Effect of various ACTH analogs on lordosis behavior in the female rat

The effect of ACTH and various related analogs on lordosis behavior in female rats was compared with that produced by α-MSH. Ovariectomized rats received 2 μg estradiol benzoate on Day 1 and Day 3 either 0.1 or 0.2 mg progesterone. Four hours later the females were placed with sexually experienced male rats and the lordosis quotient (LQ) noted. These particular doses of progesterone were chosen because they were sub-maximal and produced a proportion of both nonreceptive (LQ less than 50%) and receptive (LQ greater than 50%) rats. Treatment with 20 μg α-MSH on Day 2 stimulated lordosis in nonreceptive rats but inhibited lordosis in the receptive rats.Of the other peptides tested only ACTH4–10 was as effective as α-MSH in facilitating and inhibiting lordosis behavior. ACTH1–24 and ACTH4–9 also produced both effects. ACTH1–39 and ACTH1–16, on the other hand, had neither effect but were both effective in stimulating and inhibiting lordosis when administered on Days 1, 2 and 3. It is suggested that ACTH4–10 may contain the essential sequence for these facilitatory and inhibitory effects on female sexual receptivity and that elongation of the peptide chain beyond ACTH 1–13 (α-MSH) may decrease this activity.     

Progesterone facilitation of lordosis in male and female Sprague-Dawley rats following priming with estradiol pulses

Adult male Sprague-Dawley rats rarely exhibit progesterone-facilitated lordosis following steroid treatments which are effective in females. In contrast, progesterone-facilitated lordosis has been observed following priming with estradiol pulses in another strain. The aim of this study was to compare progesterone-facilitated feminine sexual behavior in adult male and female Sprague-Dawley rats following priming with estradiol benzoate (EB) or estradiol pulses. Female sexual behavior was measured in adult, gonadectomized males and females treated as follows: Two pulses of estradiol followed by progesterone or oil the next day; EB (two doses) for 3 days, and progesterone or oil the next day. These protocols were repeated at 4- or 6-day intervals, respectively. Progesterone-facilitated lordosis was observed consistently in both sexes treated with estradiol pulses. By the fifth test, lordosis quotients did not differ between the sexes, but the lordosis ratings in progesterone-treated males remained lower than those observed in females. Proceptivity (hop-darting) was facilitated by progesterone in females, but was never observed in males. Lordosis was induced in both sexes by 15 micrograms EB, but was not reliably facilitated by progesterone. Treatment with the lower dose of EB (1.5 micrograms) induced high levels of receptivity in females (occasionally facilitated by progesterone), but not in males regardless of subsequent treatment (i.e, progesterone or oil). These data suggest that progesterone-facilitated lordosis can be induced in male Sprague-Dawley rats, if a regimen of estradiol pulses is used. Thus, the brain of the adult male is not inflexibly differentiated with regard to progesterone facilitation of feminine receptive behavior.     

Sexual receptivity in aged female rats : Behavioral evidence for increased sensitivity to estrogen

Lordosis behavior and behavioral patterns indicative of sexual receptivity or nonreceptivity were evaluated in 3- and 25-month-old female rats. Intact, 25-month-old females revealing a pattern of prolonged vaginal cornification (PVC) were highly receptive, whereas 25-month-old pseudopregnant (PL) females were nonreceptive. These measures did not differ as a result of previous sexual experience (i.e., sexually naive vs retired breeders). Following ovariectomy, sexual behavior persisted significantly longer in 25-month-old PVC females than in 3-month-old females ovariectomized during vaginal proestrus. No difference was observed in the rate at which the vaginal smears of 25-month-old PVC and young ovariectomized females became leukocytic. When tested 5, 19, and 20 days after ovariectomy, sexual behavior was absent in all females. Following treatment with estradiol benzoate (0.5 or 1.0 μg/kg), the latency for the reappearance of sexual behavior in 25-month-old females was significantly shorter than that in similarly treated 3-month-old females. This was the case regardless of prior ovarian condition (PVC or PL) and breeding experience. In addition, the mean lordosis quotient (LQ) of 25-month-old females receiving either dose of EB was significantly greater than that of similarly treated 3-month-old females on at least 5 days of a 10-day treatment period. These results are discussed in terms of possible age-related changes in central and peripheral estrogen metabolism.     

