Sex behavior and hormone responses in ewes administered testosterone propionate

Two ewes were administered testosterone propionate and subsequent plasma testosterone concentrations determined and male sex behavior recorded. Initially ewes were administered 50 mg of testosterone propionate every other day for 20 days. Within 6 days following the first injection, concentrations of testosterone in plasma increased to 8.0 to 10.0 ng/ml. A 50 mg injection of testosterone propionate administered every 10 days thereafter maintained concentrations of plasma testosterone at 1.0 to 3.0 ng/ml. Sex behavior tests conducted with non-estrus and estrus ewes showed that both testosterone treated ewes developed male sex behavior similar to a ram. Ewes in estrus were mounted by testosterone treated ewes an average of 6.7 ± 1.2 times during a 10 minute test whereas none of the non-estrus ewes were ever mounted. Silastic implants containing testosterone propionate placed in the ewes 83 days following the first injection maintained concentrations of plasma testosterone at 6.0 to 8.0 ng/ml for a 20 day period. Therefore, administration of testosterone propionate to ewes effectively stimulates male sex behavior and would obviate the necessity for vasectomized rams for estrus detection.     

Induction of male sex behavior in ewes with silastic implants containing testosterone propionate

In the first of two experiments, ovariectomized ewes with silastic implants containing testosterone propionate had higher concentrations of plasma testosterone than ovariectomized ewes with silastic implants containing testosterone (4.0 +/- .2 vs .8 +/- .1 ng/ml). In the second experiment, one or two 10 cm silastic implants filled with testoster-one propionate increased concentrations of plasma testosterone and induced male sex behavior in ovariectomized ewes similar to plasma testosterone levels and male sex behavior in rams. The interval from initiation of the treatment to the first behavior test in which mounting was consistently observed was 14.4 +/- 2.9 days and once mounting behavior was consistently induced, the testosterone treated ewes mounted estrous ewes an average of 10.7 +/- 1.3 times during a 10-minute test.     

Induction of male sex behavior in pony mares with testosterone propionate

Two pony mares were administered 150 mg of testosterone propionate every other day for 20 days (ten injections) and every ten days there-after. An additional two mares and one stallion were not treated and served as controls. Testosterone propionate was dissolved in absolute ethanol and administered subcutaneously. Sex behavior tests were conducted 26 and 40 days after the first injection. Control mares exhibited very little male sex behavior. Both testosterone propionatetreated mares, however, exhibited mounting, sniffing, flehmen, biting and vocalization behavior in the presence of an estrous mare. The testosterone propionate-treated mares mounted and bit estrous mares more frequently than the stallion but exhibited less sniffing, flehmen and vocalization behavior in the presence of an estrous mare than the stallion. Testosterone propionate-treated mares and the stallion mounted an estrous mare 23.3 +/- 9.7 seconds and 172.5 +/- 22.5 seconds, respectively, after being introduced into the pen. Mares in estrus were mounted by the testosterone propionate-treated mares and the stallion an average of 4.0 +/- 1.3 and 1.0 +/- 0 times, respectively, during a ten-minute test. None of the non-estrous mares was ever mounted by the testosterone propionate-treated mares. In summary, testosterone propionate induced male sex behavior in intact mares and the testosterone propionate-treated mares effectively detected estrous mares.     

Male sex behavior and testosterone concentrations in gilts administered testosterone propionate

Two gilts were administered testosterone propionate and their subsequent plasma testosterone concentrations and male sex behavior were recorded. These were compared to testosterone concentrations and male sex behavior in boars. Testosterone propionate (75 mg) was administered to the gilts every other day for 20 days (induction scheme) and every 10 days there-after (maintenance scheme). Concentrations of testosterone in plasma were elevated to concentrations detected in the boars during the induction scheme. During the maintenance scheme, concentrations of testosterone appeared to be lower than in boars. At 20, 30 and 40 days following the first injection, sniffing, nosing and mating song behaviors were exhibited by the testosterone treated gilts similar in frequency to the boars. Mounting behavior was first detected 30 days following the first testosterone propionate injection, and by day 40, the frequency of mounting was greater than observed in boars.     

