Ejaculatory training lengthens the ejaculation latency and facilitates the functioning of the spinal generator for ejaculation of rats with rapid ejaculation.

A spinal pattern generator controls the ejaculatory response. Central pattern generators (CPGs) may be entrained to improve the motor patterns under their control. In the present study we tested the hypothesis that training of the spinal generator for ejaculation (SGE) by daily copulation until ejaculation, could promote substantive changes in its functioning permitting a better SGE control of the genital motor pattern of ejaculation (GMPE) and, as a consequence, a normalization of the ejaculation latency of rats with rapid ejaculation. To that aim, we evaluated in sexually experienced male rats with rapid ejaculation (1) the effects of daily copulation to ejaculation, following different entrainment schedules, on their ejaculation latencies, (2) the impact of these different ejaculatory entrainment schedules upon the parameters of the GMPE and (3) the possible emergence of persistent changes in the functioning of the SGE associated to the daily ejaculation entrainment schedules. The data obtained show that intense ejaculatory training of rats with rapid ejaculation lengthens the ejaculation latency during copulation and augments the ejaculatory capacity of the SGE in this population when spinalized. Thus, present data reveal that like other CPGs, the SGE can be trained and put forward that training of the SGE by daily copulation to ejaculation might be a promising alternative that should be taken into consideration for the treatment of premature ejaculation.

Unraveling the modulatory actions of serotonin on male rat sexual responses.

Animal studies and clinical investigations reveal that serotonin plays a central role in the control of the ejaculatory threshold. The chronic use of selective serotonin reuptake inhibitors (SSRIs) frequently results in sexual dysfunction, inviting to analyze the modulatory actions of serotonin on male sexual function in depth. Even though the main effect of serotonin on male sexual responses is inhibitory, this neuromodulator also mediates brief important stimulatory actions. Serotonin (5-HT) can activate two intracellular signaling pathways: a lower-threshold facilitatory pathway, and a higher-threshold inhibitory pathway, leading to biphasic effects. We propose that these divergent actions are related to the stimulation or inhibition of glutamatergic and GABAergic interneurons. Experimental evidence suggests that low 5-HT concentrations produce stimulatory actions on male ejaculatory aspects that might be mediated by the blockade of the GABAergic neurotransmission in the MPOA and spinal cord, which in turn releases a tonic inhibition that allows other neurotransmitters such as glutamate, noradrenaline, oxytocin and dopamine to initiate a sequence of molecular events resulting in the expression of ejaculation. Similar serotonin actions, mediated via interneurons, have been proposed for the regulation of other processes and occur in many central nervous system areas, indicating that it is not an isolated phenomenon.

Effects of bupropion on the ejaculatory response of male rats.

Chronic antidepressant treatment is associated with sexual side effects, particularly affecting the ejaculatory response. Bupropion (BP), an antidepressant inhibiting dopamine/noradrenaline reuptake, seems to have a low impact upon male sexual function. Ejaculation is regulated both at the brain and spinal cord by the spinal generator for ejaculation (SGE). We investigated the effects of chronic BP treatment on ejaculatory behavior and on SGE functioning. Sexually experienced male rats were intraperitoneally (i.p.) injected with BP (7.5 or 15 mg kg(-1)) during 14 days and tested for sexual behavior on days 1, 7 and 14 of treatment; these same males were used to evaluate the functioning of the SGE by recording the genital motor pattern for ejaculation (GMPE). Acute and chronic BP administration did not importantly modify copulatory behavior of male rats. Chronic treatment with the low dose of BP produced deficits in the functioning of the SGE that were restored by activation of the SGE through afferent stimulation. Conversely, chronic treatment with the high-dose of BP disrupted the functioning of the SGE, as the deficits were not compensated by activating the SGE through sensory stimulation. It is concluded that chronic BP at high doses alters the functioning of the SGE.

Rhythmic motor patterns accompanying ejaculation in spinal cord-transected male rats.

