Effects of fenfluramine, m-chlorophenylpiperazine, and other serotonin-related agonists and antagonists on penile erections in nonhuman primates

Fenfluramine, m-chlorophenylpiperazine (m-CPP), 1-phenylpiperazine, and the buspirone metabolite, 1-(2-pyrimidyl)piperazine given intravenously to adult rhesus monkeys regularly elicited penile erections. In contrast, serotonin (5-HT) agonists with 5-HT1A site specificity (8-OH-DPAT, buspirone) as well as trazodone, ritanserin, and metergoline were no different from saline in producing penile erections. Fenfluramine's effects were blocked by the 5-HT2 antagonists, ritanserin and metergoline, while m-CPP's effects were not blocked by the peripheral 5-HT antagonist, xylamidine, indicating that tumescence can be elicited by serotonergic agents which act at non-5-HT1A sites in the central nervous system.     

Pharmacological analysis of the mechanisms involved in the tachycardic and vasopressor responses to the antimigraine agent, isometheptene, in pithed rats

The present study set out to investigate the pharmacological profile of the cardiovascular responses induced by the antimigraine agent, isometheptene, in pithed rats. For this purpose, intravenous (i.v.) administration of blocking doses of the antagonists prazosin (alpha1; 100 microg/kg), rauwolscine (alpha2; 300 microg/kg), the combination of prazosin (100 microg/kg) plus rauwolscine (300 microg/kg), propranolol (beta; 1000 microg/kg), ritanserin (5-HT2; 100 microg/kg) or equivalent volumes of saline (1 ml/kg) were used. Isometheptene (0.03, 0.1, 0.3, 1 and 3 mg/kg, i.v.) produced dose-dependent increases in heart rate and diastolic blood pressure which were highly reproducible as they remained unaltered after saline. These tachycardic responses to isometheptene remained unaffected after prazosin, rauwolscine, ritanserin or the combination prazosin plus rauwolscine, but were abolished after propranolol. In contrast, the isometheptene-induced vasopressor responses were not significantly modified after the above doses of rauwolscine, ritanserin or propranolol, but were markedly blocked after prazosin or the combination of prazosin plus rauwolscine; the latter blockade did not significantly differ from that produced by prazosin alone. Interestingly, in rats pretreated intraperitoneally (i.p.) with reserpine (5 mg/kg; -24 h), isometheptene-induced tachycardic responses were abolished whereas the corresponding vasopressor responses were markedly attenuated and subsequently blocked by prazosin. It is concluded that isometheptene-induced tachycardic responses seem to involve only an indirect (tyramine-like action) mechanism mediated by beta-adrenoceptors, whilst the corresponding vasopressor responses are mediated by a predominantly indirect (tyramine-like action), as well as a minor direct (alpha1-adrenoceptors), sympathomimetic mechanism.     

Lack of a difference between ketanserin and ritanserin in central vs. peripheral serotonin receptor antagonism

Ketanserin and ritanserin antagonized with similar potency the pressor response to serotonin in pithed rats, a measure of antagonism of vascular 5HT2 receptors. Both compounds also antagonized the elevation of serum corticosterone concentration by quipazine, a centrally acting serotonin agonist; higher doses of both antagonists were needed, but ketanserin was not less potent than ritanserin. Earlier suggestions that ketanserin mainly blocks peripheral serotonin receptors and that ritanserin mainly blocks central serotonin receptors seem unfounded.     

Prazosin unmasks a renin response to intravenous para-chloroamphetamine

When injected intraperitoneally, p-chloroamphetamine (PCA) causes the acute release of catecholamines and serotonin, increases mean arterial pressure (MAP) and increases plasma renin activity (PRA) in rats. Experiments were designed to determine the dose-response and time-course for the effect of PCA administered intravenously on PRA in conscious, unrestrained rats. It was found initially that intravenous doses of PCA ranging from 0.3 - 6.0 mg/kg caused rapid and marked hypertension, but produced variable effects on PRA for up to 30 minutes after injection. In a second study PCA (0.3 - 6.0 mg/kg) did not alter PRA at 30 or 60 minutes after intravenous injection, but did increase PRA 60 minutes after 10 mg/kg, intraperitoneally. When the hypertension elicited by intravenous PCA was abolished by pretreatment with the alpha 1-adrenoceptor antagonist prazosin (100 micrograms/kg, iv), PCA produced marked elevations in PRA from 15 - 60 minutes. Thus it appeared that the renin response to intravenous PCA was masked by an elevation in MAP; when the vascular response to PCA was blocked, a large increase in PRA was observed.     

