Duration of estrogen stimulation and progesterone inhibition of maternal behavior in pregnancy-terminated rats

The duration of the effectiveness of estradiol benzoate (EB) on the latency to the onset of maternal behavior was measured in 16-day pregnant rats that were hysterectomized-ovariectomized (HO). Eight groups of HO animals were treated with either a single SC injection of 5 μg/kg of EB or oil at surgery and were initially presented with foster pups at either 24, 48, 72, or 96 hr postoperatively. Compared to their respective controls, EB-treated animals showed singificantly shorter latencies when testing began at 48 and 72 hr but not 24 or 96 hr. In the second experiment, 16-day HO rats were treated with 5 μg/kg of EB at surgery and either oil or 0.5 mg of progesterone at 0, 24, or 44 hr postoperatively. Additional groups received either progesterone or oil at surgery (instead of EB) and a second injection of oil 44 hr later. Testing began 48 hr following surgery for all groups, and the results showed that only the groups injected with EB alone or EB plus progesterone at 44 hr displayed short-latency maternal behavior. It was concluded that a significant reduction in the latency to the onset of maternal behavior can be obtained between 24 and 72 hr after EB treatment and that progesterone when injected concurrently or 24 hr later can inhibit the effectiveness of EB.     

Hormonal basis of hysterectomy-induced maternal behavior during pregnancy in the rat.

Hysterectomy during the last half of pregnancy (i.e., Day 10–19) induces a rapid onset of maternal behavior; ovariectomy in addition to hysterectomy, prevents this effect. Estradiol and progesterone were tested for their ability to restore short-latency maternal behavior in hysterectomized-ovariectomized (HO) females operated on the 10th, 13th, 16th and 19th days of pregnancy. A single injection of either 20 μg/kg or 100 μg/kg estradiol benzoate (EB) immediately following HO either alone or followed by 0.5 mg progesterone (P) 44 hr later restored short-latency maternal behavior similar to that observed following hysterectomy only. The lower dose of EB was found to be equally effective at all stages of pregnancy and P was unnecessary to induce maternal behavior. The effectiveness of EB in inducing maternal behavior was discussed in relation to the hormonal changes which follow hysterectomy during pregnancy and to those which are associated with the normal onset of maternal behavior around parturition.     

Progesterone inhibition of maternal behavior in the rat

The present series of experiments investigated the role of progesterone in inhibiting the onset of maternal behavior in the rat. Female rats hysterectomized and ovariectomized on Day 16 of pregnancy and injected subcutaneously with 20 μg/kg of estradiol benzoate (EB) show a short latency to onset of maternal behavior when presented with test pups 48 hr later. A subcutaneous injection of either 1 or 5 mg of progesterone on Day 16 of pregnancy and again 24 hr later inhibited this EB-induced short-latency onset of maternal behavior. The central neural site at which progesterone might act to produce this inhibitory effect was explored. Famale rats, hysterectomized and ovariectomized on Day 16 of pregnancy and injected subcutaneously with EB, received implants of crystalline progesterone on Day 16 of pregnancy into either the medial preoptic area, ventromedial hypothalamus, midbrain tegmentum, dorsal raphe nucleus, or median raphe nucleus. No inhibitory effects were found and all females showed a short-latency onset of maternal behavior. Several possible explanations for this lack of inhibitory effect of intracerebral implantation of progesterone are discussed.     

Sexual receptivity in hamsters: brain nuclear estrogen and cytosolic progestin receptors after single and multiple steroid treatments and during the estrous cycle

This series of experiments investigated the relationship between various treatments consisting of estradiol benzoate (EB) and progesterone (P) on sexual receptivity and on concentrations of nuclear estrogen receptors (NER) and cytosolic progestin receptors (CPR) in the hypothalamus-preoptic area in female hamsters. The injection of 1 microgram EB at 0 and 24 hr resulted in higher levels of receptivity (after 0.25 or 0.5 mg P), NER and CPR compared to those obtained after a single injection of 2 micrograms EB. Animals treated with 5 micrograms EB at 0 and 24 hr displayed greater levels of receptivity (after 0.5 mg P) and had higher NER concentrations than animals given a single injection of 10 micrograms EB. Groups treated with either 1 microgram EB at 0 hr or 0.5 microgram EB at 0 and 24 hr did not differ and showed low levels of receptivity, NER and CPR, NER and CPR were also measured on each day of the estrous cycle. NER levels rose between Days 1 and 2, again between Days 2 and 3, and remained elevated on Day 4. CPR levels increased between Days 2 and 3, and there was no difference between Days 3 and 4. Taken together, these data suggest that receptivity in hamsters after estrogen exposure is correlated with the accumulation and maintenance of relatively high NER levels and on the induction of CPR. This can be accomplished by a single large injection of EB or by smaller split doses.     

