Masculinization and defeminization induced in female hamsters by neonatal treatment with estradiol, RU-2858, and nafoxidine

Newborn female hamsters were treated with 0.1 or 1.0 ng of estradiol benzoate (EB), with 1.0 ng–2.0 μg of the synthetic estrogen RU-2858, or with 0.1 or 0.5 μg of the antiestrogen nafoxidine. When adult the animals were treated with EB and progesterone and tested for the display of lordosis and with testosterone propionate and tested for the display of mounting behavior. The EB doses used failed to alter sexual differentiation. RU-2858 masculinized and defeminized in a dose-dependent manner being most effective when given neonatally as two divided doses. Nafoxidine inhibited lordosis without enhancing mounting behavior. The findings support the hypothesis that estrogens may be involved in the normal sexual differentiation process.     

Aromatization and the induction of male sexual behavior in male, female, and androgenized female hamsters

Eight weeks after gonadectomy male, female, and androgenized [10 μg testosterone propionate (TP), 24 hr after birth] female hamsters were given daily treatment with: 150 μg dihydrotestosterone (DHT), 5 μg estradiol benzoate (EB), 150 μg DHT + 5 μg EB, 150 μg DHT + 1 μg EB, 30 μg DHT + 5 μg EB, 30 μg DHT + 1 μg EB, or the oil vehicle. Treatment of castrated male hamsters with 5 μg EB fully restored mounting but relatively few of these animals intromitted and none ejaculated. Treatment with 150 μg DHT restored all components of male sexual behavior but only in a small proportion of the males. Combined treatment with EB and DHT restored mounts, intromissions, and ejaculations in the majority of the males. Although as little as 30 μg DHT + 1 μg EB restored the full complement of male behavior, the males which received 150 μg DHT + 5 μg EB or 150 μg DHT + 1 μg EB required fewer intromissions to achieve ejaculation than the males which received 30 μg DHT + either dose of EB. The response of the androgenized females was similar to that of the males except that the androgenized females had lower intromission rates and none ejaculated. Relatively few of the nonandrogenized females responded to EB and DHT treatment and those that did mounted only a few times each test. These results demonstrate that both EB and DHT can stimulate male sexual behavior in the hamster and that the sensitivity to EB and DHT for copulatory behavior is determined by early postnatal androgen exposure.     

An alternate pathway for androgen regulation of brain function: Activation of estrogen receptor beta by the metabolite of dihydrotestosterone, 5α-androstane-3β,17β-diol

The complexity of gonadal steroid hormone actions is reflected in their broad and diverse effects on a host of integrated systems including reproductive physiology, sexual behavior, stress responses, immune function, cognition, and neural protection. Understanding the specific contributions of androgens and estrogens in neurons that mediate these important biological processes is central to the study of neuroendocrinology. Of particular interest in recent years has been the biological role of androgen metabolites. The goal of this review is to highlight recent data delineating the specific brain targets for the dihydrotestosterone metabolite, 5α-androstane, 3β,17β-diol (3β-Diol). Studies using both in vitro and in vivo approaches provide compelling evidence that 3β-Diol is an important modulator of the stress response mediated by the hypothalmo–pituitary–adrenal axis. Furthermore, the actions of 3β-Diol are mediated by estrogen receptors, and not androgen receptors, often through a canonical estrogen response element in the promoter of a given target gene. These novel findings compel us to re-evaluate the interpretation of past studies and the design of future experiments aimed at elucidating the specific effects of androgen receptor signaling pathways.     