A spinal pattern generator controls the ejaculatory response. Activation of this spinal generator elicits rhythmic motor patterns of the striated musculature that surrounds the genital tract that contributes to the expulsion of seminal secretions. In the present study, we elicited ejaculation in spinal cord-transected male rats by mechanically stimulating the urethra and registered rhythmic motor patterns in the cremasteric, iliopsoas and pubococcygeus muscles. The rhythmic motor activity recorded in these muscles was compared with that elicited in the bulbospongiosus muscles; the results revealed similarities in the motor parameters among all the muscles. Data of this study, showing the occurrence of rhythmic motor behaviour in the cremasteric, iliopsoas and pubococcygeus muscles during ejaculation, suggest that these muscles might be under the control of the spinal generator for ejaculation.

DMI-induced sexual effects in male rats: analysis of DMI's acute and chronic actions on copulatory behavior and on the genital motor pattern of ejaculation.

Desipramine (DMI) is a tricyclic antidepressant that alters male sexual function. This work was designed to study the effects of acute and chronic DMI treatments on male rat copulatory behavior, discriminating between spinal and behavioral DMI actions on the ejaculatory response. To this aim, sexually experienced male Wistar rats received DMI (7.5 or 15 mg/kg, i.p.) for 14 days and were tested for sexual behavior on Days 1, 7 and 14 of treatment. Besides, the genital motor pattern of ejaculation (GMPE) was recorded in anaesthetized, spinal male rats after acute (1-10 microg, i.v.) or 14-day chronic DMI (15 mg/kg, i.p.) treatment. Results showed that acute and chronic DMI treatments reduced the ejaculatory threshold by decreasing intromission number and ejaculation latency of male rats, in successive copulatory series. The intensity of the effects depended on the dose and treatment duration. DMI acute treatment activated GMPE expression only at the lower doses and these responses exhibited modified parameters. Chronic DMI reduced the number of discharges and increased the frequency of discharge of spontaneous GMPE responses, affected mechanically evoked ones and increased the number of GMPEs expressed after repeated genital stimulation as compared to control rats. DMI treatments affected copulatory behavior both at brain and spinal levels and its effects on ejaculation, assumed to be similar in behavioral and spinal models, differed.

Evidence for the presence of the spinal pattern generator involved in the control of the genital ejaculatory pattern in the female rat.

Substantial progress has been made during recent years in elucidating the control of male ejaculatory function by the central nervous system. These efforts have revealed the participation of a central pattern generator in the control of ejaculation. There is a strong similarity in the neural organization of male and female sexual functions. In the present study, the hypothesis that the spinal generator for ejaculation was present and functional in the female rat was evaluated. To this purpose, the expression of the ejaculatory motor pattern and its pharmacological activation in spinally transected female rats were investigated. Results revealed the presence in females of the already described rhythmic ejaculatory motor pattern of male rats. This ejaculatory motor pattern could be registered in the urethralis muscle of the female rat after mechanical stimulation of the urethra, vagina and clitoris and consisted, as in the male rat, of a first ejaculatory motor train followed by an after-discharge component. Besides, the female genital ejaculatory motor pattern could be pharmacologically induced by the systemic injection of sodium nitroprusside with similar motor characteristics. No significant differences between the sensorial and pharmacologically induced female genital motor patterns were found. Present findings provide evidence for the presence of the genital motor pattern of ejaculation in female rats and suggest that the spinal generator for ejaculation is also present and functional in this gender.

alpha-Adrenergic agents modulate the activity of the spinal pattern generator for ejaculation.