Inhibitory effects of various progestins and deoxycorticosterone on the rapid onset of maternal behavior induced by ovariectomy-hysterectomy during late pregnancy in rats.

The inhibitory effects of progesterone (P), 5 alpha-dihydroprogesterone (5 alpha-DHP), 17 alpha-hydroxyprogesterone (17-HP), and deoxycorticosterone (DOC) upon the rapid onset of maternal behavior induced during late pregnancy in primigravid rats by ovariectomy-hysterectomy (OH) were examined. Progesterone administration at a dosage of 5.0 mg oil vehicle daily (beginning on Day 17 and ending when the subject responded maternally to foster pups) significantly delayed by about 1.5 to 2.0 days the onset of maternal behavior. In contrast, P at dosages of either 1.0 or 2.5 mg daily, 5 alpha-DHP at 5.0 mg administered daily in either an oil or Tween-80 vehicle, 17-HP at 5.0 mg in oil daily, and DOC at dosages of either 5.0 or 10.0 mg in oil daily failed to effect the rapid onset of maternal behavior induced by ovariectomy-hysterectomy on Day 17 of pregnancy. These data suggest that during pregnancy the onset of maternal behavior is inhibited in a rather specific manner by progesterone.     

Hysterectomy facilitates proceptive behavior in rats

The effects of hysterectomy on proceptive behavior were investigated using several doses of estradiol benzoate (EB) and progesterone (P) in female rats. One week after surgery, ovariectomized (OV) and ovariectomized-hysterectomized (OH) rats were given three daily injections of 1.0 or 2.0 micrograms EB followed by 0.5 mg P or oil on the fourth day and were tested for solicitation 4 hr later. The same animals received 1.0 or 2.0 micrograms EB plus 0.1 mg P, or 4.0 micrograms EB plus oil on the same schedule a week following the first test and were tested again. Ovariectomized-hysterectomized animals receiving 0.5 mg P, regardless of the EB dose, showed significantly higher solicitation scores than OV animals, but the scores of the EB-primed OV and OH rats receiving 0.1 mg P or oil vehicle did not differ.     

Inhibitory actions of progesterone on hormonal induction of estrus in female guinea pigs.

Biphasic actions of progesterone (P) were studied in three groups of guinea pigs injected with 3 μg estradiol benzoate (EB) followed 36 hr later with either .05, 0.4, or 5.0 mg P. All animals in each group displayed estrous behavior within 5–7 hr after P. Groups differed, however, in their response to a second sequence of 3 μg EB and 0.4 mg P initiated 9 hr after the first or prior P. Percentages of females displaying estrous responses were 100, 50, and 0 in the .05, 0.4, and 5.0 mg groups, respectively.Radioimmunoassay of P at varying times after the first or prior injection showed that concentrations in the plasma declined to baseline within 9–18 hr for animals given prior injections of .05 mg P, within 36 hr for those given 0.4 mg P, and remained elevated throughout for 45 or more hr for those given 5.0 mg P.A second experiment showed that the inhibitory effect of 1.0 mg P given to spayed females without prior estrogenization (direct inhibition) was inversely related to the time elapsing between that injection and the initiation of a sequential regimen consisting of 6 μg EB and 0.4 mg P, and also demonstrated that 0.05, 0.1, 0.25, 0.5, or 1.0 mg P given 2 hr before the sequential regimen results in a dose-related inhibition. Thus, prior facilitation of lordosis is in no way essential for inhibition with exogenous P, and variables that regulate degree of biphasic inhibition also regulate direct inhibition.     

