transgenic, FLAG-tagged MyBP-H. Immunofluorescence revealed characteristic fluorescence doublets at the sarcomere center, indicating MyBP-H binds throughout the C-zone. Interestingly, MyBP-H-null mutants engineered using CRISPR/Cas9 appear to develop normally, suggesting the developmental impact of MyBP-H may be subtle. Preliminary mechanical studies of MyBP-H-null larval muscles showed no change in twitch kinetics, tetanic force, or the Force:Velocity relationship, which might be expected, given MyBP-C content increases only minimally (From ∼5% to ∼10% of full C-zone occupancy). Although the role of MyBP-H in development remains an enigma, physiologically stressing the larvae may reveal MyBP-H's function. At a minimum, the MyBP-H null larvae provide a clean slate to repopulate the C-zone using transgenically expressed human or disease-causing MyBP-C isoforms.