Facilitation of receptivity in estrogen-primed rats during successive mating tests with progestins and methysergide

A novel neuropeptide Y neuronal pathway linking energy state and reproductive behavior

Animals consume energy for reproduction, as well as survival. Excess or insufficient energy investment into reproduction, respectively, threatens the survival of parents or leads to the failure of reproduction. Management of energy consumption in reproduction is important, not only for the success of the process, but also for the survival of the parents. Reproductive behaviors, such as mating and parental behavior, are indispensable for achieving each event of reproduction including gametogamy, parturition, and lactation. Therefore, reproductive behavior is one of the important factors in managing energy consumption for reproduction. Orexigenic and anorexigenic molecules in the hypothalamus have been implicated in the regulation of reproductive functions. An orexigenic neuropeptide, neuropeptide Y (NPY), has been also implicated in the regulation of both reproduction and energy state of animals. In this review, we will first summarize the neuronal mechanism for regulating reproductive functions by orexigenic and anorexigenic molecules in the hypothalamus. Second, we will focus on the NPY neuronal pathways regulating reproductive behavior in the intra- and extra-hypothalamic brain areas. We will highlight the NPY neuronal pathway from the arcuate nucleus to the dorsal raphe nucleus as a novel extra-hypothalamic pathway for energy state-dependent regulation of reproductive behavior. Finally, we will propose a biological significance of the extra-hypothalamic NPY neuronal pathway, which plays an important role in the associative control of feeding and reproductive behaviors.

Prior hormonal treatment, but not sexual experience, reduces the negative effects of restraint on female sexual behavior

These experiments were designed to determine if prior sexual experience reduced the negative effect of mild stress on female sexual behavior. In the first experiment, ovariectomized rats were hormonally primed with estradiol benzoate and progesterone for 3 consecutive weeks during which they received six mating experiences in a male's home cage or received no sexual experience. The next week, females were primed with 10 μg estradiol benzoate two days before a 5 min restraint. Both groups were resistant to the negative effects of the stressor. In the second experiment, females received 0, 1, 2, or 3 weeks of 10 μg estradiol benzoate and were restrained on the fourth week after priming with 10 μg estradiol benzoate. Rats without prior hormonal priming showed a decline in lordosis behavior after restraint but prior priming with estradiol benzoate reduced this effect. In the third experiment, rats received 3 weeks of hormonal priming with estradiol benzoate and progesterone with or without sexual experience. An additional group received no sexual experience or hormonal priming. Females were then given a 3-week hormone vacation before testing in the restraint paradigm. All groups showed a decline in lordosis behavior after restraint. The fourth experiment was identical to the third except that sexual experience in the male's cage and in a pacing apparatus were compared. There was no effect of either type of sexual experience on the response to restraint. Possible mechanisms responsible for effects of prior hormonal priming are presented and the absence of an effect of sexual experience is discussed in comparison to findings in male rats.

Role of experience in the neuroendocrine control of ewes' sexual behavior

We assessed the role of learning in the expression of female sexual behavior and evaluated the relative importance of age versus experience. Two studies were conducted with ovariectomized ewes submitted to steroid treatment that mimicked an estrus cycle. We compared behavioral (experiments 1 and 2), neurochemical (experiment 1), and endocrine (experiment 2) responses of sexually naive young and adult ewes versus sexually experienced adults when exposed to males. In a third study, we compared their performance in an instrumental learning test and the extent to which it was affected by stress. These experiments showed that proceptivity is affected both by age and sexual experience. In experiment 1 only experienced adults were proceptive and displayed an increase in hypothalamic norepinephrine. By the second estrus cycle (experiment 2) naive adults performed similarly to experienced adults but proceptive behavior was still inferior in young ewes. Receptivity was also different between groups but affected more by age than by sexual experience. All ewes mated during the first interaction with a male, although males' latency to ejaculation was shorter with experienced females than naive adults or naive young. Young ewes found food as readily as adults in experiment 3 but were more affected by stress. Together, these experiments show that both experience and age influence sexual activity and that sensitivity to stress may also be involved. This may contribute to the deficient reproductive performance that is often observed in young female mammals.

Ring A reduced progestins potently stimulate estrous behavior in rats: paradoxical effect through the progesterone receptor