Cytosol and nuclear estrogen receptor binding in the preoptic area and hypothalamus of female rats during pregnancy and ovariectomized, nulliparous rats after steroid priming: correlation with maternal behavior

In a previous study, high nuclear estrogen receptor concentrations in the preoptic area (POA) were found on Day 16 of pregnancy to prime females to respond to a subsequent low dose of estradiol benzoate (EB) after hysterectomy-ovariectomy by exhibiting maternal behavior in 48 hr. Receptor concentrations in the POA were found to be higher than those in the hypothalamus (HYP). The present study investigated when nuclear estrogen receptors increase during pregnancy in POA and when the difference in receptor concentrations between POA and HYP occurs. An attempt was made to reproduce these pregnancy changes with a 16-day treatment of estrogen and progesterone in ovariectomized (OVX), nulliparous rats. In Experiment 1, we measured cytosol and nuclear estrogen receptor concentrations in the POA and HYP of female rats during pregnancy. Nuclear receptor concentrations in the POA increased beginning on Day 10, increased again on Day 16, and continued at this high level for the remainder of pregnancy. Nuclear estrogen receptor concentrations in the HYP remained at a lower level throughout most of pregnancy until Day 22 when they increased significantly. In Experiment 2, we tested the maternal behavior and measured estrogen receptor concentrations in OVX, steroid-primed, nulliparous rats after hysterectomy (H) and EB treatment. While 90% of estradiol (E) + progesterone (P)-primed females displayed short-latency maternal behavior 48 hr after H and EB treatment, 46% of E + vehicle (V)-treated controls were maternal. At 0 hr (prior to H and EB treatment), there was a significantly larger nuclear receptor accumulation in the POA but significantly attenuated receptor binding in the HYP. P treatment significantly affected cytosol and nuclear estrogen receptor dynamics. Differences in nuclear estrogen receptor concentrations were shown to be based on the number of available binding sites and not to changes in receptor affinity for estradiol.     

Effects of oestradiol and some of its esters on gonadotrophin release and ovarian follicular dynamics in CIDR-treated beef cattle

Three experiments were conducted to: (1) compare the effect of three oestradiol formulations on gonadotrophin release in ovariectomised cows; (2) compare the effects of either oestradiol-17beta (E-17beta) or oestradiol benzoate (EB), given at two doses, on the synchrony of ovarian follicular wave emergence in CIDR-treated beef cattle; and (3) determine the timing of ovulation of the dominant follicle of a synchronised follicular wave following administration of E-17beta or EB 24h after progesterone withdrawal. In Experiment 1, ovariectomised cows (n = 16) received a once-used CIDR on Day 0 (beginning of the experiment) and were allocated randomly to receive 5mg of E-17beta, EB or oestradiol valerate (EV) plus 100mg progesterone i.m. The CIDR inserts were removed on Day 7. There were effects of time, and a treatment-by-time interaction (P < 0.0001) for plasma concentrations of both oestradiol and FSH. Plasma oestradiol concentrations peaked 12h after treatment, with highest (P < 0.01) peak concentrations in cows given E-17beta; estradiol concentrations subsequently returned to baseline by 36 h in E-17beta-treated cows and by 96 h in EB- and EV-treated cows. Plasma FSH concentrations decreased by 12h after oestradiol treatment in all groups (P < 0.0001), reached a nadir at 24h, and increased by 60 h in all groups; plasma FSH reached higher (P < 0.02) concentrations in E-17beta-treated than in EB- or EV-treated cows. In Experiment 2, non-lactating Hereford cows (n = 29) received a new CIDR on Day 0 (beginning of the experiment), and were assigned randomly to receive 1 or 5mg of E-17beta or EB i.m. on Day 1. On Day 8, CIDR were removed and PGF was given. Transrectal ultrasonography was done once daily from 2 days before CIDR insertion to 2 days after CIDR removal, and then twice-daily to ovulation. Although there was no difference among groups in the interval from oestradiol treatment to follicular wave emergence (4.2 +/- 0.3 days; P = 0.5), 5mg of E-17beta resulted in the least variable interval to wave emergence (P < 0.005), compared with the other treatment groups which were not different (P = 0.1). For the interval from CIDR removal to ovulation, there were no differences among groups for either means (P = 0.5) or variances (P = 0.1). In Experiment 3, beef heifers (n = 32) received a once-used CIDR on Day 0 (beginning of the experiment) plus 100mg progesterone i.m. and were assigned randomly to receive 5mg E-17beta or 1mg EB i.m. On Day 7, CIDR were removed and all heifers received PGF. On Day 8 (24h after CIDR removal), each group was subdivided randomly to receive 1mg of either E-17beta or EB i.m. There was no effect of oestradiol formulation on interval from treatment to follicular wave emergence (4.1 +/- 0.2 days; P = 0.7) or on the median interval (76.6h; P = 0.7) or range (72-120 h; P = 0.08) from CIDR removal to ovulation. In summary, oestradiol treatments suppressed FSH in ovariectomised cows, with the duration of suppression dependent on the oestradiol formulation. Both E-17beta and EB effectively synchronised ovarian follicular wave emergence and ovulation in CIDR-treated cattle, and the interval from CIDR removal to ovulation did not differ in heifers given either E-17beta or EB 24h after CIDR removal.     

