High-affinity sites for beta-D-galactosidase on membrane-bound vesicles isolated from rat epididymal fluid.

Glycosidases in rat epididymal fluid are secreted under androgen stimulation and possess receptors on the sperm surface. One of these enzymes, beta-D-galactosidase (gal), was found in the epididymal fluid as a soluble enzyme and also in a heterogeneous population of membrane bound vesicles (mbv). beta-D-Galactosidase was specifically localized to a subpopulation of larger, electron-dense mbv. The aim of this study was to analyze the high-affinity sites for gal on the membrane of mbv using two different methods: classical fluorometric assay (used in previous papers) and colloidal gold (20 nm) conjugated to gal as a marker in ultrastructural studies. beta-D-Galactosidase bound to mbv with high-affinity (Kd in a nanomolar range) are in a saturable form. Furthermore, 25 mM fructose-1,6-diphosphate (f-1,6-dip), a sugar that competes for the binding site, showed 50% inhibition of the binding. The gold conjugates were mostly observed on the surface of the large, electron-dense mbv but not on the small, electron-lucent mbv. Gold particles were also observed on the larger vesicles, but less frequently in the presence of f-1.6-dip. Larger mbv possesses high-affinity sites for gal on their membrane.

Organ-specific binding system for beta-galactosidase in the male reproductive tract.

This study reports on the binding of beta-galactosidase obtained from different organs of the rat urogenital tract to membranes of these organs. Homologous and cross binding saturation assays indicated that: (1) high-affinity sites that recognize fructose-6-phosphate derivates (FPR) are present in spermatozoa from the rete testis, epididymal membranes and testes, although the latter may reflect binding to testicular spermatozoa; (2) the membranes of the other organs studied do not have FPR; (3) the FPR of the epididymis does not recognize enzymes purified from other organs of the reproductive tract. These results suggest that the FPR-binding system belongs to a peculiar transport route that permits maturing spermatozoa to acquire hydrolytic enzymes secreted by the epididymal epithelium. In the epididymis and seminal vesicles more than 50% of the enzymatic activity of beta-galactosidase was recovered in cytosol, suggesting that the enzyme is located mainly in the secretory fluid of these organs.

Phosphomannosyl receptors on the surface of spermatozoa from the cauda epididymis of the rat.

This study demonstrates that beta-glucuronidase from rat preputial glands binds with high affinity to spermatozoa from the cauda epididymis. The binding was calcium-independent and was inhibited by mannose-6-phosphate, but not by other phosphorylated or non-phosphorylated sugars. Binding was also inhibited by alpha-mannosidase from Dictyostelium discoideum, an enzyme known to have mannose-6-phosphate as the ligand. From solubilized sperm membranes, a protein of > 200 kDa and one of 45 kDa, were absorbed to a column of D. discoideum enzyme and to a phosphomannan column respectively, and eluted with mannose-6-phosphate. According to histochemical observations at the light and the electron microscopic level, gold particles coated with the enzyme became bound to the external surface of the plasmalemma in the acrosomal region of caudal spermatozoa. Similar labelling was observed using gold particles coated with antibodies against the rat 300 kDa phosphomannosyl receptor. The existence of phosphomannosyl receptors on the sperm plasma membrane, and our previous demonstration of the presence of affinity sites for epididymal beta-galactosidase on these gametes which is inhibited by phosphofructosyl derivatives, suggest strongly that maturing spermatozoa could be a target for glycosidases secreted into the lumen of the cauda epididymis, which then become bound to these cells via different ligand-receptor systems.