Facilitatory and Inhibitory Effects of β-Endorphin on Lordosis in Female Rats: Relation to Time of Administration

The purpose of the present study was to investigate the effect of time of β-endorphin (β-EP) administration on lordosis in ovariectomized female rats injected subcutaneously (sc) with estradiol benzoate (EB) and progesterone (Prog). Intracerebroventricular (icv) injections of β-EP and naloxone (NLX), an opioid receptor antagonist, were administered at the various stages of sc steroid hormone priming. Facilitation of lordosis induced by 10 μg β-EP was observed exclusively within the initial 6 h of estrogen action, after which inhibition of lordosis occurred. At 12 h after EB priming, at the time of sc Prog treatment (or 43 h after EB priming), icv injection of 10 μg β-EP significantly inhibited lordosis. Lordosis was significantly facilitated by icv injections of 1 and 10 μg β-EP at the time of sc EB priming, but not by 0.1 μg β-EP. A dose–response relationship was identified for lordosis in experimental animals receiving icv injection of β-EP. Lordosis was inhibited by icv injections of 1 and 10 μg β-EP at 1 h before the test (or 47 h after EB priming). Lordosis was significantly inhibited by icv injection of NLX at all stages. From the present results, it seems that two different mechanisms are involved in endorphinergic modulation of rats' sexual receptivity: (a) the endorphinergic system at the initial stages of estrogen action facilitates the estrogen activation of lordosis; (b) the endorphinergic system at the final stages of steroid action inhibits lordosis. Moreover, there exists a critical time between 6 and 12 h after estrogen priming for endorphinergic mediation to modulate estrogen action.     

Influence of neonatal diethylstilbestrol treatment on androgen and estrogen receptor levels in the mouse anterior prostate, ventral prostate and seminal vesicle

Perinatal exposure to the synthetic estrogen, diethylstilbestrol (DES), affects the structure of both male and female reproductive systems. Changes may also occur in the levels of steroid hormone receptors. Cytosolic and nuclear androgen and estrogen receptor levels (expressed per mg DNA) from the sex accessory glands of male BALB/c mice exposed neonatally to DES were analyzed by exchange assays. Neonatal DES exposure caused significant decreases in: (1) cytosolic androgen and cytosolic and nuclear estrogen receptor levels in the anterior prostate and (2) cytosolic estrogen receptor levels in the ventral prostate. A significant increase was seen in the cytosolic estrogen receptor levels in the seminal vesicle. Significant decreases in cytosolic protein levels occurred in all DES-exposed glands.     

Glucocorticoid inhibition of estrus in ovariectomized pigs: Relationship to progesterone action

Synthetic glucocorticoids and progesterone were evaluated for their inhibitory action on estrus in ovariectomized pigs treated with estrogen. Triamcinolone acetonide (˜70 μg/kg BW), and dexamethasone (˜140 μg/kg BW) inhibited the estrous response to estradiol benzoate when these glucocorticoids were given during a period of 5 days before to 4 days after estradiol benzoate. The minimum effective dosage of progesterone that would inhibit estrus when given concurrently with estradiol benzoate was 600 (μg/kg BW. When triamcinolone acetonide (30 μg/kg BW) or dexamethasone (125 or 150 μg/kg BW) was given as a single injection in combination with progesterone (100 μg/kg BW), estrous response to estradiol benzoate was again inhibited. These steroids at these dosages had no significant effect when either was administered alone. Based on these results, the inhibitory action of these glucocorticoids on estrus in pigs is additive to the action of progesterone, and we suggest that triamcinolone acetonide and dexamethasone inhibit estrus through mechanisms related to those of progesterone.     

Dihydrotestosterone activates male mating behavior in castrated King—Holtzman rats

Having previously found that King-Holtzman rats respond behaviorally to dihydrotestosterone (DHT), this strain was used to compare the effectiveness of DHT and dihydrotestosterone propionate (DHTP) in maintaining and reinstating copulatory behavior. The 5α-reduced androgens were capable of stimulating mating behavior in these castrated male rats. DHT and DHTP were equally effective in maintaining ejaculatory behavior, whereas DHT was slightly more potent behaviorally than DHTP in restoring mating responses. It was found that as little as 200 μg hormone/day restored ejaculatory behavior in 78% of the DHT-treated and 50% of the DHTP-treated rats. In both the maintenance and restoration paradigms, the mating performance of the DHT(P) treated males declined over time. The present data suggest that the conversion of androgen to estrogen may not be critical for the activation of male mating behavior.     