Effects of estradiol cypionate (ECP) on ovarian follicular dynamics,synchrony of ovulation,and fertility in CIDR-based,fixed-time AI programs in beef heifers

Estradiol cypionate (ECP) was used in beef heifers receiving a controlled internal drug release (CIDR; insertion = Day 0) device for fixed-time AI (FTAI) in four experiments. In Experiment 1, heifers (n = 24) received 1mg ECP or 1mg ECP plus 50mg commercial progesterone (CP) preparation i.m. on Day 0. Eight or 9 days later, CIDR were removed, PGF was administered and heifers were allocated to receive 0.5mg ECP i.m. concurrently (ECP0) or 24h later (ECP24). There was no effect of treatment (P = 0.6) on mean (+/-S.E.M.) day of follicular wave emergence (3.9+/-0.4 days). Interval from CIDR removal to ovulation was affected (P<0.05) only by duration of CIDR treatment (88.3+/-3.8h versus 76.4+/-4.1h; 8 days versus 9 days, respectively). In Experiment 2, 58 heifers received 100mg progesterone and either 5mg estradiol-17beta or 1mg ECP i.m. (E-17beta and ECP groups, respectively) on Day 0. Seven (E-17beta group) or 9 days (ECP group) later, CIDR were removed, PGF was administered and heifers received ECP (as in Experiment 1) or 1mg EB 24h after CIDR removal, with FTAI 58-60h after CIDR removal. Follicular wave emergence was later (P<0.02) and more variable (P<0.002) in heifers given ECP than in those given E-17beta (4.1+/-0.4 days versus 3.3+/-0.1 days), but pregnancy rate was unaffected (overall, 69%; P = 0.2). In Experiment 3, 30 heifers received a CIDR device and 5mg E-17beta, with or without 100mg progesterone (P) i.m. on Day 0. On Day 7, CIDR were removed and heifers received ECP as described in Experiment 1 or no estradiol (Control). Intervals from CIDR removal to ovulation were shorter (P<0.05) in ECP0 (81.6+/-5.0h) and ECP24 (86.4+/-3.5h) groups than in the Control group (98.4+/-5.6h). In Experiment 4, heifers (n = 300) received a CIDR device, E-17beta, P, and PGF (as in Experiment 3) and after CIDR removal were allocated to three groups (as in Experiment 2), with FTAI 54-56h (ECP0) or 56-58h (ECP24 and EB24) after CIDR removal. Pregnancy rate did not differ among groups (overall, 63.6%, P = 0.96). In summary, although 1mg ECP (with or without progesterone) was less efficacious than 5mg E-17beta plus 100mg progesterone for synchronizing follicular wave emergence, 0.5mg ECP (at CIDR removal or 24h later) induced a synchronous ovulation with an acceptable pregnancy rate to fixed-time AI.     

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.     

Estrogen and progesterone interactions influencing sexual and social behavior in the brown lemming, Lemmus trimucronatus.

The effects of estrogen and progesterone on the social and sexual behavior of brown lemmings, Lemmus trimucronatus, were investigated. The behavior of hormone-treated and untreated ovariectomized females and sexually vigorous males was observed in six consecutive daily 5-min dyadic encounters. Sexual receptivity, as measured by lordosis, and other social behaviors including nasonasal contact, boxing postures, allogrooming, perineal investigation, and male mounting increased following 48 hr of exposure to daily injections of 0.5 μg estradiol benzoate (EB). Lordosis in EB-primed females was not facilitated or inhibited by short-term (4 hr) exposure to 0.5 mg progesterone (P). Long-term (greater than 24 hr) exposure to P apparently inhibited lordosis and other social behaviors in EB-treated females, although males continued to attempt to mount these females. In EB-treated females a dramatic increase in threat-leaps, directed by the female toward the male, was observed within 4 hr of P injection. Threat-leaps declined when P was withdrawn. Threat-leaps were also observed in ovariectomized females after prolonged exposure to P only (0.5 mg/day). Vaginal perforation and cornification were first apparent 48 hr after EB injection. P-alone treated ovariectomized females also showed vaginal perforation but cornified cells were infrequent and these animals did not show lordosis.     

