Expression of male-typical behavior in adult female pseudohermaphroditic rhesus: Comparisons with normal males and neonatally gonadectomized males and females

Two types of pseudohermaphroditic female rhesus produced by exposure to either testosterone propionate (TP) or dihydrotestosterone propionate (DHTP) prior to birth were ovariectomized postpuberally and evaluated for the display of male-typical sexual behavior in response to exogenous TP in adulthood (2 mg/kg/day for 12 weeks). Their performance in standardized tests with estrogenized female partners was compared to that of neonatally gonadectomized males and females identically tested and treated with exogenous TP as adults. In addition intact adult males not given exogenous TP were tested with the same estrogenized female partners. There were no reliable differences between the two types of pseudohermaphrodites on any measure of behavior shown during the tests. Accordingly results were combined. Reliable behavioral changes induced by the TP given in adulthood were limited to increases in purse-lip responses, the induced increases were similar in pseudohermaphrodites and castrated males, and increases were reliably greater in these two groups of subjects than in females. Pseudohermaphrodites and castrated males did not differ reliably from intact males in performance of purse-lip gestures during TP treatment. In the performance of mounting, however, pseudohermaphrodites and castrated males remained consistently below the standard of the intact males. The estrogenized female partners displayed proceptive responses most frequently to the intact males and least frequently to the females. Their proceptive responses with castrated males resembled their performance with intact males, but with pseudohermaphrodites their proceptive responses more closely resembled their performance with females. Receptive behavior of the female partners was displayed most frequently to intact males, at intermediate levels to castrated males, and least often to pseudohermaphrodites. Results are completely consistent with the notion that androgens in high concentrations before birth alter mechanisms related to the later display of masculine behavior. These alterations in behavioral mechanisms are of such a nature that the display of male-typical behavior induced by androgens in adulthood is more pronounced and more frequent than it would have been otherwise. The alterations in masculine behavior observed in pseudohermaphroditic rhesus are not different in kind or scope than those reported extensively for lower mammals.(ABSTRACT TRUNCATED AT 400 WORDS)     

Testosterone-induced aggression in adult female mice

Silastic implants of testosterone (T) and injections of testosterone propionate (TP) were used to study the effects of ovariectomy and androgen administration on the fighting behavior of adult female mice. A dose of T previously shown to hyperstimulate accessory organ growth in adult male castrates was sufficient to induce the complete behavioral repertoire of male-like aggression in females never before treated with exogenous androgen. As determined by radioimmunoassay, blood levels of T produced by implants containing an aggression-inducing dose of T (10-mg implant) were within the range of T concentrations observed in intact males. Following treatment with a 10-mg T implant, the aggressive behavior of ovariectomized females could be fully maintained with a dose of T (0.3-mg implant) that failed to maintain weight of the accessory organs in adult male castrates. In fact, females “androgenized” were subsequently more responsive to the aggression-activating properties of T than were males castrated after prenatal and perinatal androgen exposure.     

Hormonal regulation of male reproductive behavior in the lizard Anolis sagrei: a test of the aromatization hypothesis

This study examined the hypothesis that aromatization of testosterone (T) to estradiol (E) is required to activate reproductive behavior in castrated male lizards (Anolis sagrei). Adult, reproductively active males were assigned to an intact control group or to one of four treatment groups. Treatment males were castrated and 1 week later three of the four castrated groups were implanted with subcutaneous pellets containing either 0.05 mg of E, 0.5 mg of T, or 0.5 mg of dihydrotestosterone (DHT). Two weeks after pellet implantation, males were tested with stimulus males, and 2 days later were tested with stimulus females. Behavioral tests were of 15-min duration and were videotaped. Significantly fewer E-treated castrates erected a crest in tests with stimulus males than did intact males. In tests with stimulus females, significantly fewer E-treated castrates displayed, neck-gripped, and intromitted than did intact males. Estradiol-treated castrates also showed significantly less display behavior than did intact males. However, aggressive and sexual behavior of DHT-treated castrates was not significantly different from that of intact males. The same was true for T-treated castrates with the exception that display behavior in tests with stimulus females was reduced compared to that of intact males. The results suggest that aromatization of T to E is not required for induction of androgen-dependent reproductive behavior in this lizard.     