The effect of ring A reductions at C5 and C3 on the capacity of the progesterone (P) molecule to stimulate estrous behavior was studied in ovariectomized estrogen primed rats (5 micrograms estradiol benzoate, EB, 40 h before progestin administration). Dose-response curves (dose range: 0.75-200 micrograms) for the lordosis quotient (LQ), lordosis score (LS), and proceptivity were constructed for P and all its ring A reduced metabolites: 5 alpha-pregnanedione (alpha DHP), 5 beta-pregnanedione (beta DHP), 3 alpha,5 alpha-pregnanolone (3 alpha,5 alpha-Pgl), 3 alpha,5 beta-pregnanolone (3 alpha,5 beta-Pgl), 3 beta,5 alpha-pregnanolone (3 beta,5 alpha-Pgl), and 3 beta,5 beta-pregnanolone (3 beta,5 beta-Pgl). Progestins were dissolved in propylene glycol and IV injected through an indwelling jugular catheter. Tests for lordosis and proceptivity were made at 5, 30, and 120 min after progestin injection. Weak, though significant lordosis behavior was observed at 5 min following the injection of some of the progestins, particularly the pregnanolones. Maximal responses were obtained at 120 min postinjection for all progestins. Dose response curves of the LQ, LS, and proceptivity were dualistic for alpha DHP and both 3 alpha pregnanolones, smaller responses being observed with high doses. Relative potency analysis revealed that alpha DHP, 3 alpha,5 beta-Pgl, 3 beta,5 alpha-Pgl, and 3 alpha,5 alpha-Pgl were considerably more potent for eliciting lordosis than P (14, 13.7, 9, and 4-fold, respectively). The same order of relative potencies was found for both LS and proceptivity. 3 beta,5 beta-Pgl and beta DHP were only slightly more potent than P (2 and 1.5-fold, respectively). In a second study, the antiprogestin RU486 (5 mg, SC), injected 60 min before one of four selected progestins (alpha DHP, 3 alpha,5 alpha-Pgl, 3 alpha,5 beta-Pgl, and 3 beta,5 beta-Pgl), significantly inhibited their action on estrous behavior (lordosis and proceptivity) when tested at 60 and 120 min postinjection. On the other hand, RU486 failed to inhibit early lordotic responses obtained at 5 and 30 min following 3 alpha,5 alpha-Pgl and 3 alpha,5 beta-Pgl. Similarly RU486 was ineffective in inhibiting lordosis in ovariectomized rats treated only with estradiol (3 micrograms of EB/day for 7 days). Data suggest that: (i) ring A reduction of the P molecule plays an important role in the normal facilitation of estrous behavior in the rat; and (ii) ring A reduced progestins provoke this effect by acting, at least partially, through the progesterone receptor.

A review and reevaluation of the role of serotonin in the modulation of lordosis behavior in the female rat

The role of serotonin (5-HT) in the modulation of sexual receptivity (lordosis) in the female rat is reviewed and reevaluated. The effects on lordosis of drug treatments that decrease or increase the activity and availability of central 5-HT are first discussed, and this is followed by an evaluation of the effects of drugs that act directly at 5-HT receptors. In order to shed light on the physiological significance of effects of serotonergic drugs on lordosis, there is also a review of what is known of changes in levels of serotonergic activity and densities of 5-HT receptors in the female rat brain that take place through the estrous cycle and in response to administration of behaviorally effective doses of gonadal steroids. Serotonin has generally been thought to have a tonic, inhibitory effect on lordosis. However, it is concluded that 5-HT can either inhibit or facilitate lordosis depending on which subtypes of central 5-HT receptors become activated. Because of a lack of consistent or compelling evidence of effects of ovarian hormones on serotonergic activity or 5-HT receptors in critical areas of the brain, it is stated that there is at present no basis to conclude that the effects of pharmacological manipulations of serotonergic activity on lordosis reflect an important, physiological role of 5-HT in the modulation of lordosis behavior in the female rat.

Blockade of LHRH-induced lordosis by alpha- and beta-adrenergic antagonists in ovariectomized, estrogen primed rats

The participation of a noradrenergic mechanism in the facilitation of lordosis by luteinizing hormone-releasing hormone (LHRH) was studied in two groups of ovariectomized estrogen primed rats, with or without sexual experience. The administration of 5 micrograms estradiol benzoate (EB) alone to sexually inexperienced subjects (Ss) induced weak lordosis behavior in some of them (mean lordosis quotient, LQ = 12 +/- 19). The SC injection of 5 micrograms LHRH significantly increased this response four hours later (LQ = 38 +/- 41), though great variability was observed (59% of Ss showing LQs below 30). The systemic administration of either prazosin, an alpha-adrenergic antagonist (0.2 or 1 mg/kg), or propranolol, a beta-adrenergic antagonist (20 mg/kg), totally suppressed LHRH-induced lordosis in sexually inexperienced Ss (mean LQs = 8 +/- 11; 5 +/- 10; 18 +/- 31, respectively). In sexually experienced Ss (tested on two previous occasions with EB and LHRH) the administration of EB alone on a third test induced significant levels of lordosis (mean LQ = 51 +/- 41). The administration of 5 micrograms LHRH to sexually experienced, estrogen primed Ss induced near maximal levels of lordosis (LQ = 94 +/- 18). In these Ss, prazosin (0.2 and 1 mg/kg) and, to a lesser extent, propranolol (20 mg/kg) significantly depressed lordosis to values that were not significantly different from those obtained after EB alone (mean LQs = 59 +/- 38; 63 +/- 20; 74 +/- 32, respectively). These results indicate that blockade of noradrenergic transmission by either alpha- or beta-antagonists counteracts the stimulatory effect of LHRH on lordosis in ovariectomized estrogen primed rats with or without sexual experience.(ABSTRACT TRUNCATED AT 250 WORDS)