A re-examination of the lordosis response in female rats given high doses of testosterone propionate or estradiol benzoate in the neonatal period

High lordosis quotients (LQ) were observed when female Wistar rats injected with 1.25 mgm of testosterone propionate (TP) on Day 4 of postnatal life were tested as intact adults. The high LQ was not due to testing during the lights-on period, the age at which the females were tested, the use of a strain that was insensitive to the masculinizing action of TP or estradiol benzoate (EB), the age at which the females were injected with TP or EB, or an abnormal response to estrogen. High LQ values were found in similar tests on adult female rats of two other strains injected with 1.25 mgm TP on Day 4 of life. A marked reduction of the facilitatory action of progesterone on receptivity in estrogen-primed animals was demonstrated in the females of all three strains treated with TP or EB during the neonatal period and for males after castration as adults.Analysis of the experimental records of the mating tests showed that females anovulatory following TP or EB administration during the neonatal period and tested either intact and under the influence of endogenous hormones or under the influence of exogenous estrogen showed a rapid and highly significant increase in receptivity during the course of prolonged (20 min) tests with two or three active stimulus males. This effect was very much reduced if the treated females were under the influence of exogenous estrogen plus progesterone. The effect was not seen in males castrated as adults and treated with estrogen, or in females not treated with steroids in the neonatal period and tested intact at proestrus alone or under the influence of exogenous steroids after ovariectomy. A significant increase in LQ during the test period was observed in females of the Wistar strain which were anovulatory as a result of exposure to constant light and were tested intact without any exogenous hormone being administered.It is suggested that although tests involving a limited number of mounts or attempts to mount at low rates over a short period of time may be adequate to determine the degree of receptivity of normal female rats they are not adequate to establish the capacity of female rats treated with steroid hormones during the neonatal period to display the lordosis response.     

Effects of progesterone implants in the habenula and midbrain on proceptive and receptive behavior in the female rat

Two brain areas behaviorally responsive to progesterone (P) were examined to determine their possible involvement in the control of rat preceptive behavior, i.e., solicitation behavior directed at the male. Progesterone implants were placed in the habenular nuclei and the interpeduncular nucleus-ventral tegmental area of the midbrain reticular formation (MRF). Different testing procedures and levels of priming with estradiol benzoate (EB) were used in order to distinguish the effects of P in either region on proceptive and receptive behavior during exposure to 10 mounts by stimulus males. To test for receptivity, sexually experienced 60-day-old ovariectomized (ovx) rats bearing stereotaxically placed guide cannulas extending to the habenula or MRF were given 10 μg EB subcutaneously. Forty-eight hours later, lordosis quotient (LQ) was determined. Immediately following this test, each animal was implanted with cholesterol (C) or P and was retested 2 hr later. Treatments for the proceptivity test were similar except that the animals received 2.5 μg EB/100 g body wt sc for 7 days before testing on the eighth day; LQ as well as hopping, darting, and ear wiggling were scored. In the receptivity test, P implantation in both the medial portions of the habenula and the MRF significantly increased lordosis above the levels found both in their preimplantation tests and following control implantation of C. Little proceptivity was observed. In the proceptivity test, P implants in both regions also significantly increased proceptive behavior above both types of control tests. All animals were highly receptive, and there was no difference in LQ among the groups. There was no increase of plasma P levels in similarly implanted animals during a 24-hr monitoring period, indicating that systemic leakage of the hormone was not responsible for the observed behavior. The data indicate that both the habenula and MRF are P-sensitive regions. Progesterone's action on the two areas facilitates expression of both proceptive and receptive components of female sexual behavior, indicating that the neural regulation of the two kinds of behavior is integrated at these levels.     

Facilitation of receptive behavior in estrogen-primed female rats by the anti-progestin, RU 486

The progestin receptor antagonist RU 38486 (henceforth referred to as RU 486) was tested for facilitative effects on female receptive behavior in ovariectomized Long-Evans rats primed with 2 micrograms estradiol benzoate (EB). RU 486 (0, 0.5, 1.6, or 5.0 mg) was administered 48 hr after estrogen priming. The lordosis quotient (LQ) and lordosis score (LS) were assessed 4 hr after RU 486 administration in a standardized test consisting of a 10-mount test by a stimulus male. A significant dose effect was found by both LQ and LS, with those subjects receiving 5 mg of RU 486 being significantly more receptive than vehicle control animals. Thus RU 486 acted as a weak progestin agonist under testing conditions typical for assessment of progestin facilitation of female sexual behavior in rats. Low levels of proceptive behavior (hops and darts) were seen in a minority of the tests, and did not vary systematically as a function of the dose of RU 486 administered. We also examined the effects of RU 486 given before progesterone (P) on receptivity in a blocking paradigm and confirmed previous reports that the antagonist significantly attenuates facilitation of sexual behavior when given in combination with P. A progestin receptor assay of the cytosols of the hypothalamus-preoptic area in estrogen-primed female rats treated with 5 mg RU 486 revealed a significantly greater depletion of available cytosolic P receptors than when rats were treated with a similarly facilitating dose of P (100 micrograms). The results suggest a possible dual mode of action for RU 486--a weak, receptor-mediated agonistic effect on sexual behavior when given alone to estrogen-primed rats, and a competitive blocking effect on receptivity when administered with P.     