Neonatal Androgen Affects Copulatory Behavior in the Female Musk Shrew

The role of neonatal testosterone in the development of copulatory behavior was examined in an insectivore, the musk shrew (Suncus murinus). Female musk shrews were treated with testosterone propionate (TP) for the first 5 days of life and then tested in adulthood for either female or male-like copulatory behavior. Early TP had a masculinizing effect; neonatally treated animals mounted a stimulus female more frequently, and with shorter latencies, in response to adult testosterone treatment than did control females. Neonatally androgenized females also showed deficits in female sexual behavior; few received ejaculations from stud males. This difference was likely caused by increased aggression exhibited by the neonatally TP-treated females toward males. In turn, female aggression decreased efficiency of male partners' intromission attempts. Early TP treatments also caused structural abnormalities in the ovaries, but did not effect their capacity to ovulate in response to either gonadotropin-releasing hormone or human chorionic gonadotropin injection. In sum, exposure to TP during development augmented display of male-like behavior in females and had subtle deleterious effects on expression of feminine behavior.     

Sexual preferences of male hamsters (Mesocricetus auratus) for conspecifics in different endocrine conditions

The behavioral responses of sexually experienced male hamsters toward a pair of anesthetized conspecifics were investigated. Males spent significantly more time licking, sniffing, and mounting neonatally and adult castrated males than intact males. Adult castrated males receiving oil injections were preferred over castrates receiving exogenous testosterone propionate (TP). Ovariectomized females were preferred over intact males, adult castrated males, or spayed females receiving exogenous TP. It was concluded that the absence of an androgen-dependent factor(s) renders an animal more sexually attractive.     

The effects of castration and Silastic implants of testosterone on intermale aggression in the mouse

Castration and testosterone (T) replacement were used to study developmental changes in aggressive behavioral responsiveness to androgenic stimulation. Male mice castrated at birth were less sensitive to circulating T than were prepubertal or adult castrates, but fighting was induced in neonatal castrates with a dose of androgen that produced hypertrophy of the accessory organ system in adult castrates. Gonadectomy shortly prior to pubertal increases in serum T concentration also reduced behavioral responsiveness to androgen administration. Intermale aggression was induced in prepubertal castrates only with T treatment that maintained accessory organ growth in adult castrates. The aggressive behavior of males castrated after the pubertal surge in serum T was supported with circulating levels of androgen that failed to stimulate the accessory organ system above that of oil-treated castrates. It was concluded that T stimulation during neonatal or pubertal life is not totally crucial for organization of neural substrates that mediate the ultimate expression of intermale aggression, but exposure to androgen from birth throughout pubertal development is normally required to produce maximal aggressive behavioral responsiveness to circulating T encountered in adulthood.     

Differential responsiveness to replacement therapy of pre- and postpubertally castrated mice with respect to intermale aggression

Male mice castrated before Day 6 of postnatal life differ from adult castrates in that they do not exhibit normal patterns of intermale aggression following replacement therapy as adults. Two experiments sought to determine the effect castration after Day 6, but before puberty, would have on this response to adult replacement therapy. It was found that adult castrates showed some increases in fighting as early as six hr after a subcutaneous (s.c.) injection of 2 mg testosterone propionate (TP). At 30 hr after treatment 14/15 mice fought, while at 72 hr 15/15 fought and the number of fights in 10 min was significantly higher than at 30 hr. In the second experiment, the response to adult treatment with 2 mg TP (s.c.) in mice castrated in Day 10 or Day 50 was compared. Different groups were tested at 16, 40, 64, and 88 hr after TP treatment. The latency to respond to TP was significantly less and the level of fighting obtained was significantly greater in Day 50 castrates than in Day 10 castrates at each time of testing. The proportion of Day 10 (14/15) and Day 50 (15/15) castrates fighting was equal by 88 hr, while the mean fighting frequency was significantly lower in Day 10 castrates (M = 4.93 ± 4.78) than in Day 50 castrates (M = 8.06 ± 1.63). Day 50 castrates fought significantly more often than controls at 40 hr, whereas the level of fighting attained by Day 10 castrates was not significant until 64 hr. These results suggest that even after the organizational period for aggression, testosterone is necessary for maintenance and/or preparation of the substrate essential to the elicitation of aggression.     