Gonadal Steroid Hormones and Hypothalamic Opioid Circuitry

Endogenous opioid peptides derived from several gene families are localized within hypothalamic regions known to be involved in the regulation of reproduction. For example, the proenkephalin gene products, met- and leu-enkephalin, and the proopiomelanocortin (POMC) gene product, β-endorphin, are found in the rat medial preoptic area (MPOA). Moreover, the expression of these peptides and their receptors varies across the estrous cycle in the female rat. We have examined the gonadal steroid regulation of μ-opiate receptors and opioid peptides in the MPOA, and POMC mRNA expression in neurons that innervate the MPOA. μ-Opiate receptors in the MPOA are sexually dimorphic and gonadal steroid hormone-dependent. Hormonal priming of ovariectomized rats with estrogen and progesterone (P) upregulates MPOA μ-receptors 27, but not 3, hr after P treatment. Inhibition of protein synthesis during the first 6 hr after P prevents receptor upregulation, The density of β-endorphin fibers in the MPOA also increases following hormone treatment, and POMC mRNA expression in neurons that innervate the MPOA is induced by hormone treatment beginning 13 hr after P treatment. This delayed response might be ubiquitous among POMC neurons, as those innervating the median eminence also exhibit increased POMC mRNA expression along a similar time course. The results suggest that hormonal feedback regulates opioid peptides which act at μ-receptors in the MPOA to influence reproductive behavior and cyclicity. These opioid functions represent an important component in the complex regulatory processes which control reproduction.     

Masculine Sexual Behavior Is Disrupted in Male and Female Mice Lacking a Functional Estrogen Receptor α Gene

Masculine sexual behavior is regulated by testosterone (T). However, T can be metabolized to form estrogens or other androgens, which then activate their own receptors. We used knockout mice lacking a functional estrogen receptor α (ERα) gene to test the hypothesis that, following aromatization, T acts via the ERα to activate normal masculine sexual behavior. After gonadectomy and T replacement, wild-type (WT) male and female mice displayed masculine behavior. However, given the same T treatment, little masculine behavior was displayed by mice of either sex that lack a normal copy of the ERα gene. In particular, the latency to display masculine sex behavior and the number of mount attempts per trial were significantly reduced in the ERα⁻mice compared to WT littermates (P< 0.05). In addition, we found that in both sexes, ERα⁻mice have a smaller cluster of androgen receptor immunoreactivity in the bed nucleus of the stria terminalis. Using adult ERα⁻mice we were unable to determine whether these genotypic differences are due to organizational or activational effects. However, it is clear that the ERα plays a key role in the expression of masculine sexual behavior and in the regulation of androgen receptors in a neuronal cell population involved in the display of motivated behaviors.     

Mechanisms of replenishment of nuclear and rogen receptor in rat ventral prostate

1. The concentration of androgen receptor in the nucleus of the prostatic cell is rapidly elevated by the administration in vivo of 2μg of [³H]testosterone to 1-day-castrated rats. From a concentration of 2300 receptors/nucleus at 5min after intravenous injection of hormone, there is an increase to 21000 receptors/nucleus at 60min. At the same time, the amount of binding of androgen in the cytoplasm remains constant at a relatively low value. 2. An identical dose of [³H]testosterone administered to 7-day-castrated rats produces a much smaller change in the concentration of nuclear receptor, from 700 receptors/nucleus at 5min to only 4300 receptors/nucleus at 60min. Thus the reservoir from which nuclear receptor is replenished is considerably smaller in regressed prostatic cells. Again, the amount of binding of androgen in the cytoplasm remains unchanged at a low value over the experimental time course of 60min. 3. In contrast with the scant labelling of cytoplasmic receptor achieved by injecting animals with [³H]testosterone, labelling in vitro, by incubation of tissue slices with radioisotope, indicates that prostate of 1-day-castrated animals actually contains 21400 receptors/cell in the cytoplasmic compartment, and prostate of 7-day-castrated animals 3000 receptors/cell. 4. Owing to the similarity between the concentration of nuclear receptor measured in vivo and the concentration of cytoplasmic receptor measured in vitro, the labelling techniques in vivo and in vitro were used in sequence to demonstrate the movement of most of the cytoplasmic receptor into the nucleus. In the 5–60min interval after the administration of [³H]testosterone to 1-day-castrated rats, a decrease of 17400 receptor molecules in the cytoplasm is exactly mirrored by an increase of 17200 receptor molecules in the nucleus. 5. These results imply that, in prostate of 1-day-castrated rats, nuclear receptor is replenished exclusively by translocation of cytoplasmic receptor. However, in the regressed prostate of 7-day-castrated rats, only about 25% of the nuclear receptor is replenished through translocation of existing cytoplasmic receptor. The remainder is ultimately synthesized during new rounds of cell division induced by hormone.     

