Ganglion ultrastructure in phylactolaemate Bryozoa: Evidence for a neuroepithelium

Abstract In contrast to other Bryozoa, members of the subtaxon Phylactolaemata bear a subepithelial cerebral ganglion that resembles a hollow vesicle rather than being compact. In older studies this ganglion was said to originate by an invagination of the pharyngeal epithelium. Unfortunately, documentation for this is fragmentary. In chordates the central nervous system also arises by an invagination‐like process, but this mode is uncommon among invertebrate phyla. As a first attempt to gather more data about this phenomenon, cerebral ganglia in two phylactolaemate species, Fredericella sultana and Plumatella emarginata, were examined at the ultrastructural level. In both species the ganglion bears a small central lumen. The ganglionic cells are organized in the form of a neuroepithelium. They are polarized and interconnected by adherens junctions on their apical sides and reside on a basal lamina. The nerve cell somata are directed towards the central lumen, whereas the majority of nervous processes are distributed basally. Orientation of the neuroepithelial cells can be best explained by the possibility that they develop by invagination. A comparison with potential outgroups reveals that a neuroepithelial ganglion is at least derived. Since, however, a reliable phylogenetic system of the Bryozoa is missing, a decision on whether such a ganglion is apomorphic for Bryozoa or evolved within this taxon can hardly be made. J. Morphol., 2008. © 2007 Wiley‐Liss, Inc.