Masculine sexual behavior in male and female rats following perinatal manipulation of androgen: Effects of genital anesthetization and sexual experience

Androgenized females, Day 1 male castrates, normal males, and normal females were tested for mounting behavior as adults following TP administration (1 mg/day). Genital anesthetization was used to eliminate all intromission and ejaculation behavior. Results showed that sexually-naive normal males and androgenized females mounted significantly more then Day 1 male castrates, while the Day 1 male castrates mounted significantly more than normal females. Sexually-experienced normal males and androgenized females displayed a significant facilitation of mounting behavior as compared to the sexually-naive animals. Tests of masculine copulatory behavior without genital anesthetization also were conducted with androgenized females and normal males. In these tests, androgenized females were indistinguishable from normal males in all aspects of the complete masculine pattern. The present results provide evidence that during perinatal development androgen acts directly on neural systems which will later regulate adult masculine sexual behavior.     

Sex differences,laterality, and hormonal regulation of androgen receptor immunoreactivity in rat hippocampus

Sex differences, laterality, and hormonal regulation of androgen receptor (AR) immunoreactivity in rat hippocampal CA1 pyramidal cells were examined using the PG21 antibody. Adult male rats were either castrated or sham-operated at least 2 weeks prior to sacrifice. Gonadally intact females were sacrificed on the day of proestrus. Animals received an injection of either testosterone propionate (TP) or vehicle 2 h prior to sacrifice. Within CA1, both the intensity of staining and the number of AR+ cells were assessed. AR immunostaining was detected in all the groups with marked variation among them. The overall ranking of staining intensity was: gonadally intact males > females given TP > castrated males given TP > females > castrated males given vehicle. The number of AR+cells within subregions of CA1 showed the same basic pattern: among control-treated animals, gonadally intact males have more than females, but castrated males have the least, and acute TP treatment increases the number in both sexes. The increased level of AR immunoreactivity in CA1 of castrated males following acute TP treatment suggests that testicular androgens in adulthood normally increase AR immunoreactivity there, producing a sex difference favoring males in gonadally intact animals. We also found a higher number of AR+ CA1 cells on the left than on the right, but only in gonadally intact males and in females given TP. These results suggest that a laterality of AR distribution in the rat hippocampus may lead to lateralities in hippocampal structure and function.     

Sexual and social behavior of adult saddle-back tamarins (Saguinus fuscicollis), castrated as neonates

The behavior of four adult males castrated as neonates was compared with that of three neonatally sham-castrated males and two untreated males serving as controls. Two males castrated as sexually experienced adults served as additional controls. All males lived in permanent male-female pairs. The interactions of neonatally castrated, sham-castrated, and intact control males with strange conspecifics were tested in a situation analogous to territorial defense. In addition, the interactions of all males with their female pair mates were tested. Neonatally castrated males showed less injurious aggression against strangers and interacted with them less frequently than control males. There were significant differences between both groups of males in some of the agonistic behaviors recorded, but not in all. In pair tests, neonatally castrated males failed to show any coordinated male copulatory behavior but control males did. Males castrated as adults showed rates of mounting and thrusting similar to those of intact controls. Neonatally castrated males tended to interact with their females on a lower level than neonatally sham-castrated and untreated control males. How ever, most differences between both groups in the levels of pair mate interactions were not statistically significant. It is concluded that castration during neonatal life prevents the display of male copulatory behavior in adulthood and selectively affects the display of a number of other behaviors in adulthood. It is not possible at this point to decide whether these results are due to hormonal deficiencies on an organizational or activational level or both. However, data from studies currently in progress suggest that organizational processes might be responsible for part of the effect.     