Elevation of serum prolactin acutely after administration of p-chloroamphetamine in rats

p-Chloroamphetamine hydrochloride (0.5-10 mg/kg, i.p.) caused a rapid (within 30 minutes), dose-related increase in serum prolactin concentration in male rats. The effect was antagonized by pretreatment with p-chlorophenylalanine, an inhibitor of serotonin synethesis, or by metergoline, a serotonin receptor antagonist. The acute elevation of serum prolactin may have been mediated by the release of serotonin by p-chloroamphetamine.     

Effect of fluoxetine and metergoline on amphetamine-induced rise in plasma corticosterone

The effect of the serotonin reuptake inhibitor, fluoxetine, and the serotonin antagonist, metergoline, on the rise in plasma corticosterone induced by amphetamine was studied in the conscious, unrestrained rat. Fluoxetine (2.5 mg/kg) did not affect plasma corticosterone. However, this dose of fluoxetine when administered two hours prior to amphetamine (0.1 or 0.5 mg/kg) significantly potentiated the amphetamine-induced rise in plasma corticosterone. Fluoxetine had no effect on the response induced by the highest dose of amphetamine (1.0 mg/kg) utilized in the study. In contrast, metergoline produced a dose-dependent increase in plasma corticosterone over the range 0.1 – 5.0 mg/kg. This response reached maximum 30 minutes after drug administration and had a duration of approximately 120 minutes. Pretreatment of animals with metergoline (5.0 mg/kg) three hours before the administration of amphetamine (1.0 mg/kg) resulted in a significant decrease in the corticosterone rise induced by amphetamine. Lower doses of metergoline were ineffective in reducing the amphetamine-induced response. These observations support the hypothesis that the amphetamine-induced rise in plasma corticosterone is due, in part, to stimulation of serotonergic neurons.     

Effects of serotonergic agonists and antagonists on corticotropin-releasing hormone secretion by explanted rat hypothalami

Experimental evidence suggests that serotonin (5HT) is excitatory to the hypothalamic-pituitary-adrenal axis and that this effect involves activation of both hypothalamic corticotropin-releasing hormone (CRH) and pituitary ACTH secretion. The present study was undertaken to examine the mechanism by which 5HT stimulates the central component of the HPA axis. To accomplish this we employed an in vitro rat hypothalamic organ culture system in which CRH secretion from single explanted hypothalami was measured by specific radioimmunoassay (IR-rCRH). All experiments were performed after an overnight (15-18 hr) preincubation. Serotonin stimulated IR-rCRH secretion in a dose-dependent fashion. The response was bell-shaped and the peak effect was observed at the concentration of 10(-9) M. The stimulatory effect of 10(-9) M 5HT was antagonized by the 5HT1 and 5HT2 receptor metergoline and by the selective 5HT2 receptor antagonists ketanserin and ritanserin. The muscarinic antagonist atropine, the nicotinic antagonist hexamethonium and the alpha-adrenergic receptor antagonist phentolamine, on the other hand, did not inhibit 5HT-induced IR-rCRH secretion. The specific 5HT2 receptor agonist 1-(2,5-dimethoxy-4-iodo-phenyl)-2-aminopropane (DOI) stimulated IR-rCRH secretion in a dose-dependent fashion. The response was bell-shaped with peak of effect reached at the concentration of 10(-9) M. We also tested the ability of the 5HT agonist meta-chlorophenylpiperazine (m-CPP) and of the selective 5HT1A receptor agonist 8-hydroxy-2-(di-n-propylamino) tetralin (8-OH-DPAT) to cause CRH secretion. Although both m-CPP and 8-OH-DPAT stimulated IR-rCRH secretion in a dose-dependent fashion, several differences were observed when their effect was compared to that of 5HT. These included a different shape of the dose-response curve, a lower maximal stimulatory effect and a different maximal stimulatory concentration. These findings suggest that serotonin stimulates CRH secretion by explanted rat hypothalami and that this effect appears to be mediated mainly through a 5HT2 receptor mechanism.     