Spinal cord transection at a thoracic level activates fictive ejaculation (FE) in the male rat. It has earlier been demonstrated that fictive motor patterns may be activated by pharmacological means and that the noradrenergic system seems to be particularly efficient in triggering locomotor fictive patterns in spinal animals. In the present study, the hypothesis was tested that the spinal noradrenergic system participates in the activation of the spinal generator for ejaculation (SGE). To this aim, the effect of the adrenergic agents, methoxamine, prazosin, clonidine, and yohimbine, upon FE was evaluated in spinal male rats using electromyographic techniques. The results obtained show that ejaculatory rhythmic patterns, accompanied by the expulsion of urethral contents and phasic penile movements, can be elicited by the intravenous (i.v.) injection of methoxamine or yohimbine. These drug-induced motor sequences appear superimposed to the intrinsic ejaculatory spinal rhythm. By contrast, i.v. injection of prazosin or clonidine blocked the expression of the spontaneous ejaculatory rhythmic pattern without inducing any other genital response. These data suggest that an increased noradrenergic tone, either by blockade of presynaptic alpha2-adrenoceptors or by stimulation of postsynaptic alpha1-adrenoceptors, results in the activation of the SGE. Present findings provide the evidence that the SGE might be importantly influenced by the noradrenergic system, which exerts a facilitatory control on the expression of the genital motor pattern of ejaculation.

Evidence for the presence and functioning of the spinal generator for ejaculation in the neonatal male rat.

A spinal pattern generator controls ejaculation in the male rat. In the present study, the hypothesis that the spinal generator for ejaculation was functional at early postnatal stages was evaluated. To this purpose, the expression of the ejaculatory motor pattern and its pharmacological activation in spinally transected neonatal rats from postnatal day 2 to weaning were investigated. Results revealed the presence of the rhythmic ejaculatory motor pattern in neonatal male rats. As in adult sexually experienced animals, the neonatal ejaculatory motor pattern could be elicited after the application of an ejaculation-like-releasing stimulus. The rhythmic genital motor response of neonates exhibited a gradual maturation that was reflected in its motor parameters until showing the features of the adult response at postnatal day 28. Besides, the ejaculatory motor pattern could be induced by the systemic injection of oxytocin in 7-day-old neonates as well as in adult animals. Present findings provide evidence for the presence of the spinal generator for ejaculation early during postnatal development, suggesting that its organisation is innate.

Role of genital sensory information in the control of the functioning of the spinal generator for ejaculation.

An intrinsic spinal rhythm mediates fictive ejaculation (FE). In this study, the effect of genital sensory stimulation on the functioning of the spinal generator of ejaculation was investigated. To this aim, the effect of (a) stimulation of internal and external genital structures; (b) repeated elicitation of FE and (c) genital stimulation during in progress expression of FE on the rhythmic genital motor pattern of ejaculation (GMPE) was analysed in sexually experienced, spinal male rats. Results showed that the spinal intrinsic ejaculatory rhythm can be modulated by genital inputs, and that repeated stimulation modifies this rhythm, progressively inhibiting its expression. Finally, in progress GMPEs could be reset by overlapping genital stimulation, supporting the notion of the spinal cord mediating the inhibition of FE following repeated genital inflow. Results reveal the nature of the modulatory role that genital afferent information exerts on the expression of FE.

Aphrodisiac properties of Montanoa tomentosa aqueous crude extract in male rats.

Cihuapatli, the Mexican zoapatle (Montanoa tomentosa) has an extensive ethnomedical history of use as a traditional remedy for reproductive impairments. During the study of the ejaculatory function in rats and by testing a set of Mexican plants with medicinal properties, we observed that crude extracts of M. tomentosa facilitated ejaculation. Thus, we decided to analyze the possibility that this plant possessed sexual stimulant properties. To that aim, copulatory behavior of sexually active male rats receiving doses of 38, 75 and 150 mg/kg of the aqueous crude extract of M. tomentosa, as it is prepared in traditional medicine, was assessed. In addition, we evaluated the effect of the 75-mg/kg dose of the extract on males with anesthetization of the genital area and on sexual behavior of sexually inactive male rats (noncopulators). Results showed that acute oral administration of crude extracts of M. tomentosa facilitates expression of sexual behavior in sexually active male rats, significantly increases mounting behavior in genitally anesthetized animals and induces the expression of sexual behavior in noncopulating males. Altogether, these data reveal a facilitatory action of this extract on sexual activity and particularly on sexual arousal. Present findings provide experimental evidence that the crude extract preparation of M. tomentosa, used as a traditional remedy, possesses aphrodisiac properties.

