BETA GLUCURONIDASE-RICH CYTOPLASMIC PARTICLES IN ANDROGEN-STIMULATED MOUSE KIDNEY : A Cytobiochemical Study

Androgens produced by stimulating mouse testis with gonadotropic hormones cause a rise in renal β-glucuronidase but not an increase in acid or alkaline phosphatase. All subcellular components increase in β-glucuronidase activity, with a relatively greater increment in particulate enzyme as compared with that free in the cytoplasm (non-sedimentable). A small percentage of recovered β-glucuronidase, acid phosphatase, and alkaline phosphatase is found in material which rises to the surface during centrifugation in sucrose media (fraction I). The specific activity of β-glucuronidase and acid phosphatase in this fraction is normally quite high with respect to the homogenate, while that of alkaline phosphatase is not. On the other hand, the fraction I material from androgen-stimulated mice exhibits a further increase in specific activity with respect to β-glucuronidase and not acid phosphatase. It thus appears that there is an independence in the behavior of individual enzymes in response to physiologic stimuli in spite of obvious morphologic proximity.