Muscle remodeling in adult snapping shrimps via fast-fiber degeneration and slow-fiber genesis and transformation

Abstract

Bilateral asymmetry of the paired snapper/pincer claws may be reversed in adult snapping shrimps (Alpheus heterochelis). Removal of the snapper claw triggers transformation of the contralateral pincer claw into a snapper and the regeneration of a new pincer claw at the old snapper site. During this process the pincer closer muscle is remodeled to a snapper-type, and these alterations have been examined with the electron microscope. There is selective death of the central band of fast fibers, accompanied by an accumulation of electron-dense crysttaline bodies in the degenerating fibers. Two principal types of hemocytes (amebocytes and coagulocytes) invade the area and the degenerating muscle fibers. New myotubes also appear in this central site. The myotubes are characterized by a prolific network of presumptive sarcoplasmic reticulum and transverse tubules, nascent myofibrils, and crystalline bodies. The myotubes are innervated by many motor nerve terminals, and they subsequently differentiate into long-sarcomere (8–12 μm), slow muscle fibers. Remodeling of the central band, therefore, occurs by degeneration of the fast fibers and their replacement by new slow fibers. Remnants of the degenerating fast fibers act as scaffolding for the myotubes which originate from adjacent satellite cells. The crystalline bodies may represent protein stores from the degeneration of the fast fibers, recycled for use in the genesis of new fibers. The invading hemocytes appear to play several roles, initially phagocytosing the fast muscle fibers, transporting the crystalline bodies into the new myotubes, and acting as stem cells for the new muscle fibers. Apart from the central band of fibers, the remaining pincer-type slow fibers with sarcomere lengths of 5–7 μm are transformed via sarcomere lengthening into snapper-type slow fibers with sarcomere lengths of 7–12 μm. Thus, during claw transformation in adult snapping shrimps, the pincer closer muscle is remodeled into a snapper closer muscle by selective death of the fast-fiber band, replacement of the fast-fiber band by new slow fibers, and transformation of the existing slow fibers to an even-slower variety.