Neuromuscular structure of the larva to early ancestrula stages of the cyclostome bryozoan Crisia eburnea

For the first time, the development of a cyclostome bryozoan has been studied with immunochemistry and confocal laser scanning microscopy, with emphasis on nerves and muscles. The larva is covered by multiciliated cells, which are latitudinally strongly elongated and show phalloidin-stained cell junctions. We hypothesize that these cells contract at metamorphosis and squeeze the apical invagination and the adhesive sac out. Ectodermal, longitudinal muscle cells extend from the cells of the inner, conical cuticularized part of the apical invagination to the lower part of the corona, around the adhesive sac pore. These muscles are retained in the ancestrula. Scattered monociliated nerve cells are interspersed between the coronal ciliary cells. An equatorial nerve in the larva disappears at metamorphosis. The central, conical part of the cuticle becomes the terminal membrane of the ancestrula, and the underlying ectodermal and mesodermal cell layers differentiate into the polypide bud, forming a deep narrow invagination, differentiating into vestibule–atrium, mouth ring and pharynx–stomach–rectum. Tentacles develop from the ring of cells around the mouth, and a small ganglion with four nerves innervating each of the tentacles develops at the anal side of the mouth. These new findings yield further support for previous homology statements of bryozoan larvae and development.