Evidence for changes in brain enkephalin contents associated to male rat sexual activity.

Indirect evidence suggests that ejaculation might activate endogenous opioid systems, which exert an inhibitory influence on male rat sexual behaviour. The objective of the present study was to search for putative long-term changes in the contents of immunoreactive (IR) Met-enkephalin (IR-Met), Leu-enkephalin (IR-Leu) and opioid octapeptide Met--Arg(6)--Gly(7)--Leu(8) (IR-Oct) in specific brain areas, after the execution of different amounts of sexual activity. Additionally, basal contents of these enkephalins were compared between sexually active (SA) and persistent sexually inactive (SI) rats. Immunoreactivity to enkephalins was determined by radioimmunoanalysis, in the frontal cortex, the hypothalamus and midbrain of SA and SI rats, as well as 24 or 48 h after males had one ejaculation or copulated to exhaustion. Twenty-four hours after sexual activity, there was a generalised increase in enkephalin contents that returned to control values at the 48 h measurement in all brain areas, but the hypothalamus, where IR-Met and IR-Oct remained elevated. No differences in the magnitude of the changes were found between rats that ejaculated once and sexually satiated males. IR-Oct concentration in the hypothalamus of SI rats appeared significantly higher than in SA animals, with no differences in IR-Met and IR-Leu. Results give direct evidence of the activation of endogenous opioid systems by male rat sexual activity. The occurrence of long lasting increases in the contents of IR-Met and IR-Oct in the hypothalamus of rats that copulated was detected. Finally, an intrinsically elevated octapeptide concentration in the hypothalamus of SI rats was found.

Exhaustion of the coital reflex in spinal male rats is reversed by the serotonergic agonist 8-OH-DPAT.

Previous studies from our laboratory have shown that the genital motor pattern associated to the coital reflex in spinal male rats becomes exhausted when repeatedly evoked. Exhaustion of the genital motor pattern could be related to the sexual exhaustion phenomenon observed in copulating male rats. The present study was aimed to describe the features of coital reflex exhaustion and to determine if the 5-HT1A agonist 8-OH-DPAT was able to reverse exhaustion of this ejaculatory-like response. Additionally, the effect of pre-treatment with the 5-HT1A antagonist WAY 100635 on the 8-OH-DPAT induced motor response was evaluated. Results revealed that development of coital reflex exhaustion initiated with a progressive increase in the latency of response and was characterised by a change in the properties of the motor pattern itself. Once exhausted, i.v. administration of 8-OH-DPAT provoked the immediate expression of a potent motor pattern similar to the coital reflex, but in the absence of urethral stimulation. Injection of WAY 100635 induced, per se, expression of the coital reflex after exhaustion. Notwithstanding, pre-treatment with WAY 100635 was able to block the 8-OH-DPAT-induced motor response implying that its effect was exerted upon 5-HT1A receptors. Data suggest that the sexual exhaustion phenomenon might possess a spinal component.

Stimulation of the medical preoptic area facilitates sexual behavior but does not reverse sexual satiation.

The aim of the present study was to establish whether electrical and/or drug stimulation of the medial preoptic area/anterior hypothalamus (mPOA/AH) surmounts the sexual behavior inhibition that results from copulation to exhaustion. Thus, intermittent electrical stimulation of the mPOA/AH (alone or combined with the systemic injection of yohimbine or apomorphine, at doses that were subthreshold for reversing sexual exhaustion) or intrapreoptic treatments to block GABAergic transmission were applied to sexually satiated rats. The results suggest that the mPOA/AH is not responsible for male sexual behavior inhibition or for the pharmacologically induced sexual behavior expression in satiated rats. Data are discussed in terms of the roles ascribed to the mPOA/AH, both in the control of sexual behavior expression and in the regulation of the postejaculatory interval.

Gender differences in the cardiovascular responses to morphine and naloxone in spinal rats.

