Control of Gonadotropin Secretion in the Ovine Fetus. IV. Male-Specific Entrainment of the Hypothalamic Control of Luteinizing Hormone Secretion by Testosterone in the Female Ovine Fetus*

Abstract

The role of testosterone (T) in the sex-specific entrainment of hypothalamic LH regulation was studied in five castrate and four sham-castrate chronically catheterized female fetuses androgenized by the prior administration of T cypionate (200 mg, im, every 2 weeks) to pregnant ewes from 30-86 days gestation (term = 147 days). Eight female and three male castrate fetuses served as controls. After a 2-week washout period all fetuses were operated upon in utero between 106-116 days and were studied longitudinally over a 2- to 35-day period. LH pulsatility was determined from blood samples obtained every 15 min over a standard 3-h observation period and assayed for LH by RIA (NIH LH-S16 standard). LH pulse frequency in the castrate androgenized females (41 pulses in 19 observation periods; 1 pulse/1.4 h) was significantly higher than that in non-androgenized female controls (18 pulses in 28 observation periods; 1 pulse/4.7 h observation), but was similar to that in castrate males (23 pulses in 28 observation periods; 1 pulse/1.3 h). Furthermore, LH pulse frequency in the sham castrate androgenized females (26 pulses in 13 observation periods; 1 pulse/1.5 h) was comparable to that in castrate androgenized females as well as that in castrate males. The enhanced LH pulsatility in androgenized female fetuses strongly suggests that T exposure between 30-86 days results in male-specific entrainment of hypothalamic LH regulation. Moreover, the comparable enhancement of LH pulse frequency in both sham castrate and castrate androgenized female groups suggests that in the T-exposed fetus T withdrawal alone is sufficient to result in enhanced LH pulsatility. These findings strongly suggest that T of fetal testicular origin results in male-specific entrainment of hypothalamic function and may be an important feature of male neural organization in this species.