The effects of the antiestrogen CI-628 on sexual behavior activated by androgen or estrogen in quail

This series of experiments sought to determine whether conversion of androgen to estrogen is important in the activation of male sexual behavior in quail by seeing if an antiestrogen will block androgen stimulated copulation in this species. Experiment I compared the ability of two antiestrogens, MER-25 (5 mg/day) and CI-628 (2 mg/day), to block estrogen stimulated characteristics in female quail. Both treatments greatly reduced oviduct growth in “photically castrated” females given estradiol benzoate (EB, 50 μg/day), but only CI-628 reduced receptivity in these birds. In Experiment II surgically castrated males given 50 μg/day EB together with 2 mg/day CI-628 were much less receptive than castrated males given EB alone, and in addition copulated in fewer tests. In Experiments III, IV, and V, castrated males given testosterone propionate (TP) together with CI-628 were compared with males given TP alone. The ability of CI-628 to suppress TP-stimulated copulation increased with increasing CI/TP dosage ratio, and at the highest ratio (4:1), CI-628 effectively blocked copulation in five out of seven birds. Those birds that did copulate did so in fewer tests and performed fewer cloacal contact movements. CI-628 had no antiandrogenic effects in these experiments. These results suggest that estrogens may be important active metabolites of testosterone with respect to quail copulation.     

Estrogen receptor ligands counteract cognitive deficits caused by androgen deprivation in male rats

Androgen deprivation causes impairment of cognitive tasks in rodents and humans, and this deficit can be reverted by androgen replacement therapy. Part of the effects of androgens in the male may be mediated by their local metabolism to estradiol or 3-alpha androstanediol within the brain and the consequent activation of estrogen receptors. In this study we have assessed whether the administration of estradiol benzoate, the estrogen receptor β selective agonist diarylpropionitrile or the estrogen receptor α selective agonist propyl pyrazole triol affect performance of androgen-deprived male Wistar rats in the cross-maze test. In addition, we tested the effect of raloxifene and tamoxifen, two selective estrogen receptor modulators used in clinical practice. The behavior of the rats was assessed 2 weeks after orchidectomy or sham surgery. Orchidectomy impaired acquisition in the cross-maze test. Estradiol benzoate and the selective estrogen receptor β agonist significantly improved acquisition in the cross-maze test compared to orchidectomized animals injected with vehicle. Raloxifene and tamoxifen at a dose of 1 mg/kg, but not at doses of 0.5 or 2 mg/kg, also improved acquisition of orchidectomized animals. Our findings suggest that estrogenic compounds with affinity for estrogen receptor β and selective estrogen receptor modulators, such as raloxifene and tamoxifen, may represent good candidates to promote cognitive performance in androgen-deprived males.     

