Ultrastructure and embryonic development of a syconoid calcareous sponge

• Published in: Invertebrate biology Vol. 125; no. 3; pp. 177 - 194
• Main Authors: Eerkes-Medrano, Dafne I., Leys, Sally P.
• Format: Journal Article
• Language: English
• Published: Malden, USA Blackwell Publishing Inc 01.08.2006; American Microscopical Society, Inc
• Subjects: Animals; Calcarea; Cell membranes; development; embryo; Embryos; Epithelial cells; Epithelium; evolution; Intercellular junctions; Invertebrates; Larvae; Marine; Metazoa; Microvilli; Porifera; Sponges
• ISSN: 1077-8306; 1744-7410
• DOI: 10.1111/j.1744-7410.2006.00051.x

Recent molecular data suggest that the Porifera is paraphyletic (Calcarea+ Silicea) and that the Calcarea is more closely related to the Metazoa than to other sponge groups, thereby implying that a sponge-like animal gave rise to other metazoans. One ramification of these data is that calcareous sponges could provide clues as to what features are shared among this ancestral metazoan and higher animals. Recent studies describing detailed morphology in the Calcarea are lacking. We have used a combination of microscopy techniques to study the fine structure of Sycon coactum Urban 1905, a cosmopolitan calcareous sponge. The sponge has a distinct polarity, consisting of a single tube with an apically opening osculum. Finger-like chambers, several hundred micrometers in length, form the sides of the tube. The inner and outer layers of the chamber wall are formed by epithelia characterized by apical-basal polarity and occluding junctions between cells. The outer layer-the pinacoderm-and atrial cavity are lined by plate-like cells (pinacocytes), and the inner choanoderm is lined by a continuous sheet of choanocytes. Incurrent openings of the sponge are formed by porocytes, tubular cells that join the pinacoderm to the choanoderm. Between these two layers lies a collagenous mesohyl that houses sclerocytes, spicules, amoeboid cells, and a progression of embryonic stages. The morphology of choanocytes and porocytes is plastic. Ostia were closed in sponges that were vigorously shaken and in sponges left in still water for over 30 min. Choanocytes, and in particular collar microvilli, varied in size and shape, depending on their location in the choanocytc chamber. Although some of the odd shapes of choanocytes and their collars can be explained by the development of large embryos first beneath and later on top of the choanocytes, the presence of many fused collar microvilli on choanocytes may reflect peculiarities of the hydrodynamics in large syconoid choanocytc chambers. The unusual formation of a hollow blastula larva and its inversion through the choanocyte epithelium are suggestive of epithelial rather than mesenchymal cell movements. These details illustrate that calcareous sponges have characteristics that allow comparison with other metazoans-one of the reasons they have long been the focus of studies of evolution and development.