Effects of endothelin 3 on diastolic blood pressure of pithed Sprague-Dawley, Wistar Kyoto, and spontaneously hypertensive rats before and after pretreatment with nifedipine

Pressor actions of endothelin 3 (ET3) were examined in pithed Sprague-Dawley (SD), Wistar-Kyoto (WKY), and spontaneously hypertensive (SH) rats before and after the administration of the calcium channel antagonist, nifedipine. Systolic and diastolic blood pressures were recorded via an intra-arterial catheter from sodium pentobarbital anaesthized rats prior to pithing. The systolic and diastolic blood pressures recorded from SH rats were significantly greater than those of SD and WKY rats; however, after pithing there were no significant differences between the diastolic blood pressures among the various strains. Administration of nifedipine significantly reduced the diastolic blood pressure of pithed rats to an equal extent in all three strains. The infusion of ET3 produced a dose-dependent increase in diastolic blood pressure of SD, WKY, and SH rats, but neither vascular sensitivity nor reactivity to ET3 was altered in SH rats. Nifedipine was more effective at inhibiting the vasoactive actions of ET3 in SD and WKY than in SH rats. It was therefore concluded that the pressor actions of ET3 in SH rats may be less dependent on the influx of calcium through a dihydropyridine-sensitive calcium channel as compared with WKY and SD rats.     

Serotonin-induced enhancement of vasopressin and oxytocin secretion in rat neurohypophyseal tissue culture

The effects of serotonin (5-hydroxytryptamine; 5-HT) on vasopressin (VP) and oxytocin (OT) secretion were studied in 13-14-day cultures of isolated rat neurohypophyseal (NH) tissue. The VP and OT contents of the supernatant were determined by radioimmunoassay after a 1 or 2 h incubation. Significantly increased levels of VP and OT production were detected in the tissue culture media following 5-HT administration, depending on the 5-HT dose. The elevation of NH hormone secretion could be partially blocked by previous administration of the 5-HT antagonist ketanserin or metergoline. WAY-100635 did not influence the increased VP secretion induced by 5-HT, but the elevated OT production was prevented by WAY-100635 before 5-HT administration. The application of WAY-100635, ketanserin or metergoline, after 5-HT administration proved ineffective. The results indicate that NH hormone release is influenced directly by the serotonergic system. The serotonergic control of VP and OT secretion from the NH tissue in rats can occur at the level of the posterior pituitary.     

Persistence of the control of the fluctuations of heart rate in the anesthetized and pithed adult rat. Effect of enteraminergic drugs]

Spontaneous fluctuations in heart rate were analyzed by spectral analysis in the ether anesthetized and pithed adult rat. In order to investigate the changes in the spectral pattern of the fluctuations, the selective 5HT-2 and -3 isoreceptor blockers ritanserin and BRL 43694A were used. In both the experimental conditions, ritanserin blockade led to dose-dependent increased fluctuations in HR low and high frequencies. In both the anesthetized and pithed rats, the low frequency range HR fluctuations were drastically reduced by BRL 43694A.     

Effects of serotonin1-like receptor agonists on autonomic neurotransmission.

Serotonin1A receptor agonists, 8-hydroxy-2-(di-n-propylamino)tetralin and 10-methyl-11-hydroxyaporphine, inhibited electrical stimulation-induced contraction of the guinea-pig ileum. These agonists also inhibited the pressor and tachycardiac responses to low frequency (0.25 Hz) but not to high frequency (2.0 Hz) electrical stimulation of the sympathetic nervous system in pithed rats. Serotonin1B receptor agonist RU 24969 inhibited pressor and tachycardiac responses to both low and high frequencies of stimulation in pithed rats. In the cat nictitating membrane, serotonin1A receptor agonists did not alter contractions elicited by electrical stimulation (0.1-3.0 Hz). Serotonin not only contracted the cat nictitating membrane but also facilitated contractile responses to low frequency (0.1-1.0 Hz) stimulation. The contractile effect of serotonin in the cat nictitating membrane was blunted by bretylium, methysergide, and ketanserin, but not by metoclopramide. The facilitatory effect of serotonin was antagonized by methysergide, but not by ketanserin, pindolol, propranolol, or metoclopramide. These results suggest that serotonin1A receptors modulate autonomic neurotransmission in the guinea-pig ileum and pithed rats, but not in the cat nictitating membrane. Serotonin contracts the cat nictitating mebrane via serotonin2 subtypes, while facilitating stimulated contractile responses through the serotonin1-like receptors.     