Putative gender differences in opiate cardiovascular effects were evaluated in spinal rats. After a 4-h exposure to a single dose of morphine (30 mg/kg, i.v.), abstinence was precipitated by naloxone (0.03-3 mg/kg, i.v.). Morphine produced a long-lasting bradycardia and a transient increase in arterial pressure that was similar in both genders. Thereafter, blood pressure decreased both in males and females. Naloxone precipitated a similar dose-dependent heart rate increase in both sexes and a gender-dependent increase in blood pressure. This sex difference appeared in the shape of the response. Prazosin (0.2 mg/kg), prior to naloxone, reduced the pressor response in all animals, suggesting a similar participation of the noradrenergic system in both genders. The present results extend to acute dependence the notion of a sex-dependent differential effect of morphine. The need to consider gender as a factor when studying the effects of opioids is highlighted.

Sensory and motor aspects of the coital reflex in the spinal male rat.

In the present study the sensory and motor aspects of the coital reflex model in male rats were evaluated. Electromyographic reflex activity after mechanical stimulation of the urethra, penis and scrotal skin was recorded in all genital muscles. The possibility that a facilitatory mechanism of these muscular responses was located in the rat spinal cord was evaluated by removing the genital afferents. Results showed that urethral, penile and scrotal stimulation evoked the coital reflex in all genital muscles. Similarly, coital responses were obtained spontaneously in deafferentated animals. The parameters among the motor patterns evoked with the different mechanical stimuli were very similar. Parameters of spontaneous motor patterns were not importantly different from those obtained reflexively. A conspicuous difference between these responses was the presence of an after-discharge activity in genitally-stimulated animals. Additionally, it was found that this motor pattern can be exhausted with repeated stimulation. Spontaneous responses did not show the exhaustion phenomenon. Results are discussed in the context of the sensory-motor aspects of male sexual behaviour.

Anxiolytic-Like effect of ejaculation under various sexual behavior conditions in the male rat.

The purpose of the present study was to analyze the anxiety-like effect induced by ejaculation in male rats subjected to different sexual behavior conditions. The animal model of anxiety used was the conditioned defensive burying test. Results showed that experimental anxiety was reduced after one or six consecutive ejaculations. Six ejaculations did not induce a larger reduction in burying behavior than that produced by two, suggesting that this effect is not cumulative. This anxiolytic-like effect endured a short period (less than 24 h), and was not accompanied by a reduction in ambulatory behavior. The present results also showed a facilitating action of a previous ejaculation on the reduction in burying behavior induced by a second ejaculatory response. This potentiation occurred with an interval of 24 h between ejaculations. In sexually exhausted rats two populations are distinguished: one sexually unresponsive, and one achieving one ejaculation. Interestingly, in the ejaculatory population no reduction in burying behavior was observed, while in the unresponsive one a diminution in defensive burying was found. Data reveal differences in the anxiolytic-like properties of ejaculation between nonsatiated rats and the two populations of sexually exhausted animals.

Yohimbine interacts with the dopaminergic system to reverse sexual satiation: further evidence for a role of sexual motivation in sexual exhaustion.

The possible interaction of yohimbine with the dopaminergic system in the mediation of sexual behaviour expression in sexually exhausted male rats was investigated. The behavioural effects of the simultaneous injection of yohimbine (500 microg/kg) plus apomorphine (50 microg/kg) and those of the combined treatment of haloperidol (125 microg), a nonspecific dopamine receptor antagonist, with an effective dose of yohimbine (2000 microg/kg) on sexually satiated rats were evaluated. Data show that yohimbine and apomorphine, per se, dose-dependently reverse sexual exhaustion by increasing the percentage of sexually satiated rats copulating and resuming copulation after ejaculation. Injection of haloperidol simultaneous to an effective dose of yohimbine, blocked the ability of the latter to reverse sexual satiation. The combined treatment with subthreshold doses of apomorphine and yohimbine synergised to reverse the sexual inhibition characteristic of sexual exhaustion. Data suggest that the dopaminergic system might be the final pathway for the yohimbine-induced sexual behaviour expression in satiated rats. The possible role of sexual motivation in the sexual exhaustion phenomenon is discussed.