Passage of testosterone,testosterone propionate and testosterone enanthate from silastic implants and the retention of testosterone once it enters the blood of ewes

Two studies were conducted to determine the passage of testosterone, testosterone propionate and testosterone enanthate through silastic implants and to determine the retention of the three hormones once they enter the blood. In the first experimental, ovariectomized ewes with implants containing testosterone propionate and ewes with implants containing testosterone enanthate had higher levels of plasma testosterone than ewes with implants containing testosterone. Testosterone enanthate implants released more hormone during the 13-day period than the testosterone propionate and testosterone implants and testosterone propionate implants released more hormone than testosterone implants. In the second experiment, concentrations of plasma testosterone were elevated longer for ovariectomized ewes intravenously administered testosterone propionate, than ewes receiving testosterone or testosterone enanthate intravenously.     

Comparison of females treated with oestradiol or testosterone to detect oestrus in dairy cattle maintained indoors year-round

The effectiveness of three females treated with oestradiol and three females treated with testosterone to detect oestrus was examined in 304 dairy cows maintained indoors year-round. Three heifers were treated weekly with 10 mg oestradiol benzoate per 250 kg of body weight. One cow and two heifers were treated with 10 injections of testosterone propionate (200 mg) every other day and an injection of testosterone enanthate (500 mg) every 10 days thereafter. During one year, there were 858 periods of oestrus detected by herdsmen observation - using standing, mounting, mucous discharge and any combinations thereof and, or, the hormone-treated females. Of these, the herdsmen detected 94% compared with 51% by the hormone-treated females. The 6% not detected by the herdsmen were detected by the treated females only. Oestradiol-treated females detected oestrus in cows as effectively as testosterone-treated females.     

Sexual and aggessive behaviour of castrated male sheep after injection of gonadal steroids and implantation of androgens in the hypothalamus: A preliminary study

The combined effects of hypothalamic steroid implants and subcutaneous hormone injections on the courtship, copulatory and aggressive behaviour of five castrated male sheep (wethers) were assessed in thrice weekly tests with sexually receptive ewes. The animals were prepared with bilateral guide tubes for the insertion of removable hormone-containing cannulae aimed at the preoptic/anterior hypothalamic region of the brain. The sheep were treated as follows: weeks 1-4, cholesterol implants + oestradiol dipropionate injections; weeks 5-7, dihydrotestosterone propionate implants + oestradiol dipropionate injections; weeks 10-12, testosterone terone propionate implants + oil injections; weeks 13-15, testosterone propionate implants + dihydrotestosterone propionate injections. During peripheral treatment with oestradiol dipropionate (weeks 1-4), two of five sheep displayed ejaculatory reflexes in the absence of erection and intromission. Moreover, no obvious behavioural effects could be attributed to the additional presence of central dihydrotestosterone propionate implants (weeks 5-7). By contrast, testosterone propionate implants at the same central sites (weeks 10-12) maintained sexual behaviour in four of five sheep, induced mounting in the remaining animal and stimulated aggressive behaviour in all five sheep. Subsequently, additional peripheral treatment with dihydrotestosterone propionate (weeks 13-15) also stimulated three of the animals to exhibit penile erections.     

Sexual behavior and scent marking in male gerbils: comparison of changes after castration and testosterone replacement

This study compared changes in sexual behavior of male gerbils with changes in scent-marking frequency following castration and exposure to various doses of testosterone. Castration eliminated sexual activity in male gerbils. Injections of testosterone propionate (75 μg twice weekly) prevented this decrease. Larger (600 μg) injections of testosterone propionate or implantation of Silastic capsules of testosterone reinstated mating behavior. Sexual behavior showed a different pattern of changes than scent marking. Sexual behavior was maintained more effectively than scent marking by hormone injections, but scent marking was reinstated more readily than sexual behavior by the tonic hormone levels produced by Silastic implants.     

Effect of some antiestrogens and aromatase inhibitors on androgen induced sexual behavior in castrated male rats

The effect of antiestrogens (MER-25, ICI-46474, and cis-clomiphene) and aromatase inhibitors (5-α-androstanedione, metopirone, and aminoglutethimide) on androgen induced copulatory behavior was tested in sexually inexperienced castrated male tats. Daily injections of 1 mg testosterone (T) for 21 days induced sexual activity in most subjects (61% mounting). Daily pretreatment with MER-25 or cis-clomiphene at three dose levels did not block the behavioral response to T. ICI-46474 at the high dose level (1 mg/kg) elicited a significant depressory effect on the sexual behavior of the T treated castrated rats. A single injection of 6 mg testosterone propionate (TP) induced mounting behavior in 56% of the tested rats within 120 hr. Treatment with metopirone or 5 α-androstanedione (injections every 12 hr for 96 hr) did not inhibit the response to TP. By contrast, aminoglutethimide (5 or 15 mg every 12 hr for 96 hr) abolished the behavioral response to androgen.     