Binding and retention of estrogen in the uterus of hamsters treated neonatally with diethylstilbestrol

We have shown previously that postpubertal estrogen exposure promotes the development of uterine tumors in hamsters treated neonatally with diethylstilbestrol (DES). The purpose of this study was to determine if the uterine estrogen receptor system of adult hamsters was altered after neonatal DES treatment. There was no effect on the concentration, subcellular distribution, apparent binding affinity, sedimentation properties, surface charge characteristics or ligand specificity of uterine estrogen receptor in ovariectomized, estrogen-replaced animals. Furthermore, neonatal DES treatment had no effect on the subcellular distribution of radioactivity in the uterus of adult animals ovariectomized 1 week before challenge with [³H]-estradiol-17β(E₂). However, the amount of radioactivity taken up and specifically bound within the uterus 6 h after [³H]-E₂ challenge was less in DES-treated compared to control animals. Six hours after challenge with unlabeled E₂, the concentration (pmol/g tissue) of occupied but not total nuclear estrogen receptor was reduced in DES-treated animals. The difference in uterine radioactivity levels and occupied nuclear receptor retention appears to be due to a difference in estrogen metabolism since the systemic concentration of authentic [³H]-E₂ was lower in DES-treated animals compared to control. These results demonstrate no DES-induced change in the physicochemical or functional properties of the uterine estrogen receptor system, suggesting that a lesion in this receptor system is not involved in the etiology of uterine tumor development following neonatal DES exposure. However, the DES-treated animal appears to have an enhanced estrogen metabolism.     

Inhibition of testosterone-induced sexual behavior in the castrated male rat by aromatase blockers

The effect of some aromatase inhibitors (aminoglutethimide, 1,4,6-androstatrien-3, 17-dione, and 4-hydroxy-androstenedione) on testosterone propionate (TP)-induced copulatory behavior was tested in sexually inexperienced castrated male rats. A single injection of 6 mg of TP induced mounting in 48% and ejaculatory pattern in 19% of the rats within 120 hr. Treatment with the aromatase inhibitors (injections every 12 hr for 108 hr) suppressed ejaculation in all but one rat and significantly reduced the number of rats mounting and intromitting. Concurrent administration of estradiol benzoate (EB, 1 or 3 μg every 12 hr) prevented the inhibitory effect of aromatase blockers. No inhibitory effect of the aromatization blockers was observed in rats in which sexual behavior was induced by dihydrotestosterone (1 mg/day) and EB (2.5 μg/day) for 20 days. The results support the concept that aromatization is an essential step for the induction of male sexual behavior by androgen in the rat.     

Hysterectomy-induced facilitation of lordosis behavior in the rat

The present study investigated the effect of hysterectomy on hormone-induced lordosis behavior. Lordosis quotients (LQ) were measured in hysterectomized-ovariectomized (HO) and ovariectomized-sham hysterectomized (OSH) rats after several treatments including either estradiol benzoate (EB) alone or EB plus progesterone (P) 44 hr later. Testing consisted of placing the females with sexually active males 48 hr after EB. In Experiment 1, HO animals treated with 5 μg/kg EB and 0.5 mg P had significantly higher LQs than OSH animals; groups treated with 10 μg/kg plus P were not different. Experiment 2 showed that a single injection of 50 μg/kg EB resulted in equally high levels of receptivity in both groups. The LQs of HO animals injected with 3 μg/kg for 4 days did not differ from those of OSH animals; however, the administration of 0.5 mg P 24 hr after the fourth EB injection resulted in significantly higher LQs in the HO group (Experiment 3). In Experiment 4, HO rats injected with 5 μg/kg EB and 0.1 mg P 44 hr later displayed higher levels of lordosis behavior than OSH animals. It was concluded that hysterectomy facilitated the lordosis behavior of ovariectomized rats injected with both EB and P and that the mechanism for this potentiation remains to be determined.     

