The mild stress of chronic prenatal injections may have additive effects on drugs administered during pregnancy to alter brain sexual differentiation.

OBJECTIVE: In order to clarify the effect of the prenatal (PN) treatment of the drug 1,4,6-androstatriene-3,17-dione (ATD) which blocks the conversion of testosterone into estradiol on male sexual behavior of the rats offsprings, from the effect of the mild stress induced by the PN administration of the Propylene glycol (PG), the vehicle used to dissolve ATD. METHODS: Pregnant Wistar rats were divided into three groups. The CON group did not receive any kind of treatment. The other two groups (PG and ATD) were injected i.p. during gestation (days 11-22) with 0 and 5 mg of ATD, dissolved in 0.1 ml of PG, respectively, doses reported by other authors. Sexual performance of the male pups was analyzed three months later in four successive tests. RESULTS: In the first sexual test of these naive rats, the percentage of males mounting, intromitting, ejaculating and the ejaculation frequency of the ATD group decreased significantly in comparison with the CON group. Also in the first and 4th tests, mounting, intromission and ejaculation latencies, as in the post-ejaculatory refractory period, ATD group, was significantly longer in comparison with the CON group. PG males showed a male sexual behavior (MSB) similar to that observed in the ATD group, but the differences did not reach statistical significance when they were compared with the CON group. CONCLUSION: We considered that the PN stress induced by the daily administration of PG and ATD, results in a slower execution of the MSB in both groups and avoid distinguish the effect of the ATD. Then chronic PN injections, as a route of administration, could act as mild stressor and may have additive effects on drugs affecting brain sexual differentiation.

Simultaneous treatment with an aromatase inhibitor and an anti-androgen decreases the likelihood of dawn song in free-living male great tits, Parus major.

Gonadal steroids, most importantly testosterone (T), are considered to be a major factor in the expression of adult song behavior in temperate-zone songbirds. The action of T within specific brain regions involved in the regulation of song may occur either directly, or through its androgenic or estrogenic metabolites. In the present study, we tested steroid-dependence of great tit dawn song by blocking both known pathways of T action by simultaneous implantation of flutamide, an anti-androgen, and ATD, an aromatase inhibitor. By our knowledge, this is the first study investigating the effects of androgen inhibitors on dawn song in free-living birds. Male great tits were implanted during their mate's egg laying stage, being the time of maximal male song activity at dawn. Treatment with ATD and flutamide significantly increased plasma T levels, probably because feedback mechanisms on T secretion were inhibited. The treatment decreased the likelihood of showing dawn song, which is in line with the hypothesis that sex steroids are involved in the endocrine control of song behavior. In males that did show dawn song, we found no evidence for a treatment effect on song quality. Although the implants were present for the larger part of the breeding season, males were able to maintain control of a territory and mate and to complete their brood cycle as successful as control males.

Aromatase inhibitors regenerate the thymus in aging male rats.

The thymus can be regenerated in aging rats by surgical or chemical castration and regeneration is inhibited by testosterone, which may exert this effect, at least in part, through its conversion to estradiol. An attempt has been made to regenerate the thymus in intact aging rats using inhibitors of the aromatase system, in the hope that this maneuver could lead to the use of such chemical intervention in the treatment of immunodeficiency syndromes. Young adult and aging (18-month-old) male rats were orchidectomized under ether anesthesia and 7 days later given s.c. implants of testosterone in silicone elastomer (SILASTIC) tubing. Some rats received testosterone together with a five-fold excess of the aromatase inhibitor 1,4,6-androstatriene-3,17-dione (ATD). One group of young intact rats received implants containing 25 mg ATD and a group of 18-month-old intact rats received 125 mg ATD or 25 mg of another, more powerful aromatase inhibitor 4-hydroxyandrostenedione (4-OH). On the 28th day after implanting, rats were killed and the thymus, spleen, prostate gland and seminal vesicles removed for weighing and histology. In addition, estrogen receptors were measured in the thymus. The thymus was enlarged after orchidectomy and greatly restored in aging rats. In aging rats, both aromatase inhibitors restored the thymus, which appeared normal histologically. In addition, ATD enlarged the thymus in young intact animals. Doses of testosterone which restored the accessory sex organs to weights measured in intact rats prevented the effects of orchidectomy on the thymus, and in old rats the effects of testosterone were blocked by ATD in both thymus and spleen. Available cytosolic estrogen receptors were reduced in thymus of testosterone-treated orchidectomized rats, and this effect blocked by ATD, which itself was apparently able to induce estrogen receptors. Receptors could not be detected in thymus from aging rats, but were measureable in cytosols from thymus of orchidectomized or ATD-treated old rats. It is therefore possible to restore the thymus in intact aging rats without recourse to surgical or chemical castration, and such a maneuver may possibly be of use to enhance an immune system weakened by aging or disease.