Hormonally induced changes in apocrine secretion of transglutaminase in the rat dorsal prostate and coagulating gland.

Coagulating gland and dorsal prostate of the rat are peculiar in secreting transglutaminase, a protein-cross linking enzyme that is released in an apocrine fashion. To elucidate whether or not the intracellular pathway and the unusual extrusion mechanism proceed constitutively or were differentially regulated, transglutaminase immunoreactivity was studied both at the light and electron microscopic levels. In addition, ultrastructural morphometry and scanning densitometry were applied to quantitate hormone-dependent distribution of transglutaminase. Coagulating glands and dorsal prostate, respectively, from sexually active rats were compared to those from sexually inactive, castrated, estradiol-treated or testosterone-substituted castrated animals. In intact, sexually active animals, no labeling of the cisternae of rough endoplasmic reticulum was seen, but instead the hyaloplasm was labeled. In the supranuclear portions of the cells an increase in labeling density of the hyaloplasm subjacent to the plasma membrane was found, whereas no labeling of either Golgi stacks or vesicles was observed. Apical blebs projecting into the acinar lumen were densely labeled. In castrated animals, epithelium showed a reduction of rough endoplasmic reticulum, loss of secretory blebs, and a decrease in cell size. Morphometric analysis of immunolabeling of coagulating gland epithelium from experimental animals resulted in a highly significant reduction of labeling of the hyaloplasm and apical blebs which was reversed by testosterone supplementation of castrated animals. After estrogen treatment, the reduction in immunolabeling was less pronounced, but morphology of apical blebs was obviously changed. Results from scanning densitometry of Western blots correlated with quantitative immunoelectron microscopical findings. Northern blot analysis using a secretory transglutaminase cDNA probe showed characteristic changes at the RNA levels. Our results indicate that apocrine secretion of transglutaminase in rat coagulating gland and dorsal prostate is a hormonally controlled process, where androgen deprivation results in impaired biosynthesis and release of transglutaminase, whereas estradiol treatment only partially inhibits secretion, but changes morphological features of the glandular epithelium, especially apocrine bleb formation.