Ultrastructure of coelomic epithelium and coelomocytes of the starfish Asterias rubens L. in norm and after wounding

Abstract

Samples of coelomic epithelium (CE) and coelomocyte suspension of intact and wounded starfish Asterias rubens L. were studied by electron microscopy. The CE was shown to be composed of three types of cells: flagellar (approximately 60%), secretory (approximately 3%), and myoepithelial (approximately 37%); flagellar and secretory cells form the CE apical surface. Secretory cells are represented by two subtypes, i.e., granular and mucous secretory cells. Myoepithelial cells are located in the basal zone of the epithelium. In 4–5% of cases, adjacent flagellar cells are separated by various sizes of intercellular gaps. These gaps seem to be lacunae left by the flagellar cells after their release into the coelomic cavity. The morphological pattern of the conversion of CE flagellar cells into coelomocytes was characterized. After a moderate wounding used in the present study, no significant structural alterations in the CE organization were revealed. In coelomocyte suspension, small rounded young coelomocytes (approximately 3%) and the larger mature coelomocytes (approximately 97%) were found. On the surface of one of the young coelomocytes, a flagellum was revealed. Surface of the mature coelomocytes forms processes of various size and structure; their cytoplasm contains lysosomes and phagocytic vacuoles of different size. After wounding, a coelomocyte activation was found that consisted of a sharp rise in the number and length of filopodia on their surface, as well as the formation of multicellular aggregates. The complex of ultrastructural data allows it to be suggested that the histogenesis of coelomocytes from CE flagellar cells is a process of cell transdifferentiation.