Effects of naloxone and fentanyl in acutely decerebrated dogs

Cardiovascular, respiratory and analgesic effects of fentanyl and naloxone were studied in normotensive acutely decerebrated dogs. Naloxone (1 mg/kg, i.v.) increased skin twitch reflex latency, mean blood pressure, pulse pressure, respiratory rate and minute volume. Fentanyl (50 μg/kg, i.v.) decreased heart rate and blood pressure while the animals were artificially ventilated. The skin twitch reflex latency was not significantly altered. Nine minutes later, naloxone (1 mg/kg, i.v.) was administered and the fentanyl-induced cardiovascular depression was reversed above the control level. The skin twitch reflex latency remained unchanged. These findings give further evidence that the endogenous opioid system plays an important role in the brainstem control of circulation and respiration. The mechanism of the anomalous analgesic response of the acutely decerebrated dog requires further investigation.     

The influence of propranolol on the hypotensive action of ketanserin in normotensive rats

In normotensive rats the effect of different doses of propranolol (1.0, 5.0 and 10.0 mg/kg i.p.) and ketanserin (10.0 mg/kg p.o.) on mean blood pressure and heart rate and on cardiovascular response to noradrenaline (0.1, 0.3, 0.5, 0.7 and 1.0 micrograms/kg i.v.) was examined. The drugs were given separately or together. Propranolol slightly reduced the hypotensive effect of ketanserin. On the other hand a decrease in heart rate caused by propranolol was not affected by ketanserin. Our results show that propranolol given with ketanserin did not change the effect of the latter on the cardiovascular system.     

Effect of oxytocin and naloxone on the plasma levels of corticosterone in the rat

The effect of two doses of oxytocin (2 or 4 UI/kg i.p.) has been studied in the male Wistar rats, either preceded or not by a naloxone administration (10 mg/kg i.p.), on the response of the hypothalamus-pituitary-adrenal system, the latter being valued by changes produced in the plasmatic corticosterone levels. Oxytocin produced significant increases of the plasmatic corticosterone levels, this effect being stronger and longer lasting after the superior dose. Naloxone alone produced the same effect, but not as intense and stable as that of oxytocin. Pretreatment with naloxone modified the response of the hypothalamus-pituitary-adrenal system to oxytocin, producing partial blockade. The results suggest that the oxytocin action on the hypothalamus-pituitary-adrenal axis might be mediated by the endogenous opiates.     

The effect of opiate receptor ligands on emotional cardiovascular reactions in lower primates

Intravenous naloxone injection (0.1 mg/kg) facilitated blood pressure increase in response to conditioned sound stimulus followed by electrocutaneous shock in conscious chair-restrained baboons (Papio hamadryas). Naloxone at a dose of 1.0 mg/kg had an opposite effect and led to the decrease in blood pressure and heart rate in conditioned fear reflex. Naloxone microinjections (50 microM) into the periventricular hypothalamus led to a significant diminution of blood pressure and heart rate increment in response to electrocutaneous shock; naloxone microinjections into tractus solitarius nuclei suppressed blood pressure and heart rate reactions both to conditioned (sound) and unconditioned (electrocutaneous shock) stimuli. Microinjections of equimolar morphine quantities in these brain regions facilitated such reactions. It is concluded that endogenous opioid system participates in the formation of cardiovascular reactions to emotional stimuli in monkeys, with multiple opioid receptors of periventricular hypothalamus and tractus solitarius nuclei involved in the generation of such reactions.     

Abolition of clonidine's effects on ventricular refractoriness by naloxone in the conscious dog

The interaction between opiate and adrenergic receptors on cardiac electrophysiologic function in the conscious dog was addressed in our study. We examined the effects of opiate receptor blockade with naloxone on clonidine-induced changes in refractoriness of the cardiac ventricle. Nine dogs were chronically instrumented for recording mean arterial blood pressure, administration of drugs and for measurement of effective refractory period of the ventricle. Clonidine (10 micrograms/kg, i.v.) significantly (p less than 0.05) decreased heart rate to 72 +/- 5 beats/minute from 108 +/- 8 beats/minute; mean arterial pressure decreased significantly (p less than 0.05) to 83 +/- 3 mmHg from 91 +/- 4 mmHg. Ventricular refractoriness was increased significantly (p less than 0.05) at current levels of 7 and 10 mA and pacing rates 180 and 200 beats/minute. Naloxone (3-10 mg/kg, i.v.) abolished clonidine's effects on heart rate, mean arterial pressure and ventricular refractoriness. We conclude that ventricular refractoriness may be regulated in part by interactions between central adrenergic and opioidergic systems.     