Neonatal castration of male and female rats affects luteinizing hormone responses to estrogen during adulthood

We examined the positive and negative feedback effects of estradiol (E2) on luteinizing hormone (LH) and prolactin (Prl) secretion in adult male and female rats which were gonadectomized within 24 h after birth (long-term castrates) and compared these responses to those elicited by E2 in short-term castrated (7 days) adult males and females. The high serum E2 did not reduce the elevated serum LH concentrations in long-term castrates until 4 days of treatment. Also, only after negative feedback was established were the positive feedback actions of E2 observed. In contrast, Prl surges were observed after 2 days of E2, and baseline Prl serum levels were elevated by Day 3 of E2 in long-term castrated male and female rats. Some long-term castrates lacked both LH and Prl surges, and E2 was ineffective in altering basal gonadotropin secretion in these animals. Short-term castrated males had elevated serum Prl levels but no Prl surges. Seemingly, when the hypothalamus is deprived of estrogen or androgen from birth to adulthood, an equal percentage of males and females become refractory to the positive feedback effects of estrogen during adulthood. Thus, it is difficult to separate castration effects from those which may be produced by the endogenous androgen secreted during the first 26 h of life.     

Gonadal hormones masculinize and defeminize reproductive behaviors during puberty in the male Syrian hamster

Three experiments were conducted to test whether testicular hormones secreted during puberty masculinize and defeminize the expression of adult reproductive behavior. Experiment 1 tested the hypothesis that gonadal hormones during puberty masculinize behavioral responses to testosterone (T) in adulthood. Male hamsters were castrated either before puberty (noTduringP) or after puberty (TduringP). All males were implanted with a 2.5-mg T pellet 6 weeks following castration and tested once for masculine reproductive behavior 7 days after the onset of T replacement. TduringP males displayed significantly more mounts, intromissions, and ejaculations than noTduringP males. Experiment 2 tested the hypothesis that gonadal hormones during puberty defeminize behavioral responses to estrogen (EB) and progesterone (P). Eight weeks following castration, noTduringP and TduringP males were primed with EB and P and tested for lordosis behavior with a stud male. Behavioral responses of males were compared to that of ovariectomized (OVX) and hormone primed females. NoTduringP males and OVX females displayed significantly shorter lordosis latencies than TduringP males. Experiment 3 investigated whether prolonged T treatment or sexual experience could reverse the deficits in masculine behavior caused by the absence of T during puberty. Extending the T treatment from 7 to 17 days did not ameliorate the deficits in masculine behavior caused by absence of T during puberty. Similarly, when the level of sexual experience was increased from one to three tests, the deficits in masculine behavior persisted. These studies demonstrate that gonadal hormones during puberty further masculinize and defeminize neural circuits and behavioral responsiveness to steroid hormones in adulthood.     

Parental responsiveness is feminized after neonatal castration in virgin male prairie voles, but is not masculinized by perinatal testosterone in virgin females

We previously found a large sex difference in the parental responsiveness of adult virgin prairie voles (Microtus ochrogaster) such that most males are spontaneously parental, whereas most females are not. Because this sex difference is independent of the gonadal hormones normally circulating in adult virgin voles, the present study examined whether perinatal hormones influence the development of this sex difference. Males were treated prenatally (via their pregnant dam) with both the androgen receptor blocker flutamide (5 mg/day/dam) and the aromatase inhibitor ATD (1 mg/day/dam), or oil, for the last 2 weeks of gestation. Half of the subjects from each group were castrated on the day of birth and the other half received a sham surgery. As adults, intact males were castrated and all males received a silastic capsule filled with testosterone. Prenatal treatment with flutamide and ATD had no effect on males' behavior toward pups, but neonatal castration significantly reduced the percentage of males acting parentally. In a second experiment, females were exposed to testosterone propionate (TP; 50 microg/day/dam) or oil via their dam during the last 2 weeks of gestation. For the first neonatal week, half of the females from each group were injected with TP (1 mg/day) and the other half oil. As adults, females were ovariectomized and half from each group received a testosterone-filled capsule and the other half received an empty capsule. None of the perinatal TP treatments increased females' parental responsiveness, although females from all groups that received testosterone capsules as adults were highly parental. Therefore, although postnatal testicular hormones are necessary for high parental responsiveness in males, the behavior of females is not influenced by perinatal exposure to testosterone.     

