The Nuclear Accumulation of [3H]Testosterone and [3H] Estradiol in the Brain of the Female Primate: Evidence for the Aromatization Hypothesis*

Abstract

To identify the metabolites of estradiol (E2) and testosterone (T) in nuclei obtained from the female primate brain and, hence, to investigate the mechanism of their actions on behavior, 9 ovariectomized adult rhesus monkeys were studied. Two of these females were injected with 5.5 mCi [3H]T, and 30 min later, samples of 14 brain areas, pituitary gland, and peripheral tissues were removed and homogenized. Purified cell nuclei and a crude cytosol fraction were prepared, extracted with ether, and fractionated by HPLC to identify steroid metabolites. In nuclei from the hypothalamus, preoptic area, and amygdala, [3H]E2 formed locally was the major form of radioactivity. In nuclei from the clitoris, [3H]dihydrotestosterone was the major form of radioactivity, and in nuclei in all other brain samples and in the pituitary gland and uterus, [3H]T predominated. Two females (controls) were pretreated for 5 days with oil sc, injected with 1 mCi [3H]E2, and killed 60 min later. In these females, elevated nuclear concentrations of [3H]E2 were found in the hypothalamus, preoptic area, amygdala, pituitary gland, and uterus. Similar results were obtained in 2 females that were pretreated for 5 days with 2 mg/day dihydrotestosterone propionate, sc, and then injected with 1 mCi [3H]E2. In 3 females that were pretreated for 5 days with 2 mg/day T propionate, sc, and then injected with 1 mCi [3H]E2, levels of [3H]E2 were reduced by 100% (P < 0.01) in nuclei from preoptic area and amygdala compared with control values and by 78% (P < 0.05) in nuclei from the hypothalamus. There were no comparable reductions in steroid levels in cerebral cortex, pituitary gland, or uterus. This is the first direct evidence in the brain of a female primate that the actions of T and E2 involve the same receptor systems.