Inhibition of peripheral adrenergic neurotransmission by lergotrile in spontaneously hypertensive rats

Intraperitoneal injection of lergotrile (0.5 mg/kg) produced arterial hypotension and bradycardia for 120 and 90 minutes, respectively, in anesthesized spontaneously hypertensive rats (SHR). During this time frame, lergotrile (0.5 mg/kg, i.p.) greatly attenuated diastolic blood pressure and cardiac rate responses to electrical stimulation (0.062-4 Hz) of the sympathetic outflow in pithed SHR, but had no significant effect on comparable increments in pressure and rate produced by exogenous norepinephrine (0.01–10 μg/kg, i.v.). Pretreatment of SHR with haloperidol (2 mg/kg, i.p.) prevented lergotrile-induced hypotension and partially reversed its inhibitory effect on neurogenic vasoconstrictor responses. Haloperidol alone had no significant effect on baseline arterial blood pressure or responses to sympathetic nerve stimulation. Administration of hexamethonium (20 mg/kg, i.v.) to SHR antagonized the hypotensive response to lergotrile (0.5 mg/kg, i.p.), although hydralazine (2 mg/kg, i.p.) still produced a marked reduction in pressure.These results suggest that lergotrile produces arterial hypotension and bradycardia primarily by inhibiting peripheral sympathetic nerve function through a dopaminergic mechanism. The probable site of action of lergotrile is at presynaptic (neuronal) dopamine receptors which are known to be inhibitory to neurogenic release of norepinephrine.     

Failure of reversal of cardiovascular responses of clonidine by centrally administered naloxone in anaesthetised rats

Central effects of naloxone on the cardiovascular responses of centrally administered clonidine were studied in anaesthetised normotensive, renal DOCA-salt hypertensive and morphine dependent rats. Clonidine (5 micrograms/ICV) produced significant decrease in blood pressure and heart rate in all the groups of rats in a dose dependent manner. Naloxone (2 micrograms/ICV) failed to reverse the responses of clonidine in all the rat groups. In morphine dependent normotensive and morphine dependent renal DOCA-salt hypertensive rats, the responses of clonidine were further enhanced in the presence of naloxone. Our observations clearly indicate that clonidine does not influence endogenous opioid system for producing cardiovascular effects.     

Cardiovascular responses to intrathecal administration of endomorphins in anesthetized rats

Endomorphins (EMs), the endogenous, potent and selective mu-opioid receptor agonists, have been shown to decrease systemic arterial pressure (SAP) in rats after intravenous (i.v.) administration. In the present study, cardiovascular responses to intrathecal (i.t.) injection of EMs were investigated in urethane-anesthetized rats. It is noteworthy that EMs elicited decreases in SAP and heart rate (HR) in a dose-dependent manner; 10-300nmol/kg were injected intrathecally. Furthermore, these vasodepressor and bradycardic effects were significantly antagonized by naloxone (0.5mg/kg, i.t.). Interestingly, i.t. (5mg/kg) or i.v. (50mg/kg) administrations of N(omega)-nitro-l-arginine methylester (l-NAME) attenuated the vasodepressor and bradycardic effects. Moreover, pretreatment of the rats with muscarinic receptor antagonist atropine (2mg/kg, i.v.) and alpha-adrenoceptor antagonist phentolamine (1mg/kg, i.v.) significantly reduced the vasodepressor effects of EMs. Nevertheless, pretreatment with beta-adrenoceptor antagonist propranolol (2mg/kg, i.v.) could only block the bradycardia effects induced by EMs, but had no significant effects on the hypotension. In summary, all the results suggested that i.t. administration of EMs decreased SAP and HR which were possibly mediated by the activation of opioid receptors in the rat spinal cord. In addition, nitric oxide (NO) release in both the spinal cord and in peripheral tissues might regulate the cardiovascular activities of EMs, and the muscarinic receptor and adrenoceptor played an important role in the regulation of the cardiovascular responses to i.t. administration of EMs.     

