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Ruth I. Wood, Douglas L. Foster, Prenatal Androgens and the Timing of Seasonal Reproductive Transitions in Sheep, Biology of Reproduction, Volume 47, Issue 3, 1 September 1992, Pages 389–396, https://doi.org/10.1095/biolreprod47.3.389
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Abstract
Both the onset of puberty in the lamb and the annual resumption of reproductive activity in adult male and female sheep are characterized by increased secretion of LH due to reduced responsiveness to steroid inhibition. However, the timing of puberty is sexually differentiated, for males undergo a reduction in sensitivity to steroid feedback at 10 wk of age, whereas females remain highly responsive to steroid inhibition until 30 wk. This sex difference is determined by androgens in utero. The present study was conducted to determine whether a sex difference exists in the timing of seasonal transitions in adult males and females. We compared serum LH in gonadectomized, estradiol-treated males (n = 7), females (n = 6), and androgenized females (n = 5) from blood samples collected twice weekly for one year. As determined by changes in the pattern of LH secretion, the onset and termination of the autumn breeding season were not different between males, females, and androgenized females (termination: 1 February ± 4 days, mean ± SE all groups; onset: males, 22 August ± 4 days; females, 5 September ± 18 days; androgenized females, 16 September ± 10.5 days). However, there was a transient increase in LH (20 May to 23 June) in males, but not in females or androgenized females. Although no effects of prenatal testosterone were evident in the control of LH secretion in adult androgenized females, LH secretion in androgenized males was elevated throughout the nonbreeding season in 3 of 5 animals, indicating that exogenous testosterone may reduce seasonal increases in responsiveness to steroid inhibition. These data suggest that sex differences in reproductive neuroendocrine function may contribute to sex differences in sexual activity in gonad-intact male and female sheep. However, such differences do not appear to be determined by androgens in utero.