Comparison of some CNS effects of luteinizing hormone-releasing hormone and progesterone

Luteinizing hormone-releasing hormone (LHRH) has been reported to facilitate lordotic behavior in estrogen-primed ovariectomized (OVX) female rats in a manner similar to progesterone (P). This study compared P and LHRH with respect to their behavioral effects and site of action within the brain. The hormones were compared using two different components of sexual behavior, receptivity and proceptivity. To test for receptivity, OVX females were given behaviorally ineffective estradiol benzoate (EB) injections sc 48 hr before testing. They were then treated with either P, LHRH, or vehicle by various routes. Two and/or four hours later, receptivity (LQ) was measured. Treatments for the proceptivity test were similar except that a larger EP-priming dose, which facilitates preceptive behavior, was used. Four hours later, LQ and hopping, darting, and earwiggling were scored. In the receptivity test, sc administration of 1 mg P or 1 μg LHRH (but not 0.5 or 5.0 μg) significantly elevated LQ with respect to vehicle injection 4 hr after treatment. In the proceptivity test, 0.5, 1.0, and 5.0 μg of LHRH given sc failed to alter significantly either LQ or soliciting behavior. Progesterone facilitated both parameters. Implantation of crystalline P into the midbrain reticular formation (MRF) has been shown to elicit both the receptive and preceptive effects of the steroid. Microinjection of as much as 100 ng of LHRH in 1.0 μl saline into the same region failed to enhance lordotic behavior compared to saline injection alone, while a 200-ng intracerebroventricular dose significantly facilitated lordosis at 4 hr. The data indicate that LHRH does not induce proceptive behavior. The effects of peripherally administered LHRH on receptive behavior are similar but less pronounced than those of P. The two hormones elicit this effect from different sites in the brain.     

Prepartum onset of maternal behavior in hamsters and the effects of estrogen and progesterone.

The onset of maternal behavior in pregnant hamsters was measured by presenting foster pups at 0900 and 2100 hr on Day 15 and at 0300, 0500, and 0700 hr on Day 16 and then at hourly intervals until parturition began. The occurrence of parturition was determined at each maternal test and at 0.5 hr intervals beginning at 0700 hr on Day 16. Nulliparous and primiparous animals became maternal at approximately the same time on Day 16, 2 and 6 hr prepartum, respectively, demonstrating that parturition is not essential for maternal behavior. The second experiment showed that nulliparous females injected with either 1 μg or 10 μgm estradiol-17β (E₂), 0.1 mgm progesterone (P), 10 μgm E₂ plus 0.1 mgm P, or oil at 1200 hr on Day 15 became maternal at the same time of day (0800–1000 hr) while parturition was delayed 8 hr in females receiving P. The results suggest a dissociation between the regulation of parturition and maternal care and are compared to previous research into the hormonal basis of maternal behavior in rats.     

The role of the uterus in regulation of heat duration in cycling rats

These experiments examined the effects of hysterectomy on heat duration and on the reinduction of estrous behavior by progesterone (P) following the termination of spontaneous heat in 4-day cycling rats. Hysterectomy did not affect the onset of estrus but prolonged heat duration. The average duration of sexual receptivity for hysterectomized (H) and sham-hysterectomized (SH) rats was 18.2 and 13.0 hr, respectively. Furthermore, H animals injected with either 0.5 mg P within 2 hr, or 4.0 mg P 24 hr following the termination of natural estrus showed significantly higher lordosis and solicitation responses than SH rats similarly treated. These behavioral findings were correlated with the level of hypothalamic progestin receptors. That is, H animals had a significantly higher concentration of progestin receptors than SH rats immediately following the termination of spontaneous heat and also 24 hr later. Both in estrous-cycling rats and in gonadectomized animals treated with estradiol benzoate (EB), hysterectomy resulted in higher serum estradiol (E2) levels. The results of these experiments suggest that prolongation of the period of sexual receptivity and the facilitated behavioral responses to P following the cessation of estrus in hysterectomized animals may be due to a lowered clearance rate of circulating estradiol which presumably enhances the estrogen conditioning of the neural substrates.     

Differential sensitivity of mounting and lordosis control systems to early androgen treatment in male and female hamsters.