A contributory role for midbrain progesterone in the facilitation of female sexual behavior in rats

Progesterone (P) facilitation of sexual receptivity in rodents has been achieved by intracranial administration to the ventral hypothalamus; the preoptic area; and midbrain areas such as central gray, mesencephalic reticular formation, and ventral tegmental nucleus. In our laboratory, by far the most effective site in rats has been the ventromedial nucleus of the hypothalamus (VMN). However, several reports of sensitivity to P in the midbrain of rats and other rodent species led us to investigate whether stimulation of the ventral midbrain of female rats might contribute to facilitation of sexual receptivity. Ovariectomized Long-Evans rats received one cannula aimed at the VMN, and another aimed at the contralateral ventral mesencephalon. P in both cannulae, following a priming dose of estradiol, caused significantly higher lordosis quotients (LQ) than blank tubes. Controls with bilateral cannulae in the VMN responded when both tubes were filled with P, but did not respond to unilateral VMN P stimulation. P in the VMN and contralateral anterior preoptic area did not result in a greater degree of receptivity than did the empty tubes. These studies indicate that although progesterone stimulation in the midbrain alone is not sufficient to facilitate receptivity in female rats with our methods, the midbrain may play an auxiliary role. P implants in the midbrain appear to facilitate receptivity in the case of VMN implant treatments that are subthreshold for stimulating lordosis. The results are discussed in light of similar studies in other rodent species, and in the context that more than one brain site may be important in the natural stimulation of sexual receptivity by gonadal hormones.     

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.     

Independence of the differentiation of masculine and feminine sexual behavior in rats.

Male rats received Silastic implants of the aromatase inhibitor, 1,4,6-androstatriene-3, 17-dione (ATD), on days 2–10 of life. Controls received blank implants. There were no differences in the masculine sexual behavior of ATD and control males when they were tested as gonadally intact adults. In contrast, even without exogenous hormone treatment, nine of 14 ATD males exhibited lordosis behavior, whereas only one of 12 controls did so. In addition, during a sexual preference test in which access was provided to both a sexually receptive female and to a stud male, there was no difference in the proportions of ATD ($\text{11}\text{14}$) and control ($\text{7}\text{12}$) males that copulated with the stimulus female; however, seven of the ATD males also exhibited feminine sexual behavior including some instances of solicitation. Only one of the control males showed any lordosis behavior. In general, all animals spent more time with the stimulus female than with the stud male. At the termination of preference testing, all animals were castrated and then tested twice for feminine sexual behavior under exogenous estradiol benzoate and progesterone. All of the ATD males showed lordosis behavior with a mean lordosis quotient (LQ) of 85; and 11 of the 14 also showed solicitation behavior. Only five of 12 control males exhibited lordosis ($\text{X}\text{?}\text{LQ}\text{= 59}$) and only one showed solicitation behavior. These results indicate that the propensity of males to show feminine sexual behavior can be manipulated independently of the capacity for masculine sexual behavior. Moreover, our results suggest that the process of defeminization may occur primarily postnatally in rats since treatment during that period results in substantial increments in later feminine sexual behavior including solicitation behaviors.     

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.     

Reproductive function and sexual behaviour in female rats exposed to immobilization stress or ACTH injections during gestation

Pregnant primiparous rats were exposed to low immobilization stress or ACTH injections (one unit) throughout pregnancy. We measured the following parameters in the female offsprings: puberty (vaginal opening and first oestrous), oestrous cycle and sexual behaviour. Compared to the controls, female sexual receptivity measured by means of lordosis and the lordosis quotient (LQ) increased in both the experimental groups, but the puberty parameters of the offspring did not alter.     

