Cell types, microsymbionts, and pyridoacridine distribution in the tunic of three color morphs of the genus Cystodytes (Ascidiacea, Polycitoridae)

. The tunic of colonial ascidians of the genus Cystodytes is a dynamic and complex system where a variety of cell types and microsymbionts are found. The tunic is also the site where pyridoacridine alkaloids involved in chemical defense are found. We wanted to explore the composition of symbionts and tunic cell types and their relationship with localization of alkaloids in three color morphs (usually attributed to the species Cystodytes dellechiajei ). Tunic morphology was studied by means of transmission electron microscopy, and energy‐dispersive X‐ray microanalysis was performed for indirect localization of the bioactive alkaloids produced by these morphotypes. The main cell types identified are bladder cells, pigment cells, amebocytes, phagocytes, and morula cells. Amebocytes include several subtypes that may correspond to a sequence of ontogenetic stages; these cells also seem to give rise to other cell types. In the three morphotypes, the morphology of the tunic and tunic cells is basically the same. The alkaloids are localized in the pigment cells. At least three types of bacteria are present in the tunic, but they are scarce and do not store the targeted bioactive alkaloids. Our results indicate that, although pyridoacridine alkaloids are present in these ascidians, as in a variety of animal phyla, their wide taxonomic range is not necessarily the result of production by common microsymbionts, but rather of the convergent evolution of a successful biosynthetic pathway.