Fine structure of the kidney and characterization of secretory products inDentalium rectius (Mollusca, Scaphopoda)

Abstract

The ultrastructure of the scaphopod kidney and secretory product composition is described, for the first time, inDentalium rectius. The kidney epithelium consists of two primarily secretory cell types. The first exhibits extensive vacuolation, and scattered granules are formed within the vacuolar space by a process of surface accretion; the incorporation of glycogen particles in this process is associated with very fine, electronopaque threads which radiate from the granule. The second cell type possesses granules enclosed individually within secretory vesicles, and intermediate stages in their growth are characterized by needle-like crystals on the granule surface. The secretory vesicles in some cases coalesce to form a large central vacuole filled with granules. This cell type possesses an apical membrane with sparse microvilli, which may indicate a secondary reabsorptive capacity. Granules in both cell types show a concentric ring ultrastructure, and are composed primarily of calcium phosphate with a small amount of zinc; there is also an organic component of protein, mucopolysaccharide and a large amount of glycogen. Ultrastructural and histochemical observations indicate a lysosomal origin for the granules, although granules of the second cell type develop intracellularly to a greater extent than those of the first. All granules are extruded into the kidney lumen by a process of merocrine secretion prior to release into the mantle cavity via an externally ciliated, muscular excretory pore.