The role of putative 5-HT1A and 5-HT1B receptors in the control of feeding in rats

8-hydroxy-2(di-n-propylamino)tetraline (8-OH-DPAT) and 5-methoxy-3(1,2,3,6-tetrahydro-4-pyridinyl)1H indole succinate (RU 24969), two agonists on the putative serotonin 1A and serotonin 1B receptors, were used for exploring the role of these sites in the inhibitory effect of serotonin (5-HT) on feeding. In free-feeding rats, 2.5-5 mg/kg RU 24969 significantly reduced food intake while doses of 8-OH-DPAT ranging from 0.125 to 0.5 mg/kg increased eating. The effects of the highest doses were associated with hyperlocomotion and hyperreactivity for RU 24969 and a typical motor syndrome (flat body posture and forepaw treading) for 8-OH-DPAT. The motor syndrome caused by 0.5 mg/kg 8-OH-DPAT was much more obvious in food-deprived rats in which food intake was also markedly reduced. RU 24969 1.25 and 5 mg/kg reduced food intake by food-deprived rats and caused hyperlocomotion not different from that in free-feeding animals. Pretreatment with metergoline (2 mg/kg i.p.) prevented the effect of 5 mg/kg RU 24969 on food intake by food-deprived rats but had no effect on the reduction of eating caused by 0.5 mg/kg 8-OH-DPAT. The motor syndrome caused by 8-OH-DPAT was not changed by metergoline but the hyperlocomotion caused by RU 24969 was potentiated. Haloperidol (0.1 mg/kg i.p.) completely blocked the hyperlocomotion but did not change the reduction of food intake caused by RU 24969 in food-deprived rats. It is suggested that the putative serotonin 1B receptors specifically mediate the inhibitory effect of 5-HT on feeding whereas serotonin 1A sites act by enhancing eating only in free-feeding animals.     

Stimulation of prolactin secretion by morphine: role of the central serotonergic system.

Unanesthetized male rats with indwellinh right atrial cannulae were injected with morphine (MOR) i.v. which produced a dose-related increase in plasma prolactin levels (PRL). This effect was blocked partially by naloxone (NAL) at a dose of 0.06 mg/kg and totally by 0.6 mg/kg NAL. Interruption of central serotonergic neurotransmission by receptor blockade, with metergoline (MET) or cyproheptadine (Cypro), inhibition of tryptophan hydroxylase by para-chlorophenylalanine or destruction of serotonin neurons by 5, 7-dihydroxytryptamine antagonized the morphine (3 mg/kg) induced elevation in PRL release. Depression of dopaminergic activity with α-methyl-para-tyrosine elevated the basal PRL levels, but it did not prevent a further increase of prolactin levels by morphine (3 mg/kg). These data are compatible with the hypothesis that morphine stimulates PRL release by activation of the central serotonergic system.     

5-Hydroxytryptamine inhibits the tachycardia induced by selective preganglionic sympathetic stimulation in pithed rats.

It has been shown in several species that serotonin (5-hydroxytryptamine; 5-HT) is able to inhibit the responses produced by sympathetic stimulation in a wide variety of blood vessels and other organs, including the heart. However, in pithed rats, the analysis of potential sympatho-inhibitory actions of 5-HT is hampered by the fact that 5-HT (given as i.v. bolus injections) produces tachycardia per se. Moreover, most studies have investigated 5-HT-induced sympatho-inhibition at only one frequency of stimulation. Thus, the present study set out to find the experimental conditions to overcome these problems. In this regard, we analyzed the potential ability of 5-HT, administered as i.v. continuous infusions, to inhibit the tachycardia caused by stimulation of the preganglionic (C7-T1) sympathetic outflow in pithed rats. Sympathetic cardiostimulation (0.01-3 Hz) resulted in frequency-dependent increases in heart rate; these responses were potentiated after desipramine (50 microg/kg, i.v.). During continuous infusions of 5-HT (3.1-10 microg/kg.min, i.v.), but not saline, the sympathetically-induced tachycardia was dose-dependently inhibited in both control and desipramine-pretreated rats. This inhibitory effect of 5-HT was significantly more pronounced at lower frequencies of stimulation. In contrast, the above infusions of 5-HT did not inhibit the tachycardia induced by i.v. bolus injections of noradrenaline in both control and desipramine-pretreated rats. Taken together, the above findings confirm that 5-HT induces inhibition of the sympathetic chronotropic outflow in the rat by acting at receptors located prejunctionally, without evoking tachycardia, over a wide range of stimulation frequencies.     