Testosterone implanted in the preoptic area of male Japanese quail must be aromatized to activate copulation

Intracranial implantation of minute pellets of gonadal steroids was combined with aromatase inhibitor treatment to determine if aromatization within the preoptic area (POA) is necessary for androgens to activate sexual behavior in the Japanese quail (Coturnix japonica). In this species, implantation of pellets of testosterone propionate (TP) or estradiol benzoate (EB) in the POA of castrated males restores male-typical copulatory behavior. In Experiment 1, adult male castrated quail were implanted intracranially with 200-micrograms pellets of equimolar mixtures of crystalline TP + cholesterol (CHOL), TP + 1,4,6-androstatriene-3,17-dione (ATD, an aromatase inhibitor), EB + ATD, or CHOL and behavior-tested with intact males and females. Copulation was stimulated by POA implants containing TP or EB (three of six CHOL + TP males and two of seven ATD + EB males copulated vs zero of four CHOL males), but copulation was not inhibited by combining ATD with TP (three of four ATD + TP males copulated). In Experiment 2, adult male castrated quail were injected systemically with ATD or oil for 6 days prior to and 14 days after intracranial implantation of 200-micrograms pellets containing the same amounts of TP or EB as in Experiment 1. The ATD injections completely blocked copulatory behavior in males with TP implants in the POA such that ATD/TP and Oil/TP mount frequencies differed significantly, but failed to block copulation in males with EB implants in the POA (proportions of males copulating were ATD/EB, 6/8; ATD/TP, 0/6; Oil/TP, 4/7). The cloacal foam gland, an androgen-sensitive secondary sex character, was unaffected by the dose of ATD used. We conclude that activation of copulatory behavior by TP implants in the POA is not due to nonspecific effects of high local testosterone concentrations but rather to aromatization. These results support the hypothesis that cells within the POA aromatize testosterone to estrogens, which directly stimulate the cellular processes leading to activation of male-typical copulatory behavior.     

Sexual behavior in male rats treated with estrogen in combination with dihydrotestosterone

Male rats castrated at 30 days of age were treated with estradiol benzoate (dose range: 0.05–50 μg EB for 26 days) and dihydrotestosterone (1 mg DHT for 36 days) as adults. The combined EB and DHT treatments resulted in display of male sexual behavior which did not differ from the behavior shown by intact untreated males or castrated, testosterone propionate (1 mg TP for 26 days) treated males. EB alone or DHT alone were relatively ineffective in activating male behavior in castrated males.     

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.     

L?ngerfristige Schwankungen in den Plasmaspiegeln von Testosteron und Dihydrotestosteron unter konstanter Testosterongabe beim Kanarienvogel (Serinus canaria)

Summary To assess the action of testosterone on the ontogenetic song development of canaries, silastic tubes containing testosterone propionate were implanted in 10 males at day 60. The implants were renewed at two week intervals until day 116. During the exogenous testosterone application the following time-related changes in the plasma titers were measured. The highest peaks of testosterone occurred 20 days after the first testosterone implantation. Between days 20 and 50 this concentration decreased drastically whereas DHT-concentration gradually reached a maximum. We assume that exogenous testosterone induces higher metabolic activity by converting the testosterone to DHT.     

Atherosclerosis in apolipoprotein E-deficient mice is decreased by the suppression of endogenous sex hormones.

To elucidate the influence of gonadotropins, endogenous sex hormones and testosterone on atherosclerosis, 4-week-old male and female apoE-deficient mice received either 100 microg subcutaneous injections of the gonadotropin-releasing hormone (GnRH) antagonist Cetrorelix every 48 hours or a subcutaneous implantation of a permeable silastic tube with 35 mg of testosterone. Control mice received either subcutaneous injections of saline, a silastic implant with saline, or no treatment. The animals were sacrificed after eight weeks of treatment; blood was obtained by cardiac puncture and the aorta was taken out and prepared. The suppression of testosterone led to an increase in atherosclerosis in both the sinus aortae and the ascending aorta despite increases of cholesterol in male and decreases of HDL cholesterol in female mice. Treatment with testosterone led to small but significant increases of cholesterol levels and atherosclerotic lesions in male mice. Female mice showed no change in lipids and fewer atherosclerotic lesions. In conclusion, the suppression of gonadotropins appears to have a moderate anti-atherogenic effect. The effect of testosterone appears to be either neutral or opposed by gonadotropins.     