Inhibition of estrogen facilitation of sexual behavior by the intracerebral infusion of actinomycin-D

It has been shown previously that intracerebral actinomycin-D (Act-D) pellets inhibit estrogen facilitated female sexual behavior, but it was not possible to test the reversibility of this effect. In the present study an attempt was made to distinguish between the possible temporary interruption by Act-D of the biochemical action of estrogen which facilitates sexual receptivity and permanent toxic effects of the drug. Act-D in saline was infused into the third ventricle or the preoptic area (POA) to determine whether a reversible suppression of sexual behavior as measured by the lordosis quotient (LQ) could be produced. Ovariectomized rats were implanted with midline guide tubes entering the third ventricle (eight rats) or with bilateral tubes extending to the corpus callosum above the POA (67 rats). Each animal served as its own control since pretest and Act-D and recovery tests were performed 10–14 days apart in most subjects. For each behavioral test implanted subjects were primed with 3μg estradiol benzoate (EB) and 0.5 mg progesterone (P) 48 hr later. Behavioral tests, each involving 50 mounts, were performed 4–6 hr after P. Following the pretest the animals were retested under experimental conditions. Inner cannulae were inserted into the POA through the guide tubes and 0.11 μg Act-D infused 24 or 12 hr before, simultaneously with, or 6, 12, 18, or 26 hr after EB. A recovery test was performed 10–14 days later with no intracerebral infusion. The control procedure (infusion of of saline either simultaneously with or 12 hr after EB) did not alter the LQ. Act-D infusion produced a reversible suppression of lordosis which was dependent upon the time of administration of Act-D. Intraventricular infusion of Act-D 6 hr after EB reversibly inhibited lordosis behavior and no lesions were produced. Act-D infused into the POA simultaneously with EB or 6 hr later reversibly suppressed the LQ. In the 6 hr group, for example, the LQ fell from 78.3 to 35.7, but 10–14 days later reached 74.3. Although brain lesions of varying extent were produced by Act-D, the marked but reversible suppression of lordosis behavior is consistent with the view that Act-D inhibits estrogen facilitation of lordosis behavior by means of a biochemical rather than cytotoxic action.     

The effect of estradiol on isolated rat uterine motility and on prostaglandin generation

The motility of isolated uterine horns as well as the generation of PGE and PGF like material by the uterus from estrus and spayed rats, treated or untreated with 17-beta estradicl, were studied. Following 40 minutes of mounting the spontaneous motility of uteri from estrus rats had a lower magnitude than that from spayed ones. The amount of PGF-like material was similar in both groups whereas the first one liberated less PGE-like substance. In spayed animals treated with 1 μg of 17-beta estradiol the decay of spontaneous contractile force was higher than that observed in untreated rats, and similar to that displayed by uteri from estrus. Less PGE-like material was liberated in comparison with spayed animals and a tendency to produce higher quantity of PGF-like compounds was observed, although the level was not significantly different. With 50 μg of 17-beta estradiol the spontaneous reduction of contractile activity was higher than in spayed animals and than in those treated with 1 μg. The amount of PGF-like material liberated was higher than in spayed rats and less PGE-like substance was generated comparing with spayed and 1 μg-treated animals. These findings show that estradiol decreases the release of PGE-like compound. It would also appear that this may have some relationship with the levels of spontaneous contractile activity of the isolated rat uterus.     

Measurement of changes in functional muscarinic acetylcholine receptor density in single neuroblastoma cells using calcium release kinetics

Calcium release in response to the activation of muscarinic M1 and histamine H₁ receptors was studied in single N1E-115 cells using Fura-2 imaging. The objective was to relate changes in the kinetics of Ca release with reductions in functional receptor density resulting from receptor desensitization. Calcium release increased and its time course accelerated with increasing carbachol concentration with an EC₅₀ = 96 ± 8 μM. This value is similar to the binding K_D (100 μM) and the similarity shows that the activation of calcium release is limited by the number of muscarinic receptors. In contrast, the EC₅₀ for Ca release in response to histamine is 4.0 ± 0.7 μM while the binding K_D is 8.3 μM and, therefore, H₁ receptors appear to be in approximately 2-fold excess over the minimum number necessary to fully engage the Ca release mechanism.Functional surface receptor number was assayed in the population of cells by counting the total number of cells responding to agonist. A 5 min exposure to 1 mM carbachol caused 12% of cells to lose their ability to respond to carbachol, with no change in their response to histamine. Interpolating from the dose-response curve taken before desensitization, this is equivalent to an average 23% reduction in the number of muscarinic receptors. In individual cells the latency to Ca release is dose-dependent in the absence of excess receptors. The loss of functional receptors was therefore estimated from the increase in latency after desensitization, and varied from 5–48% of receptors (22 ± 18%). Muscarinic desensitization did not depend on IP₃-evoked Ca release, Ca entry, protein kinase C, NO, or cGMP. We conclude that in a population, the number of cells responding and in single cells, the latency to Ca release can serve as measures of functional receptor density.     

