CELLULAR DIFFERENTIATION IN THE URINARY BLADDER OF A EURYHALINE MARINE FISH, GILLICHTHYS MIRABILIS, IN RESPONSE TO ENVIRONMENTAL SALINITY CHANGE.

Abstract

The urinary bladder of a euryhaline marine teleost, Gillichthys mirabilis, was studied by light and electron microscopy. An enlargement of the mesonephric ducts forms a sac-like structure lined by an epithelium composed of two major cell types. Tall columnar cells continuous with the duct epithelium are characterized by a large number of mitochondria and well-developed rough and smooth endoplasmic reticulum. Tubular smooth endoplasmic reticulum is more developed in the basal cytoplasm and often opens into the extracellular space. A second cell type, the low cuboidal cells, forming most of the bladder epithelium, has fewer mitochondria. Basal cells are rarely observed and mucous cells are absent. In seawater Gillichthys, cells of both types are separated by narrow intercellular spaces. In 5% seawater fish, the columnar cells show functional activation, as evidenced by an increased number of mitochondria and more extensive tubular smooth endoplasmic reticulum. No such changes were noted in the cuboidal cells; however, the lateral intercellular spaces are dilated probably owing to hypotonicity of the urine in the hypotonic environment. A functional difference between the two cell types is strongly suggested. The columnar cells may be responsible for active sodium uptake in hypotonic seawater environments.