Hormonal Modulation of the Cutaneous Initiation of Lordosis in Infant and Adult Rats

The purpose of these experiments is to compare the regional specificity (Experiment 1) and the hormonal modulation (Experiment 2) of the cutaneous initiation of lordosis in 4- to 6-day-old male and female rats (infants) and in 60- to 90-day-old female rats (adults). In Experiment 1, subjects were primed with 100 μg estradiol benzoate (EB) and 0.5 mg progesterone (P) and were denervated on the Waist (dermatomes L1-L3), Midriff (dermatomes T10-L3), Flanks (dermatomes L4-L6), or Sides (dermatomes T10-L6). In infants, there were no significant differences between males and females. Denervation of the Waist. Midriff, or Sides but not of the Flanks significantly decreased the percentage of subjects displaying lordosis, lordosis quotient (LQ), and mean lordosis duration; no significant differences were obtained among Waist-, Midriff-, or Sides-denervated infants. In contrast, denervation of the Sides but not of the Waist significantly decreased LQ and mean lordosis intensity among adults. In Experiment 2, Waist-denervated infants and their surgical Controls were treated either with 100 μg EB and 0.5 mg P or with the oil vehicle; Waist-denervated adults and their surgical Controls received either 100 or 10 μg EB (no P). Regardless of hormone treatment, denervation of the Waist significantly decreased LQ and lordosis duration in infants and decreased LQ and lordosis intensity in adults. In infants, the only effect of priming with EB and P was to increase the percentage of pups showing lordosis and lordosis duration among the surgical Controls. In contrast, priming with 100 μg EB significantly increased the percentage of rats displaying lordosis, LQ, and lordosis intensity among Waist-denervated adults. These data suggest that cutaneous input from the Waist is important for eliciting lordosis in both infant and adult rats, and that the importance of this input is modulated by hormone priming in adult but not infant rats.     

Effects of the antiestrogens,MER-25 and CI 628, on rat and hamster lordosis

Antiestrogens were used to test the hypothesis that estrogen exerts a “maintenance,” as well as a “priming,” effect on rat and hamster sexual receptivity as it apparently does for guinea pigs. MER-25 (75 or 150 mg/kg) significantly reduced rat LQ when given ?2 hr or 8 hr after EB injection. MER-25 given at 34 hr (2 hr prior to P) failed to diminish rat LQ. With hamsters, MER-25 in large doses (750 mg/kg) given either at ?2 hr or 34 hr reduced lordosis duration to 40% of controls, but this effect was confounded by severe illness among the MER-25 injected animals. Lower doses failed to block behavior, but still produced some toxicity. CI 628 (50 mg/kg) greatly reduced hamster lordosis duration and increased lordosis latency when given 0 hr, but not 34 hr, after EB. The results are consistent with similar previous work on rats and do not support the concept of estrogen “maintenance” in either rats or hamsters.     

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.     

Neuronal responsiveness to gonadotropin-releasing hormone and its correlation with sexual receptivity in the rat

In the present study, an attempt was made to correlate the neuronal responsiveness of individual preoptic-septal (POA/S) units to iontophoretically applied GnRH with the onset of sexual receptivity. In both behavioral and electrophysiological studies, ovariectomized, estrogen-primed rats were used. In behaviorally tested rats, lordosis quotients (LQ) were determined at varying times following progesterone (P) injection. For electrophysiological studies, P was given 1 hr after the start of recording. GnRH was iontophoretically applied for 30 sec at 16 nA on spontaneously discharging cells. A unit was deemed excited or inhibited if a repeatable 30% change in discharge rate was observed. From 2-10 hours as the LQ increased from 17 to 90 the total number of GnRH sensitive cells did also. The majority of responsive cells were excited by the peptide. As receptivity displayed a sharp increase from 2 to 6 hours the mean responsiveness of cells excited by GnRH was significantly elevated over inhibitory responses. These findings confirm the E/P biasing effect on POA/S unit responses to GnRH. Moreover, they suggest that a dynamic relationship exists between GnRH responses at the cellular level and sexual behavior throughout the course of steroid-induced receptivity.     

Exercise training improves aging-induced downregulation of VEGF angiogenic signaling cascade in hearts

Exercise training improves aging-induced deterioration of angiogenesis in the heart. However, the mechanisms underlying exercise-induced improvement of capillary density in the aged heart are unclear. Vascular endothelial growth factor (VEGF) is implicated in angiogenesis, which activated angiogenic signaling cascade through Akt and endothelial nitric oxide synthase (eNOS)-related pathway. We hypothesized that VEGF angiogenic signaling cascade in the heart contributes to a molecular mechanism of exercise training-induced improvement of capillary density in old age. With the use of hearts of sedentary young rats (4 mo old), sedentary aged rats (23 mo old), and exercise-trained aged rats (23 mo old, swim training for 8 wk), the present study investigated whether VEGF and VEGF-related angiogenic molecular expression in the aged heart is affected by exercise training. Total capillary density in the heart was significantly lower in the sedentary aged rats compared with the sedentary young rats, whereas that in the exercise-trained rat was significantly higher than the sedentary aged rats. The mRNA and protein expressions of VEGF and of fms-like tyrosine kinase-1 (Flt-1) and fetal liver kinase-1 (Flk-1), which are main VEGF receptors, in the heart were significantly lower in the sedentary aged rats compared with the sedentary young rats, whereas those in the exercise-trained rats were significantly higher than those in the sedentary aged rats. The phosphorylation of Akt protein and eNOS protein in the heart corresponded to the changes in the VEGF protein levels. These findings suggest that exercise training improves aging-induced downregulation of cardiac VEGF angiogenic signaling cascade, thereby contributing to the exercise training-induced improvement of angiogenesis in old age.     