The effects of early testosterone propionate (TP) treatment on the adult sexual behavior of hamsters were investigated in two experiments. In Expt. I, male and female pups were injected with oil vehicle or 1, 5, 10, 50, 100, or 250 μg of TP 24 hr after birth. In Expt. II, males and females received either oil or 10 μg of TP on the day of birth (Day 1), Day 3, Day 5, Day 7, or Day 9. At 70 days of age all animals were gonadectomized and 10 days later tested for lordosis behavior after estrogen and progesterone priming. One week after the test for female behavior all females began receiving 500 μg of TP each day and were tested for mounting and intromission behavior three times at 10 day intervals. Lordosis behavior was inhibited by as little as 5 μg of TP given 24 hr after birth. In males this dose produced the maximal effect, but in females increasing dosages resulted in a proportional decrease in lordosis duration. One μg of TP neonatally facilitated later mounting and intromission behavior in females and 250 μg of TP was no more effective than 1 μg. Lordosis duration was inhibited in females by 10 μg of TP on either Day 1 or 3, however, mounts and intromissions were facilitated by TP treatment on Day 1, 3, 5 or 7. These experiments demonstrate that the mechanisms mediating masculine behavior are more sensitive to neonatal TP treatment than are the mechanisms mediating lordosis behavior.     

Regulation of estrogen-stimulated lordosis behavior and hypothalamic progestin receptor induction by antiestrogens in female rats

Two estrogen antagonists, CI-628 (CI) and tamoxifen (TX), were used to examine the relationship between estrogen priming of lordosis behavior and progestin receptor induction in the hypothalamus-preoptic area (HPOA) of ovariectomized female rats. Lordosis behavior was assessed by measuring lordosis quotients (LQ) in response to injection of 2 micrograms of estradiol benzoate (EB) followed 48 hr later by 500 micrograms of progesterone (P). Behavior testing began 4 hr after P injection. The effects of antiestrogens were assessed by injecting CI and TX (1-2 mg) from 0 to 48 hr prior to EB. Levels of cytosol progestin receptor in the HPOA were determined by quantifying the specific binding of 0.5 nM [3H]R5020 to cytosols from animals receiving the same EB and antiestrogen treatments used in behavioral testing. TX given concurrently with or CI given 2 hr before EB abolished both lordosis behavior and induction of HPOA progestin receptors. In contrast, CI given 12 hr prior to EB abolished lordosis but permitted a 95% elevation in the concentration of progestin binding sites in the HPOA. TX or CI given 48 hr before EB resulted in moderate levels of lordosis (mean LQs from 56 to 69) and induction of HPOA progestin receptors from 85 to 130% above noninjected controls. However, CI given 24 hr prior to EB produced less than a 40% increase in brain R5020 binding even though lordosis behavior was equivalent to that seen in the 48-hr animals (mean LQ = 53). These data indicate that the effects of antiestrogens on female sexual behavior and on the synthesis of brain progestin receptors depend on which antiestrogen is used and the time interval between administration of estrogen and antiestrogen. They also demonstrate that under some conditions estrogen induction of cytosol progestin receptors in the HPOA can be dissociated from estrogen priming of lordosis behavior in rats.     

Estradiol benzoate given 0 or 24 h after the end of a progestagen treatment in postpartum suckled beef cows

The objective of Experiment 1 was to compare the effects of estradiol benzoate (EB) given 0 or 24h after the end of a progestagen treatment on ovulation and CL formation in anestrous cows. Twenty cows were treated with an intravaginal sponge containing 250 mg of medroxiprogesterone acetate (MPA). At sponge insertion, each cow received 3 mg EB and 10 mg MPA im. At device removal, cows received 0.7 mg EB either at that time (EB0) or 24h later (EB24). Ultrasound examinations and blood sampling to determine plasma progesterone concentrations were performed to detect ovulation and CL formation. Ovulation occurred in 77.8 and 81.8% cows in the EB0 and EB24 groups, respectively. Diameter of the ovulatory follicle (EB0 = 10.9 +/- 0.5mm; EB24 = 12.1 +/- 0.8 mm; P = 0.26) and the interval from sponge removal to ovulation (median = 3 days; P = 0.64) did not differ between treatments. Among the cows that ovulated (n = 16), short-lived CL were present in 2/7 and 2/9 cows in the EB0 and EB24 groups, respectively. Plasma progesterone concentrations and CL area did not differ between treatments (P > 0.05). In Experiment 2, cows were treated with the same protocol as in Experiment 1, but at sponge withdrawal all cows received 250 microg cloprostenol and timed artificial insemination (TAI) was performed 48 h after sponge removal. In Replicate 1 (n = 204 multiparous cows), pregnancy rates were 45.0 and 47.5% for EB0 and EB24, respectively (P > 0.05). In Replicate 2 (n = 69 primiparous cows) pregnancy rate did not differ between EB0 and EB24 (51.4% versus 52.9%). In conclusion, EB given 0 or 24h after the end of a progestagen treatment had the same effect on ovulation rate, time to ovulation, diameter of the ovulatory follicle, incidence of short-lived CL, luteal tissue area, and plasma progesterone concentrations of normal lifespan CL, and pregnancy rate after TAI in suckled beef cows.     

