Some biological actions of dihydrotestosterone (DHT)

Androgen receptors in the perinatal rat brain

Androgen receptors were identified and characterized in the cytosol and nuclear fractions of the perinatal female rat brain. Cytosol receptors have sedimentation coefficients in the range of 8 to 10S and bind to DNA cellulose columns. These receptors are detected in low concentrations in hypothalamus-preoptic area-amygdala-septum (HPAS) during the last few days of fetal life, less than 1/10th of levels found in adult HPAS. They undergo the most dramatic increase in concentration between postnatal days 7 and 15. Their appearance thus coincides temporally with the appearance of estrogen and progestin receptors, but the time course of their development is delayed, by comparison. Cell nuclear androgen receptors were also identified by gel exclusion chromatography and protamine sulfate precipitation after salt extraction of neonatal brain cell nuclei following in vivo labeling with both a synthetic and a natural androgen. Two well-known anti-androgens, cyproterone acetate and flutamide, are shown to inhibit the in vivo androgen binding to these cell nuclear receptors. The results are discussed in relation to androgen action in the perinatal rat brain, and the information currently available suggests that androgens influence both gonadotropin secretion and aspects of brain sexual differentiaton.

Specificity of neonatal, androgen-induced imprinting of hepatic steroid metabolism in rats

The specificity of the neonatal, andreogen-induced, irreversible programming of hepatic steroid metabolism in the rat was investigated. 5-alpha-Dihydrotestosterone propionate and estradiol benzoate were as efficient as testosterone propionate in inducing a male type of liver metabolism in the adult animal, whereas epitestosterone propionate, etiocholanolone propionate, and o,p'-DDT were practically inactive in this respect. These findings indicate that different mechanisms are involved in neonatal imprinting of hepatic steroid metabolism and in the well-known neonatal androgenic and estrogenic induction of persistent estrus and acyclic gonadotropin secreqion.