The ultrastructure of the spermatheca in the red spotted newt.

Abstract

AbstractSperm from the male spermatophore in the red spotted newt are held indefinitely in convoluted, tubular outpocketings of the female cloaca called, collectively, a spermatheca. Each outpocketing, or tubule, when studied in thin section with the electron microscope showed a wall consisting of two components, a continuous inner or lining layer of epithelial cells and an outer covering layer of myoepithelial cells.The myoepithelial layer is penetrated by occasional openings or intercellular spaces through which the epithelial cells make contact with a basal lamina that bounds the tubule. The myoepithelial cells resemble smooth muscle cells displaying filaments (mean diameter = 75 Å ± 1 S.E.) that are probably constituted of actin, dense bodies and prominent caveolae. They are sparsely supplied with mitochondria, ribosomes, Golgi complexes and, sometimes, particles of glycogen. Typically the epithelial cells contain secretion granules, numerous mitochondria and ribosomes. They contain some fibers similar to those of the myoepithelial cells but with mean diameters that are significantly larger (90 Å ± 2 S.E.). Occasional profiles of Golgi complexes are evident and glycogen particles are abundant throughout the cytosomes of spermathecal tubules from adult animals bearing sperm. Secretory granules and glycogen are extremely rare or lacking in the spermathecae of efts that have not attained sexual maturity and in animals with ablated or involuted ovaries. In such animals large electron‐lucid vesicles appear at or near luminal borders. Glycogen is absent and secretory granules show signs of dissolution in the spermathecal cells of gravid females induced to ovulate by the injection of chorionic gonadotropin. It is indicated that the epithelial cells provide nourishment for the sperm while they are retained within the spermathecal tubules, that the discharge of sperm from the spermatheca is facilitated by the contraction of the myoepithelial cells and that gonadal hormones act in the regulation of spermathecal function.