[3H]Metergoline: A New Ligand of Serotonin Receptors in the Rat Brain

Abstract: A specific binding site for [³H]metergoline characterized by a K_D of 0.5–1.0 nM was detected in microsomal and synaptic plasma membranes from various areas of the adult rat brain. Experiments with 5,7-dihydroxy-tryptamine- and kainic acid-induced lesions indicated that this specific binding site was localized post-synaptically with respect to serotoninergic neurons. The pharmacological characteristics of [³H]metergoline binding to microsomal membranes from the whole forebrain strongly suggest that this ligand labels a class of serotonin receptors. This was particularly obvious in the hippocampus in which serotonin was about 400 times more potent than dopamine and norad-renaline for displacing bound [³H]metergoline. In the striatum, serotonin was only 10 times as potent as dopamine in inhibiting [³H]metergoline binding, suggesting that this ligand may also bind to dopamine receptors. Striking similarities between the binding sites for [³H]metergoline and [³H]serotonin were observed in the hippocampus. Thus, not only the total numbers of binding sites for these two ligands in control rats but also their respective increases following intracerebral 5,7-dihydroxytryptamine treatment were very similar. Therefore, at least in the hippocampus, [³H]metergoline might well be the appropriate ligand for studying the characteristics of the 'antagonist form' of serotonin receptors postulated by Bennett and Snyder.     

Serotonin nerve terminals in the dorsomedial medulla facilitate sympathetic and ventilatory responses to hemorrhage and peripheral chemoreflex activation

Serotonin neurons of the caudal raphe facilitate ventilatory and sympathetic responses that develop following blood loss in conscious rats. Here, we tested whether serotonin projections to the caudal portion of the dorsomedial brain stem (including regions of the nucleus tractus solitarius that receive cardiovascular and chemosensory afferents) contribute to cardiorespiratory compensation following hemorrhage. Injections of the serotonin neurotoxin 5,7-dihydroxytryptamine produced >90% depletion of serotonin nerve terminals in the region of injection. Withdrawal of ～21% of blood volume over 10 min produced a characteristic three-phase response that included 1) a normotensive compensatory phase, 2) rapid sympathetic withdrawal and hypotension, and 3) rapid blood pressure recovery accompanied by slower recovery of heart rate and sympathetic activity. A gradual tachypnea developed throughout hemorrhage, which quickly reversed with the advent of sympathetic withdrawal. Subsequently, breathing frequency and neural minute volume (determined by diaphragmatic electromyography) declined below baseline following termination of hemorrhage but gradually recovered over time. Lesioned rats showed attenuated sympathetic and ventilatory responses during early compensation and later recovery from hemorrhage. Both ventilatory and sympathetic responses to chemoreceptor activation with potassium cyanide injection were attenuated by the lesion. In contrast, the gain of sympathetic and heart rate baroreflex responses was greater, and low-frequency oscillations in blood pressure were reduced after lesion. Together, the data are consistent with the view that serotonin innervation of the caudal dorsomedial brain stem contributes to sympathetic compensation during hypovolemia, possibly through facilitation of peripheral chemoreflex responses.     

The effect of amperozide, a new antipsychotic drug, on plasma corticosterone concentration in the rat.