Evidence for a peripheral dopaminergic mechanism in the antihypertensive action of lergotrile

Lergotrile (0.5 mg/kg, i.p.) lowered blood pressure significantly in spontaneously hypertensive rats. This effect was antagonized by pretreatment with haloperidol, pimozide, or domperidone. In normotensive rats, administration of haloperidol or domperidone rapidly increased serum prolactin levels. Haloperidol also increased striatal levels of dihydroxyphenylacetic acid and homovanillic acid; however, domperidone did not, which confirms that this latter blocker probably acts primarily as a $\text{peripheral}$ dopamine antagonist. Taken together, these data suggest that lergotrile lowers blood pressure in hypertensive rats mainly by stimulating $\text{peripheral}$ dopamine receptors.     

Hypotensive effect of naloxone on high blood pressure induced by stress in the rat

A naloxone-reversible enhancement of systolic blood pressure (BP) was induced in rats by application of three different types of stressor, i.e. intense light and sound, cold and foot-shock. In the case of labile high BP provoked by short-term isolation, the opiate antagonist naloxone (1 mg/Kg, i.p.) was also found to reverse hypertension. Naltrexone (2.5 mg/Kg, i.p.) also diminished high BP readings of briefly isolated rats. Conversely, blockade of the opiate receptor with naloxone did not alter elevated BP in cases of established hypertension (spontaneously hypertensive rats, deoxycorticosterone (DOCA)-salt rats and long-term isolated rats). These data can be taken as an evidence of opioid involvement at the onset of high BP readings induced by stress. However, once hypertension becomes established, the opioid system appears to recover its silent features.     

Beta-adrenoreceptor blockade in the conscious rabbit: effects on plasma renin activity and blood pressure.

The administration of a single dose of dl-propranolol, 1 mg/kg i.v., in the conscious unstimulated rabbit produced effective beta-adrenoreceptor blockade (inhibition of isoprenaline tachycardia) for 150 min. During this period there was a positive correlation between plasma concentrations of propranolol and the degree of beta-blockade observed. In a further group of animals treated with propranolol, plasma renin activity (PRA) fell to 50% of control (P < 0.001) within 60 min, the rate of change of PRA also correlating with plasma propranolol levels. Similarly, there were reductions in mean blood pressure (P < 0.025) and heart rate (P < 0.025). Statistical relationships between the fall in blood pressure and either pre-treatment PRA or the change in PRA were consistent with the hypothesis that the hypotensive effect of propranolol was dependent upon its suppression of renin release. However, an alternative possibility that the fall in blood pressure was due to an acute reduction in cardiac output could not be excluded.     

Endogenous opioid peptides: do they mediate the acute antihypertensive action of clonidine in humans?

The involvement of endogenous opioid peptides in the antihypertensive action of acutely administered clonidine, a centrally acting adrenergic agonist, was studied in humans. Eight hypertensive subjects received clonidine 0.2 mg orally, naloxone 8 mg i.v. followed by a 0.13 mg/min infusion, and both drugs together on separate days. Clonidine resulted in a significant decrease in mean blood pressure, which was not affected by concomitant treatment with naloxone. Naloxone alone or with clonidine caused significant elevations in plasma aldosterone, not mediated by increased plasma renin activity. Plasma beta-endorphin was not increased after clonidine administration. In humans, the antihypertensive effects of acute clonidine administration do not appear to be mediated by the release or action of endogenous opioids.     

Cardiovascular responses to V1-vasopressinergic antagonism in conscious versus anesthetized rats

Experiments were performed to compare the possible effect of endogenous arginine vasopressin on renal hemodynamics between anesthetized, surgically stressed rats and conscious rats. Animals were instrumented with arterial and venous catheters as well as with a pulsed Doppler flow probe on the left renal artery. The rats were studied under the following conditions: (1) conscious and unrestrained; (2) anesthetized only; (3) anesthetized with minor surgical stress; and (4) anesthetized with major surgical stress. Two anesthetic agents were also compared, a mixture of ketamine (110 mg/kg i.m.) and acepromazine (1 mg/kg i.m.), and sodium pentobarbital (50 mg/kg i.p.). Baseline mean arterial blood pressure was significantly higher in pentobarbital-anesthetized rats following surgical stress compared with conscious animals, but blood pressure was not affected by ketamine-acepromazine anesthesia. After baseline measurements of blood pressure, heart rate, and renal blood flow, a specific V1-vasopressinergic antagonist (d(CH2)5Tyr(Me) arginine vasopressin, 10 mg/kg i.v.) was administered to each group. Mean arterial blood pressure, heart rate, and renal blood flow were monitored for an additional 15 min. Mean arterial blood pressure and renal blood flow decreased after V1 antagonism in ketamine-acepromazine-anesthetized rats with major surgical stress, but were not affected in pentobarbital-anesthetized animals. Heart rate and renal vascular resistance were not affected following V1 blockade with either anesthetic agent. These data suggest that arginine vasopressin plays a role in maintaining blood pressure and renal perfusion in ketamine-acepromazine-anesthetized rats following surgical stress, but does not have a significant effect on renal hemodynamics under pentobarbital anesthesia.     