Blockade of the establishment of the sexual inhibition resulting from sexual exhaustion by the Coolidge effect.

Previous data from our laboratory and others suggest that the motivational component of male rat sexual behaviour plays an important role in the sexual satiation phenomenon. The aim of the present study was to establish the effect of a physiological increase in sexual motivation, by means of changing the stimulus female (Coolidge effect), on the sexual exhaustion phenomenon and to assess the impact of lesioning the central noradrenergic (NA) system on the Coolidge effect. Results suggest that: (a) interfering with the putative sexual motivation decline resulting from multiple ejaculation, by changing the stimulus female, interferes with the establishment of an inhibitory process responsible for the sexual inhibition that follows sexual satiation; and (b) the neurotoxic lesion of the NA system does not block the stimulatory effect of such manipulation. It is concluded that different mechanisms modulate sexual behaviour expression in sexually exhausted male rats depending on the type of stimulus challenge to which they are subjected, i.e. pharmacological or physiological.

Reversal of progesterone-induced sequential inhibition by progesterone metabolites.

Previous reports have shown that intrabrain administration of progesterone (P) ring A-reduced metabolites into the medial preoptic area (MPOA) and ventromedial hypothalamus (VMH) induces facilitation of female sexual behavior in ovariectomized (ovx) rats pretreated with estrogen. Present studies were designed to explore the possibility that ring-A reduced progesterone metabolites might play a role in controlling the duration of estrous behavior. To this aim ovariectomized (ovx) Sprague Dawley rats implanted with guide cannulae directed towards the VMH or the MPOA were submitted to a systemic hormonal treatment to provoke P-induced sequential inhibition (estradiol benzoate (EB) at time O + P at 44 h + P at 68 h). The second dose of P was administered simultaneously with the i.c. implantation of one of the following P metabolites: 3 beta-hydroxy-5 beta-pregnan-20-one (5 beta,3 alpha P), 3 alpha-hydroxy-5 beta-pregnan-20-one (5 beta,3 alpha P) or 3 beta-hydroxy-5 beta- pregnan-20-one (5 alpha,3 beta P) into the MPOA or VMH. Lordosis behavior was evaluated by the lordosis quotient (LQ = number of lordosis/10 male mount x 100) and by the percentage of responding subjects. Results show that 5 beta,3 beta P implanted into the VMH or MPOA counteracted the sequential inhibitory effect induced by systemic administration of P.5 alpha,3 beta P was also able to counteract sequential inhibition, but with less potency and only in the VMFI. Results showed that P-induced sequential inhibition can be counteracted by intrabrain administration of ring-A reduced progestins in both the VMH and MPOA. Data are discussed in terms of a putative physiological role of naturally occurring P metabolites in P-mediated female sexual behavior expression.

8-OH-DPAT and male rat sexual behavior: partial blockade by noradrenergic lesion and sexual exhaustion.

As previously shown, the 5-HT1A agonist 8-OH-DPAT is a potent facilitator of male rat copulatory behavior in both sexually experienced and sexually exhausted male rats. The basis of this facilitation is still not clear. Therefore, the purpose of the present study was to determine whether 8-OH-DPAT-induced sexual-behavior facilitation could be counteracted by lesioning the NA system with the noradrenergic neurotoxin DSP4. In NA-lesioned, sexually experienced, non-exhausted rats, the facilitatory effects of 8-OH-DPAT on the number of mounts and the postejaculatory interval were reduced, the effect on the intromission latency disappeared, while the percentage of copulating rats was not significantly altered. In sexually exhausted rats bearing a lesion of the NA system, the facilitatory effects of 8-OH-DPAT on the percentage of copulating rats was blocked. Data are discussed on the basis of the interactions between the noradrenergic and serotonergic systems in the mediation of the facilitatory effect of 8-OH-DPAT in sexually exhausted and non-exhausted rats.