Androgen- and estrogen-independent regulation of copulatory behavior following castration in male B6D2F1 mice

Male reproductive behavior is highly dependent upon gonadal steroids. However, between individuals and across species, the role of gonadal steroids in male reproductive behavior is highly variable. In male B6D2F1 hybrid mice, a large proportion (about 30%) of animals demonstrate the persistence of the ejaculatory reflex long after castration. This provides a model to investigate the basis of gonadal steroid-independent male sexual behavior. Here we assessed whether non-gonadal steroids promote mating behavior in castrated mice. Castrated B6D2F1 hybrids that persisted in copulating (persistent copulators) were treated with the androgen receptor blocker, flutamide, and the aromatase enzyme inhibitor, letrozole, for 8 weeks. Other animals were treated with the estrogen receptor blocker, ICI 182,780, via continual intraventricular infusion for 2 weeks. None of these treatments eliminated persistent copulation. A motivational aspect of male sexual behavior, the preference for a receptive female over another male, was also assessed. This preference persisted after long-term castration in persistent copulators, and administration of ICI 182,780 did not influence partner preference. To assess the possibility of elevated sensitivity to sex steroids in brains of persistent copulators, we measured mRNA levels for genes that code for the estrogen receptor-α, androgen receptor, and aromatase enzyme in the medial preoptic area and bed nucleus of the stria terminalis. No differences in mRNA of these genes were noted in brains of persistent versus non-persistent copulators. Taken together our results suggest that non-gonadal androgens and estrogens do not maintain copulatory behavior in B6D2F1 mice which display copulatory behavior after castration.     

Estrogenic contributions to sexual differentiation in the female guinea pig: influences of diethylstilbestrol and tamoxifen on neural, behavioral, and ovarian development

We administered the synthetic estrogen, diethylstilbestrol (DES), or the antiestrogen, tamoxifen, to pregnant guinea pigs and observed the consequences for sexual differentiation of their female offspring. Hormones were administered during the period when treatment of fetuses with testosterone influences the development of sex-related traits (approximately Days 30 to 65 of gestation). Ovarian function, masculine and feminine sexual behavior, and the structure of a sexually dimorphic neural region in the preoptic area were assessed in adulthood in hormone-exposed animals and in oil-treated and untreated controls. Prenatal exposure to DES dipropionate (DESDP) caused masculinization and defeminization. DESDP-treated females mounted more than control females, both without hormonal stimulation and when given testosterone propionate (TP) as adults. The sexually dimorphic neural region was also masculinized in these females. In regard to defeminization, they showed delayed vaginal opening, impaired progesterone (P) production, an absence of corpora lutea, and impaired lordosis and mounting responses to estradiol benzoate (EB) and P. Prenatal treatment with tamoxifen produced a complicated pattern of results. Tamoxifen-exposed females evidenced less masculine-typical behavior, showing diminished mounting without hormonal stimulation and in response to TP. However, they also showed delayed vaginal opening, enhanced P production, and impaired mounting in response to EB and P. Their lordosis behavior and the volume of the sexually dimorphic neural region were unaffected. These results suggest that estrogens play a substantial role in sexual differentiation in the guinea pig. High levels of estrogen promote masculine-typical development, and unusually low levels may impair some aspects of both masculine-typical and feminine-typical development.