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  • Title: Sex differences in androgen responsiveness in the rat brain: regional differences in the induction of aromatase activity.
    Author: Roselli CE, Klosterman SA, Fasasi TA.
    Journal: Neuroendocrinology; 1996 Aug; 64(2):139-45. PubMed ID: 8857608.
    Abstract:
    The transformation of testosterone (T) to estrogens in brain tissue by cytochrome P-450 aromatase is required for the expression of sexual behaviors in adult male rats. Androgens regulate aromatase activity in the medial preoptic nucleus (MPN), as well as in a reciprocally connected group of forebrain nuclei involved in the regulation of male sexual behaviors. The levels of aromatase in these nuclei are generally greater in males than in females due to sex differences in circulating androgen levels. However, the mechanism of enzyme induction also appears to be sexually dimorphic. The current experiments were undertaken: (1) to characterize and compare the kinetic properties of aromatase in male and female rats and (2) to study sex differences in the dose-response relationship between the administered doses of T and the induction of aromatase in microdissected brain regions. Saturation analysis of aromatase activity in the MPN, bed nucleus of the stria terminalis (BNST), periventricular preoptic area (PVPOA), anterior hypothalamus (AH), and ventromedial hypothalamic nucleus (VMN) indicates that the greater aromatase activity observed in intact males reflects a sex difference in the maximal enzyme velocity, and not a sex difference in the apparent affinity of enzyme for substrate (Michaelis constant). The dose-response study of aromatase induction in the BNST, PVPOA, and VMN indicated a sex difference in aromatase activity over a range of circulating T levels varying from 0.3 to 35 ng/ml. No sex difference in inducible aromatase activity in AH was observed at any dose of T. The results of this study clearly demonstrate a sexually dimorphic effect of androgen action in the rat brain. Since T both regulates and is the substrate for aromatase in the brain, this sexual dimorphism is potentially an important limitation to the action of T in females and may relate to the enhanced expression of T-stimulated copulatory behavior in males compared to females.
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