Abstract
Previously we reported the effects of postnatal castration on the postorganizational development of the sympathetic hypogastric ganglion (Hamill and Guernsey, 1983; Melvin and Hamill, 1986). “Postorganization” implies an activational role for gonadal hormones, in contrast to the permanent organizing effects that occur perinatally. We now report results that suggest that the major pelvic ganglion (PG), a mixed parasympathetic and sympathetic ganglion, is similarly regulated by testosterone during development. Choline acetyltransferase (CAT) and tyrosine hydroxylase (T-OH) activities were used to examine normal PG ontogeny. The normal development of these biochemical indices occurs primarily after day 10. Postnatal castration at 10–11 d of age completely prevented the postorganizational developmental increase of T- OH activity. At 12 postoperative weeks T-OH activity in castrates was approximately 6% that of the control animals (control, 2880 +/- 127 pmol/ganglion X hr; castrated, 161 +/- 16 pmol/ganglion X hr; p less than 0.001). In fact, by only 1 postoperative week, T-OH activity was already significantly reduced in castrated animals (control, 480 +/- 69 pmol/ganglion X hr; castrated, 179 +/- 6 pmol/ganglion X hr; p less than 0.001). CAT activity and total ganglion protein were also significantly reduced by 1 postoperative week. In contrast to T-OH activity, however, these indices continued to develop at diminished rates. By 12 postoperative weeks CAT activity and total ganglion protein in castrates were 30 and 50% of control values, respectively, resulting in a significant developmental abnormality in CAT-specific activity. Testosterone replacement reversed the castration-induced developmental deficits of T-OH and CAT activities.(ABSTRACT TRUNCATED AT 250 WORDS)