Physical provocation potentiates aggression in male rats receiving anabolic androgenic steroids

Anabolic androgenic steroids (AAS) have been linked to indiscriminant and unprovoked aggression and violence. We employed a brief tail pinch to examine the effects of different AAS on intermale aggression in gonadally intact male rats in response to a mild physical provocation. Animals received 5 mg/kg testosterone propionate (TP), nandrolone (ND), or stanozolol (ST) 5 days/week. Controls received vehicle injections. After 12 weeks, rats were tested for aggression while treatments continued. Animals were paired with either gonadally intact or castrated opponents and were tested in the subject rat's home cage, the opponents's home cage, and a neutral cage. Aggression was tested during tail pinch of the subject rat and during tail pinch of the opponent rat. In TP-treated males, tail pinch significantly enhanced aggression in all social and environmental conditions compared to intact controls. TP treatment also significantly enhanced aggression when the opponents were tail pinched. Tail pinch did not increase aggression in ND-treated males, and aggression was significantly lower than controls in ST-treated males. As expected, cell nuclear androgen receptor binding was significantly elevated by the high dose of TP. Our results show that while AAS alone does not induce the indiscriminate and unprovoked aggression characteristic of 'roid rage, TP heightens the animals sensitivity to     

Copulatory behavior of adult tamarins (Saguinus fuscicollis) castrated as neonates or juveniles: Effect of testosterone treatment

The sexual interactions of Saguinus fuscicollis males castrated as neonates, at 37 days of age, or prepubertally with adult intact females were studied. Prepubertally castrated males were observed while receiving testosterone, and while being treated with saline. Males castrated neonatally or at 37 days of age were observed while receiving testosterone. Neonatal castrates had previously been studied without hormone treatment and therefore no control condition was included for these animals. Prepubertally castrated males showed Mounts, Mounts with Thrusts, and Sexual Tongue Flicking when treated with saline only. In three of the four males, all measures of sexual behavior increased with testosterone treatment. Neonatally castrated males had failed to display any mounting or thrusting without testosterone treatment during a previous study. During the present study, three of the four males did not respond to testosterone treatment with sexual behavior. The fourth male and one male castrated at 37 days of age displayed some sexual behavior. These results suggest that most neonatally castrated males are not able to respond to testosterone with the activation of copulatory behavior. The findings are consistent with the hypothesis that in callitrichids the sensitive period for behavioral differentiation is shifted into neonatal life. However, some neonatally castrated males show a weak response to testosterone. This may reflect an extended and perhaps partially prenatal period of sensitivity.     

Androgenic stimulation of aggression eliciting cues in adult opponent mice castrated at birth, weaning, or maturity

The developmental and concurrent effects of androgens on aggression-eliciting qualities of male opponent mice were investigated during paired contests with trained fighters. Groups of male mice were castrated at either 1, 20, or 110 days of age. Half of each group were injected from 110 days of age with a maintenance dose of 100 αg testosterone propionate (TP), while the rest received injections of the arachis oil vehicle. The level of aggression received from fighter mice was monitored after 20 injection days, and compared to that received by intact male, and spayed TP-injected female opponents. The age at castration did not affect the responsiveness of opponents to androgens, and all TP-injected males suffered more severe defeat than oil-injected controls. TP-injected castrate males did not differ from intact males as opponents eliciting aggression, though TP-treated females received significantly more bites than any of the male opponent groups. A concurrent stimulation by androgens of the adult males' aggression-eliciting cues was, therefore, demonstrated. It is suggested that females derive different metabolic end-products from testosterone propionate, which can apparently provide more effective aggression-eliciting cues than are produced by the male mouse.     

