Prenatal Stress Feminizes and Demasculinizes the Behavior of Males
- 7 January 1972
- journal article
- other
- Published by American Association for the Advancement of Science (AAAS) in Science
- Vol. 175 (4017) , 82-84
- https://doi.org/10.1126/science.175.4017.82
Abstract
Male rats were exposed to prenatal or postnatal stress, or both. The prenatally stressed males showed low levels of male copulatory behavior and high rates of female lordotic responding. Postnatal stress had no effect. The modifications are attributed to stress-mediated alterations in the ratio of adrenal to gonadal androgens during critical stages of sexual differentiation. Specifically, it appears that stress causes an increase in the weak adrenal androgen, androstenedione, from the maternal or fetal adrenal cortices, or from both, and a concurrent decrease in the potent gonadal androgen, testosterone.Keywords
This publication has 22 references indexed in Scilit:
- Female sexual behavior in male rats treated prenatally with an anti-androgenPhysiology & Behavior, 1972
- Sexual dimorphism and homosexual gender identity.Psychological Bulletin, 1970
- Differential effect of pre- and postnatal androgen on the sexual behavior of intact and spayed female ratsHormones and Behavior, 1969
- Differentiation of the capacity for male sexual behavior in the rat*1Hormones and Behavior, 1969
- Development of bisexuality in the male rat treated neonatally with androstenedione.Journal of Comparative and Physiological Psychology, 1969
- Hormonal determinants of the development of masculine and feminine behavior in male and female ratsThe Anatomical Record, 1967
- Effects of early postnatal androgen and estrogen injections on the estrous activity cycles and mating behavior of ratsThe Anatomical Record, 1967
- Role of the developing rat testis in differentiation of the neural tissues mediating mating behavior.Journal of Comparative and Physiological Psychology, 1965
- ANDROGENSObstetrical & Gynecological Survey, 1956
- Adrenal and Reproductive Responses to Population Size in Mice from Freely Growing PopulationsEcology, 1956