The carboxyl-terminal ahnak domain induces actin bundling and stabilizes muscle contraction.

Abstract

Ahnak, a 700 kDa protein, is expressed in a variety of cells and has been implicated in different cell-type-specific functions. In the human heart, we observed an endogenous carboxyl-terminal 72 kDa ahnak fragment that copurified with myofibrillar proteins. Immunocytochemistry combined with confocal microscopy localized this fragment to the intercalated discs and close to the Z-line of cardiomyocytes. No endogenous myofibrillar ahnak fragment was observed in the skeletal muscle. We elucidated the role of the recombinant carboxyl-terminal ahnak fragment (ahnak-C2) in actin filament organization and in the function of muscle fibers. Addition of ahnak-C2 to actin filaments induced filament bundling into paracrystalline-like structures as revealed by electron microscopy. Incubation of demembranated skeletal muscle fibers with ahnak-C2 attenuated the decline in isometric force development upon repeated contraction-relaxation cycles. Our results suggest that the carboxyl-terminal ahnak domain exerts a stabilizing effect on muscle contractility via its interaction with actin of thin filaments.