The effects of dichloromethylene biphosphonate on osteoporotic femora of adult castrate male rats

In a previous study we reported that castration of adult male rats resulted in femoral osteoporosis 4 months later. The present study tested the effects of dichloromethylene biphosphonate (Cl2MBP, formerly Cl2MDP), a bone resorption inhibitor, on the development of osteoporosis in femora of adult castrated male rats. One-year-old male Holtzman rats were assigned to three groups: sham-operated controls; castrated-no treatment; castrated + Cl2MBP injections 3 times/week. The animals were sacrificed 4 months later. Femora from untreated castrated rats were osteoporotic, confirming our earlier study. Femora from Cl2MBP-treated castrates did not differ from those of controls and were significantly denser and more robust than those of untreated castrated rats. The results indicated that Cl2MBP treatment started immediately after castration prevented the development of femoral osteoporosis in adult castrated male rats.     

The estrogenic arousal of aggressive behavior in female mice

Experiments were conducted to determine the conditions under which estrogen would promote male-like aggressive behavior in female mice. The results of the first experiment showed that most females chronically exposed to testosterone propionate (TP) in adulthood fought, whereas females similarly treated with estradiol benzoate (EB) did not display aggression. Another experiment found that, when either TP or EB was administered on the day of birth, adult females displayed aggression in response to daily EB injections during adult life. Also, the potentiating effect of neonatal hormone exposure declined over the first 12 days postpartum, as 100% of the Day 0, 75% of the Day 6, and 0% of the Day 12 and 18 TP-treated females fought in response to daily injections of 40 μg of EB in adulthood. The final study showed that, under the test conditions employed, the failure of a chronic adult EB regimen to promote aggression was not due to a competing tendency to display female sexual behavior.     

Hormones and social behavior in the lizard, Anolis carolinensis

The purpose of this experiment was to study the effects of homologous and heterologous gonadal hormones on sexual and aggressive behavior in a reptilian species. Thirty adult male and thirty adult female lizards (Anolis carolinensis) were divided into 10 groups of six each (five groups per sex) and each group was given one of five treatments: either left intact, sham-castrated and injected with the hormone vehicle, castrated and injected with the hormone vehicle, castrated and injected with estradiol benzoate, or castrated and injected with testosterone propionate. After a week of visual isolation and daily hormone injection, animals were tested four times, twice with a stimulus animal of each sex. Females treated with estrogen were receptive, but did not court. Females treated with androgen were receptive and also courted and pursued stimulus females as frequently as males given androgen. No males in any group were receptive, and thus the female appears to be more capable of heterotypical sexual behavior than the male. Castrated males failed to court. Courtship and pursuit of stimulus females was readily stimulated in males with testosterone, and weakly stimulated by estrogen. Intact males were very aggressive, but lower levels of aggression were independent of gonadal hormones, as was subordination (head-nodding). The results for aggression and subordination are interpreted with reference to naturally-occurring Anolis behavior, and the results for sexual behavior are compared with similar experiments with mammals and birds.     

Effects of testosterone on ontogeny of urinary behavior in male and female dogs

Development of urinary behavior from birth to adulthood was observed in six groups of beagles including normal males (NM), normal females (NF), males castrated soon after birth (CM), males castrated soon after birth and treated with testosterone (T) for the next 90 days (CMT), females exposed to T in utero (FTU), and females exposed to T in utero and during infancy, i.e., the first 30-40 days postpartum (FTUI). Prenatal treatment with T had masculinizing effects on juvenile urinary behavior in FTU and FTUI. On the other hand normal development of fully adult masculine urinary patterns in males and females necessitated both prenatal and postnatal androgenic stimulation. It was not necessary that T be present at the time the overt behavior developed. For example, adult male behavior appeared in FTUI at the same time as in NM, i.e., 6-10 months, although the supply of exogenous androgen in FTUI had been exhausted within 30-40 days after birth. CMT showed precocious development of all components of the adult male pattern. Development of adult responses was markedly retarded in most CM, and their performance did not equal that of NM at 23 months. They were then injected with TP which promptly evoked completely normal male urinary behavior. It is tentatively concluded that T acting before birth and during the juvenile period "prepares" critical CNS mechanisms so that when general maturation reaches the appropriate point adult male behavior develops. Although the preparatory role of T is essential, the behavior is not dependent on T after it has developed.