Courtship and copulation in prepubertally castrated male sheep (wethers) treated with 17β-estradiol,aromatizable androgens,or dihydrotestosterone

Groups of sexually inexperienced adult Clun Forest sheep (four animals per group) which had been castrated on the day after birth received one of the following treatments: testosterone propionate (TP, 20 mg/day); estradiol dipropionate (ODP, 2 mg/day); 19-hydroxy-17, 19-dipropionate (19HTP, 20 mg/day); dihydrotestosterone propionate (DHTP, 20 mg/day); or arachis oil vehicle (OIL). Treatments were in the form of sc injections given 5 days/week over a 6-week period during which time individual animals were observed in 18 tests for sexual behavior. The stimulus females used were ovariectomized ewes maintained in a state of continuous receptivity by daily injections of 15 mg of TP. Various measures of sexual and aggressive behavior were recorded during each test. Mounting was induced mainly in animals in the TP group and to a lesser extent in those receiving ODP. The extent to which precopulatory courtship was induced followed the order TP > ODP > 19HTP. Animals treated with DHTP or OIL showed negligible sexual activity.     

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.     

Androgen control of male sex behavior in the crested newt (Triturus cristatus carnifex Laur.): Castration and sex steroid administration

Castration significantly lowers serum testosterone in sexually active male Triturus cristatus. Replacement therapy by implants of testosterone in silastic capsules elevates the serum testosterone level to higher values than normal. Sex behavior is depressed by castration and partially reinstated by replacement therapy with testosterone. 5α-dihydrotestosterone was the only testosterone metabolite showing some behavioral effectiveness in castrates; estradiol and 5β-dihydrotestosterone failed to elicit sex behavior.     

Effects of testosterone on the behavior of male cynomolgus monkeys (Macaca fascicularis)

To determine the threshold doses of testosterone propionate (TP) that cause clear-cut behavioral changes in the sexual behavior of castrated male cynomolgus monkeys, observations were made on three males during successive 5-week treatment periods while they received daily subcutaneous doses of 100 μg TP increasing in octaves to 25.6 mg TP. Males were tested with each of the same two ovariectomized, estrogen-treated females (6 pairs, 330 1-hr behavior tests). To mimic the diurnal plasma testosterone rhythm, TP injections were given at 1600 hr and blood samples were obtained at 0800 hr (141 samples). Male ejaculatory activity increased at the threshold dose of 200 μg TP per day giving plasma testosterone levels of 830 ng/100 ml, which is in the physiological range of 600–1600 ng/100 ml for intact males. This threshold dose was eight times higher than in rhesus monkeys on a dose per kilogram body weight basis. There was a further marked increase in ejaculatory performance at higher doses (6.4 to 25.6 mg) giving supraphysiological plasma levels of 4000–9000 ng/100 ml. There were individual differences in the behavioral changes occurring with TP treatment, and the female partner modulated the effects. These findings were generally similar to those obtained with male rhesus monkeys, but certain species differences were noted.     

Aromatase inhibition depresses ultrasound production and copulation in male hamsters

Rates of ultrasound production and copulatory behavior were observed in castrated male hamsters maintained on 100 micrograms/day of injected testosterone propionate (TP). Groups matched on their initial levels of behavior received either continued treatment with TP alone, or TP together with 6 mg/day injections of the aromatase inhibitor 1,4,6-androstatriene-3,17-dione (ATD). Testing at 11-15 days after the start of these treatments revealed deficits in the sexual behaviors of the subjects in the latter group. Specifically, these males showed lower rates of ultrasound production and intromission during, as opposed to before, treatment with ATD. These results support previous work suggesting that aromatization plays significant roles in the mediation of androgenic effects on both the courtship and copulatory behaviors of male hamsters.     

Bioavailability and LH-suppressing effect of different testosterone preparations in normal and hypogonadal men.

The therapeutic effectiveness of intramuscularly administered testosterone esters and free testosterone in suppositories was investigated by the measurement of plasma testosterone and LH levels after administration to normal and hypogonadal men. Testosterone levels were elevated above the lower physiological limit for 1 day after 25 mg testosterone one propionate, for 2 days after 50 mg testosterone propionate and for 14 days after 250 mg testosterone oenanthate. LH levels were suppressed for the corresponding periods. Elevated plasma testosterone and suppressed LH levels were maintained by testosterone suppositories (3 x 20 mg for 5 days).