Effects of septal lesions on behavioral sensitivity of female rats to gonadal hormones

Spayed female rats were given bilateral septal lesions or a sham operation and 3 wk later tested for hormone-induced female sexual behavior. When primed with 0.5, 1.0, or 2.0 μg of estradiol benzoate (EB) per day for 3 days and tested for lordosis behavior on the fourth day, animals with septal lesions showed a positive dose-related increase in mean lordosis quotient (LQ), whereas control animals showed a low mean LQ for all doses of EB. After priming with a low dose of EB (0.5 μg/day for 3 days), progesterone administration prior to behavior testing on day 4 produced a comparable facilitation in LQ for both septal-lesioned and sham-operated animals. When treated for 3 days with either 50 or 150 μg of testosterone propionate (TP) and given progesterone prior to behavior testing on day 4, female rats with septal lesions showed a higher mean LQ than sham-operated rats. Thus, septal lesions increase the behavioral sensitivity of female rats to both EB and TP as measured by female sexual behavior, but do not appear to alter the responsiveness of animals to progesterone.     

Progesterone-Facilitated Lordosis in Medial Preoptic Area-Lesioned, Juvenile Guinea Pigs

Juvenile female guinea pigs rarely display lordosis in response to estradiol and progesterone treatments that elicit sexual receptivity in adults. To test the hypothesis that the medial preoptic area (MPOA) tonically inhibits the display of steroid-induced lordosis in juveniles, 11-day-old guinea pigs were ovariectomized (OVX) and received bilateral, sham, or electrolytic lesions aimed at the MPOA 3–4 days later. At 20–22 days of age, these females were tested for the expression of sexual receptivity following injections of estradiol benzoate (EB, 10 μg sc) and progesterone (0.5 mg sc, 40 h after EB). The lesions damaged portions of the MPOA, the nucleus of the diagonal band of Broca, the lateral aspect of the medial preoptic nucleus, the medial part of the preventricular portion of the periventricular nucleus, and the anterior commissure. The lesions did not alter the display of estradiol-induced lordosis. However, after treatment with EB plus progesterone, 20% of the sham-lesioned females displayed lordosis, as compared to 80% of the MPOA-lesioned animals. These data are consistent with the hypothesis that neurons originating in and/or traversing the MPOA tonically suppress the display of progesterone-facilitated lordosis in juvenile guinea pigs. Removal of this inhibitory input allows prepubertal females to respond behaviorally to estradiol and progesterone in an adult-typical fashion.     

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.     

Release of orphanin FQ/nociceptin in the medial preoptic nucleus and ventromedial nucleus of the hypothalamus facilitates lordosis

Opioid regulation of reproduction has been widely studied. However, the role of opioid receptor-like 1 receptor (NOP; also referred to as ORL-1 and OP4) and its endogenous ligand orphanin FQ/nociceptin (OFQ/N) have received less attention despite their extensive distribution throughout nuclei of the limbic-hypothalamic system, a circuit that regulates reproductive behavior in the female rat. Significantly, the expression of both receptor and ligand is regulated in a number of these nuclei by estradiol and progesterone. Activation of NOP in the ventromedial nucleus of the hypothalamus (VMH) of estradiol-primed nonreceptive female rats facilitates lordosis. NOPs are also expressed in the medial preoptic nucleus (MPN), however, their roles in reproductive behavior have not been studied. The present experiments examined the role of NOP in the regulation of lordosis in the MPN and tested whether endogenous OFQ/N in the MPN and VMH mediates reproductive behavior. Activation of NOP by microinfusion of OFQ/N in the MPN facilitated lordosis in estradiol-primed sexually nonreceptive female rats. Passive immunoneutralization of OFQ/N in either the MPN or the VMH reduced lordosis in estradiol-primed females, but had no effect on lordosis in estradiol+progesterone-primed sexually receptive rats. These studies suggest that OFQ/N has a central role in estradiol-only induced sexual receptivity, and that progesterone appears to involve additional circuits that mediate estradiol+progesterone sexual receptivity.