Estradiol production by preimplantation blastocysts and increased serum progesterone following estradiol treatment in llamas

Estradiol is a potential candidate for the blastocyst signal responsible for maternal recognition of pregnancy in the llama (Lama glama). Two experiments were conducted to determine if the llama blastocyst produces estradiol during the presumed period of maternal recognition of pregnancy and if exogenous estradiol can extend the luteal phase. In Experiment 1, llamas were superovulated with eCG and mated 7 days later (Day 0=day of mating). Blastocysts were collected nonsurgically on Days 7, 9, or 11 or at necropsy on Days 13 and 15 post-mating and cultured for 48h. Conditioned medium was recovered, replaced with fresh medium at 24-h intervals, and assayed for estradiol-17beta. Estradiol production (pg/blastocyst) over the 48-h culture increased (P<0.05) by day of gestation where more estradiol (P<0.05) was produced by Day 11 compared to Day 7 blastocysts, Day 13 compared to Days 7-11 blastocysts, and Day 15 compared to Days 7-13 blastocysts. A dramatic increase was observed between Days 11 and 13 when estradiol production by Day 13 blastocysts increased (P<0.05) more than 50-fold. In Experiment 2, 30 females were induced to ovulate with hCG (Day 0=day of hCG injection). Starting on Day 7 and continuing through Day 15, animals received daily injections i.m. of 0 (n=11), 5 (n=7), or 10mg (n=12) estradiol benzoate (EB) dissolved in isopropylmyristate. Sera were collected immediately prior to each injection and on Days 16, 17, 18, 20, and 22 and analyzed for progesterone. Progesterone concentrations were greater (P<0.05) on Days 14, 15, 16, and 17 in llamas treated with 10mg EB compared to llamas treated with 0mg EB. These results demonstrate that llama blastocysts produce estradiol and exogenous estradiol can enhance and transiently extend luteal progesterone production. Estradiol produced by the preimplantation llama blastocyst may play a role in maternal recognition of pregnancy and early luteal support.     

Progesterone secretion by induced corpora lutea (CL) of anestrous bitches after administration of gonadotropin-releasing hormone (GnRH) and human chorionic gonadotropin (HOG)

Sixteen bitches were treated with pregnant mare serum gonadotropin (PMSG; 44 IU/kg bwt) intramuscularly (i.m.) for nine consecutive days and each was given 500 IU HOG i.m. on the tenth day or on the first day of induced estrus (Day 0). On Day 12, each bitch was randomly assigned to three groups and treated as follows: Group 1-six bitches, each given 10 mcg GnRH i.m.once every 24 hr; Group 2-six bitches, each given 500 IU HOG i.m. once every 24 hr; and Group 3-four bitches, each given 5 ml 0.9% saline i.m. once every 24 hr. Treatments were continued until Day 55. Blood samples were obtained prior to treatment and every other day until Day 55. Plasma progesterone concentrations were determined by radioimmunoassay (RIA) and data arranged using a split-plot design, with treatment as the main plot and days of sampling as subplots. Analysis of data was by Duncan's Multiple Range Test and treatment-by-day interaction determined by the least-squares method. After treatment, progesterone concentrations from Group 2 were higher (P<0.05) than those of the other groups. A significant effect was seen on Day 20 (P<0.01), while on Day 50 the difference approached significance. These findings suggest that HOG is capable of stimulating the production of progesterone by induced CL in the bitch. However, neither HOG nor GnRH prevented premature regression of these induced CL. Results of this study suggest that premature luteolysis of induced CL is probably not due to lack of gonadotrophic support from either the hypothalamus or the anterior pituitary gland.