Amperozide is an atypical antipsychotic drug with high affinity for the serotonin 5-HT2 receptor but with low affinity for the dopamine D1 and D2 receptors. Amperozide dose-dependently increased the level of plasma corticocorticosterone in the rat. The effect of amperozide on plasma corticosterone was not inhibited by pretreatment with the 5-HT1A receptor antagonist pindolol or the 5-HT2 receptor antagonist ritanserin. Nor was it inhibited by the dopamine D2 receptor antagonist haloperidol. In contrast to ritanserin, amperozide did not antagonize plasma corticosterone elevation elicited by the serotonin receptor agonist MK-212. Similar to the serotonin uptake inhibitor fluoxetine, amperozide (0.5 mg/kg) significantly (p < 0.05) blocked p-chloroamphetamine (PCA) induced corticosterone release 4 and 16 hrs after amperozide administration. However, amperozide significantly increased the plasma corticosterone concentration also in rats pretreated with parachlorophenylalanine (PCPA). These data suggest that other mechanisms than a 5-HT uptake inhibitory effect are involved in the acute stimulation of corticosterone by amperozide.     

Action of a water soluble splenic material on anaesthetized rat blood pressure

The effects of a biologically active water-soluble splenic material on the rat blood pressure are described. The endovenous perfusion of the splenic material in acidified and alkalinized forms caused significant increases of the mean blood pressure in normal, vagotomized and pithed rats, showing that, in contradiction to previous reports, changes in pH did not affect its hypertensive activity. In normal rats, the hypertensive responses were not affected by the alpha- and beta-adrenoceptor antagonists: tolazoline, ergotoxine and propranolol, supporting the previously stated view that adrenergic mechanisms are not involved. In addition, the aforementioned results obtained in vagotomized and pithed rats suggest a lack of involvement of cardiac and vascular nervous mechanisms.     

Inhibitory effects of pergolide on peripheral adrenergic neurotransmission in spontaneously hypertensive rats

Intraperitoneal injection of pergolide (12.5–500 μg/kg) produced dose-related and sustained arterial hypotension in anesthetized spontaneously hypertensive rats (SHR) which was accompanied by bradycardia at higher tested doses. During the time frame of hypotension produced by pergolide (50 μg/kg, i.p.), diastolic blood pressure and cardiac rate responses to electrical stimulation of the sympathetic outflow in pithed SHR were attenuated, whereas comparable responses induced by exogenous norepinephrine were unaffected. Pretreatment of SHR with sulpiride abolished pergolide-induced hypotension and prevented its inhibitory effect on neurogenic vasoconstrictor responses. Sulpiride alone had no effect on responses to electrical stimulation or injected norepinephrine. Yohimbine or vagotomy plus atropine did not attenuate the hypotensive effect of pergolide while hexamethonium or pithing reversed it; increments in pressure produced by pergolide after each of the latter interventions were probably mediated by postsynaptic alpha receptors, since vasoconstrictor responses to pergolide (10?100 μg/kg, i.v.) in pithed preparations were attenuated by phentolamine.The data suggest that pergolide lowers arterial blood pressure and cardiac rate by inhibiting peripheral sympathetic nerve function through a dopaminergic mechanism. The probable site of action of pergolide is at presynaptic (neuronal) dopamine receptors which are known to mediate inhibition of neurogenic release of norepinephrine.     

Central cardiovascular effects of mammalian neurohypophyseal peptides in conscious rats

To confirm and extend the results of previous studies which demonstrated central cardiovascular effects of vasopressin in anesthetized rats, we determined blood pressure and heart rate changes for 30 minutes after intracerebroventricular injections of arginine vasopressin, arginine vasotocin and oxytocin in conscious rats. As compared to sham injections, significantly greater increases in either systolic or diastolic blood pressure were noted over the 30 minutes which followed the injection of 0.15, 1.0 or 10.0 nM of either vasopressin or vasotocin. In animals given vasopressin, plasma levels of the peptide were determined. There was a substantial increase in plasma vasopressin only after the highest dose. Overall blood pressure responses to doses of oxytocin as high as 100 nM were not significantly different than sham injections. Heart rate following both vasopressin and vasotocin was increased at 0.15 nM, was initially decreased then increased at 1.0 nM and was substantially decreased after the 10.0 nM dose. There was a significant increase in heart rate at the 10.0 nM and 100 nM doses of oxytocin. Dose response curves for systolic blood pressure and heart rate 20 minutes after injection were similar for vasopressin and vasotocin. We conclude that arginine vasopressin has significant central pressor and tachycardic effects in conscious rats, and it is related, at least in part, to the tail structure of the peptide, which is shared with arginine vasotocin.