Intrahypothalamic effects of progestin agonists on estrous behavior and progestin receptor binding

To investigate whether metabolism of progesterone (P) to other progestins is necessary for the facilitation of estrous behavior in estrogen-primed rats, we evaluated the behavioral effectiveness of intrahypothalamic implants of two P metabolites, 5 alpha-dihydroprogesterone (DHP) and 20 alpha-hydroxyprogesterone (20HP), and of desoxycorticosterone (DOC). We also determined whether the progestin receptor binding capacity of the steroids correlated with their behavioral efficacy. Implants of DHP and 20HP into the ventromedial hypothalamus were considerably less effective than P in activating estrous behavior; in contrast, the mineralocorticoid DOC was nearly as effective as P. Binding studies showed that P had the highest affinity for brain progestin receptors followed by DHP, DOC and 20HP. Thus there was a poor correlation between the behavioral efficacy and the progestin receptor binding properties of the steroids tested. These data suggest (1) that neither 5 alpha-reduction nor 20 alpha-hydroxylation are necessary for P activation of estrous responsiveness and (2) that the structural features required for the behavior promoting effects of P may not be identical to those required for binding to brain progestin receptors.

Effects of serotonin agonists on lordosis, myoclonus, and cytoplasmic progestin receptors in guinea pigs

Peripheral treatment with the serotonin releaser fenfluramine or the serotonin agonist quipazine abolished lordosis behavior in ovariectomized estradiol and progesterone-primed female guinea pigs. Quipazine was also effective when administered into a lateral cerebral ventricle. The lowest dose of fenfluramine that induced myoclonus (10 mg/kg) was higher than the dose needed to inhibit lordosis (5 mg/kg). Therefore, it appears that myoclonus and lordosis are differentially sensitive to serotonin agonists. The effects of quipazine on lordosis were time dependent. Quipazine had no effect on lordosis when given prior to the onset of sexual receptivity. These data suggest that serotonin agonists might be effective only when progesterone has had sufficient time to induce sexual receptivity. Quipazine did not affect cytoplasmic progestin receptors in brain areas involved in steroid hormone effects on lordosis. This finding, and the finding that quipazine had no effect on lordosis when given prior to the onset of sexual receptivity, suggest increased serotonin transmission does not interfere with estrogen priming or sensitivity of hypothalamic cells to progesterone.

Biphasic effects of the antiserotonergic methysergide on lordosis in rats

As also reported by other workers, the antiserotonergic drug methysergide was found to facilitate lordotic responding in estrogen primed, ovariectomized rats. A second dose of methysergide 24 hr after the first, however, failed to produce any increment in responding. Animals received daily estrogen injections in order to maintain a relatively constant level of priming. After several days of methysergide, a progesterone injection facilitated lordosis to the same degree as in controls receiving only saline and estrogen. When a second injection of progesterone was given 24 hr later, however, the animals failed to respond. In contrast, saline controls with this estrogen paradigm responded equally well to both progesterone injections. These results are discussed in terms of their bearing on possible serotonergic and non-serotonergic mechanisms by which progesterone may control lordosis.

Monoamines, estrogen and female sexual behavior in the golden hamster

In the golden hamster drugs which inhibit monoaminergic function (including p-chlorophenylalanine (PCPA), methysergide and a-methyl-p-tyrosine (a-MPT) facilitated lordosis in ovariectomized female hamsters as a function of the duration of estradiol benzoate (EB) priming. a-MPT (200 mg/kg), methysergide (6 mg/animal) or PCPA (150 or 360 mg/kg) potentiated lordosis if 6 days of EB priming preceded drug treatment. However, if female hamsters were primed with EB for only 2 days, a-MPT and methysergide were ineffective. PCPA (360 mg/kg) was less effective after 2 days of EB than after 6 days of EB priming. alpha-MPT produced a three-fold elevation in progesterone levels in ovariectomized females but methysergide and PCPA did not influence serum progesterone. PCPA (360 mg/kg) facilitated lordosis in adrenalectomized, ovariectomized females, eliminating the possibility that adrenal progesterone is essential for the behavioral effects of the drug. Luteinizing hormone-releasing hormone levels in the preoptic/anterior hypothalamic area and the medial basal hypothalamus were also not significantly altered at 1 h after PCPA injection. Pimozide (1.5 mg/kg) and pimozide (1.5 mg/kg) and amphetamine (2.5 mg/kg) did not potentiate lordosis in ovariectomized hamsters after either 2 or 6 days of EB priming. Pargyline, a monoamine oxidase inhibitor, inhibited female sexual behavior in females in estrogen alone-induced estrus. Lordosis in the female rat is more readily elicited both by drugs and estrogen. It is proposed with regard to female sexual behavior that species differences in estrogen sensitivity may underlie apparent differences in drug sensitivity.