Changes in the autonomic balance of the regulation of the rate of heart contractions during physical loading in chronic suppression or potentiation of the endogenous opioidergic system in rats

The influence of endogenous opioid system on the rat's mean blood pressure (BP) and heart rate (HS) has been studied under the chronic infusion of the opioid receptor antagonist naloxone (1 mg/kg intraperitoneally, twice a day, during 6 days) or an inhibitor of captorile enkephalinases (20 mg/kg subcutaneously). Naloxone caused a significant decrease and captorile--increase of maximum meanings of HR during exercises (the running on the treadmill during 3.5 min by the velocity of 30 m/min), both compounds didn't exert a considerable effect on BP at rest and during exercises. It has been concluded that the endogenous opioid system plays an important role in the autonomic HR regulation during exercise.     

The effect of naloxone on blood pressure, heart rate, plasma catecholamines, renin activity and aldosterone following exercise in healthy males

There is evidence that endogenous opioids are involved in blood pressure regulation. In the present study the effect of naloxone on the cardiovascular, sympathoadrenomedullary and renin-aldosterone response to physical exercise was investigated in 8 healthy males. Each subject performed a submaximal work test twice, i.e. with and without naloxone. The test consisted of ergometer bicycling for 10 minutes on 50% of the maximal working capacity (MWC), immediately followed by 10 min on 80% of MWC. Ten minutes before exercise the subjects received in a single blind randomized order a bolus dose of naloxone (100 micrograms/kg) or a corresponding volume of the preservatives of the naloxone preparation (control) followed by a slow infusion of naloxone (50 micrograms/kg/h) or preservatives, respectively. Naloxone was without effect on the exercise-induced changes in systolic blood pressure, heart rate, plasma noradrenaline, renin activity and aldosterone, but the adrenaline response increased markedly. The present results indicate that opioid receptors are involved in the plasma adrenaline response to submaximal exercise, but not in the regulation of systolic blood pressure, heart rate, plasma noradrenaline, renin activity and plasma aldosterone.     

GABA receptor binding and hemodynamic responses to ICV GABA in adult spontaneously hypertensive rats

Blood pressure and heart rate responses after central administration of GABA (100-1000 micrograms, ICV) and after ganglionic blockade with hexamethonium (25 mg/kg, i.a.) were compared in conscious 12 week-old spontaneously hypertensive (SH) and age-matched Wistar-Kyoto (WKY) rats. Ganglionic blockade produced an equivalent change in mean arterial pressure between SH and WKY rats. Thus, the total functional sympathetic nervous system contribution to blood pressure is equivalent in these two strains. Intraventricularly-administered GABA produced a greater absolute decrease in mean arterial pressure in the SHR compared to the WKY. However, the percent changes in arterial pressure produced by GABA were not different between these strains. This greater absolute depressor effect of GABA does not appear to be due to differences in GABA receptor binding constants since GABA receptor affinity and number of binding sites were not significantly different in the forebrain, cerebellum or pons-medulla between SH and WKY rats.     

The effects of acebutolol alone and in combination with furosemide or hydralazine in experimentally induced hypertensive G-minipigs

Experimentally induced hypertensive G-minipigs were used for assessing the antihypertensive effects of acebutolol, a cardioselective beta-adrenergic blocking agent. In the acute experiment, six females were used. Acebutolol (3 mg/kg, i.v.) alone or in combination with furosemide (1 mg/kg, i.v.) or hydralazine (1 mg/kg, i.v.) was administered through an implanted catheter. In the chronic experiments, five females received oral acebutolol (100-200 mg/day). The blood pressure, heart rate, plasma renin activity (PRA) and plasma aldosterone concentration (PAC) were used as parameters. In the acute experiment, there were no marked changes in the blood pressure or heart rate during the nondosing period. Acebutolol alone caused a marked decrease in the blood pressure and heart rate. In the two combination tests, combined administration with acebutolol and furosemide had a greater effect on the blood pressure and heart rate than did acebutolol alone. A combined acebutolol and hydralazine regimen caused a slight reduction not only in the blood pressure, but also in the heart rate compared with acebutolol alone. PRA and PAC remained essentially constant, with minor fluctuations, throughout the nondosing period. Following the injection of acebutolol alone, PRA showed an elevation with a significant rise after three hours and PAC showed a tendency to increase. PRA and PAC generally tended to increase in the case of combined administration with furosemide or hydralazine, but these tendencies were less conspicuous than with acebutolol alone. On the other hand, chronic treatment with acebutolol produced a significant decrease in the heart rate from two weeks after the administration and in the blood pressure from four weeks.(ABSTRACT TRUNCATED AT 250 WORDS)     

Effect of repeated treatment with desipramine in the behavioral "despair" test in rats: antagonism by "atypical" but not "classical" neuroleptics or antiadrenergic drugs

A 7-day treatment with 20 mg/kg/day desipramine reduced the immobility time in the behavioral "despair" test in rats. The effect of DMI was antagonized by sulpiride (100 mg/kg i.p.), metoclopramide (20 mg/kg i.p.) and clopazine (20 mg/kg i.p.) but not by haloperidol (0.5 mg/kg i.p.) or chlorpromazine (5 mg/kg i.p.). Alpha-adrenoreceptor blockers (prazosin 3 mg/kg s.c.; aceperone 10 mg/kg i.p.; azapetine 24 mg/kg s.c.; phentolamine 20 mg/kg i.p.), dl-propranolol (5 mg/kg i.p.) and clonidine (0.1 mg/kg i.p.) failed to modify the anti-immobility effect of DMI. The data suggest that a particular subtype of dopamine receptors is involved in the anti-immobility effect of a 7-day treatment with DMI in the behavioral "despair" test in rats.     

Naloxone reverses L-dopa induced overstimulation effects in a Parkinson's disease animal model analogue

Chronic L-DOPA treatment of Parkinson's disease frequently leads to the development of motoric overstimulation and hyperkinetic movements. To investigate this problem in the laboratory, rats surgically altered by unilateral 6-hydroxydopamine lesions (6-OHDA) were chronically treated with one L-DOPA (10 mg/kg i.p.) injection per day for 20 days. In this 6-OHDA rotation model, the unilateral dopamine denervation results in a profound contralateral sensory-motor neglect and the animals spontaneously rotate in a direction ipsilateral to the dopamine depleted hemisphere. Initially, the L-DOPA treatment did not alter the response bias but after several weeks, the response bias was reversed and the animals rotated in the formerly akinetic direction, contralaterally, at a significantly higher level. Using this overstimulation effect as an analogue of the clinically observed L-DOPA overstimulation, animals were given naloxone in conjunction with the L-DOPA treatment. Naloxone (0.10, 0.25 and 0.50 mg/kg i.p.) produced a dose related decrease in the L-DOPA induced contralateral rotation. Consistent with an expected selective effect on the L-DOPA induced rotation, a dose related increase in ipsilateral rotation was observed. These results suggest that naloxone can attenuate the overstimulation effect of L-DOPA and that this effect is not attributable to non-specific response suppression effects.     

Paradoxical effects of intracerebroventricular low-dose opioid antagonists in SHR with chronic pain.

The aim of our study was to investigate the effect of intracerebroventricular (i.c.v.) administration of very low doses of opioid antagonists on the pain threshold, arterial blood pressure and body temperature of spontaneously hypertensive rats (SHR) with chronic pain. We found that low doses of i.c.v. administered naloxone hydrochloride (0.3 microg) or naloxone methiodide (0.4 microg) produce paradoxical hypoalgesia. Similar results were not observed following i.c.v. administration of nor-binaltorphimine (0.6 microg). A paradoxical increase in the severity of hypertension followed i.c.v. opioid antagonist administration. This suggests an involvement of the opioid system in the mechanisms of blood pressure control. The paradoxical results obtained both for pain threshold and blood pressure after low doses of some opioid antagonists seem to confirm the role played by opioid autoreceptors in these effects. Existence of autoreceptors is suggested. Results obtained following i.c.v. administration of nor-binaltorphimine also suggest a role for the kappa autoreceptor (OP2) in the regulatory mechanisms of thermoregulation.