Cardiovascular responses to the stimulation of alpha-1 and alpha-2 adrenoceptors in the conscious dog

Hemodynamic responses to the selective stimulation of alpha-1 and alpha-2 adrenoceptors were examined in chronically instrumented, conscious dogs. Norepinephrine (0.02-0.1 micrograms/kg/min), a mixed alpha-1/alpha-2 adrenoceptor agonist, phenylephrine (0.2-1.0 micrograms/kg/min), a selective alpha-adrenoceptor agonist and B-HT 920 (0.5-2.0 micrograms/kg/min), a selective alpha-2 adrenoceptor agonist, were infused i.v. after ganglionic (hexamethonium, 30 mg/kg i.v.), beta adrenoceptor (propranolol, 1, mg/kg i.v.) and muscarinic receptor (atropine methylbromide, 0.1 mg/kg i.v.) antagonism. Each of the alpha adrenoceptor agonists increased mean arterial pressure and total peripheral resistance but had no significant effect on cardiac output, stroke volume or heart rate. Equipressor doses of the alpha adrenoceptor agonists caused similar increases in left ventricular systolic and end-diastolic pressure, but there were no significant changes in left ventricular dP/dt or heart rate with any of the alpha adrenoceptor agonists. Selective antagonism of alpha-1 adrenoceptors with prazosin (1 mg/kg i.v.) abolished the pressor and vasoconstrictor responses to phenylephrine but had a lesser effect on the response to B-HT 920. Antagonism of alpha-2 adrenoceptors with rauwolscine (0.1 mg/kg i.v.) caused a significantly greater attenuation of the pressor and vasoconstrictor responses to B-HT 920 than to phenylephrine. The responses to norepinephrine were significantly attenuated by antagonism of either alpha-1 or alpha-2 adrenoceptors. Thus, in the conscious dog with reflex pathways blocked, selective stimulation of either postsynaptic alpha-1 or alpha-2 adrenoceptors increases arterial pressure and total peripheral resistance but does not significantly change heart rate, left ventricular dP/dt, stroke volume or cardiac output.     

Alpha-1 adrenoceptor selectivity of phenoxybenzamine in the rat kidney

The dose-dependent selectivity of an irreversible binding antagonist, phenoxybenzamine (POB), for renal alpha-1 adrenoceptors, was biochemically and physiologically characterized. Receptors were quantified with the radioligands [3H]prazosin and [3H]rauwolscine for alpha-1 and alpha-2 adrenoceptors, respectively. Alpha-1 adrenoceptor function was quantified by the shift of the norepinephrine and phenylephrine pressor response in vivo and the vasoconstrictor response in the isolated perfused kidney preparation. A renal alpha-2 adrenoceptor response was demonstrated by showing that epinephrine could reverse the effect of vasopressin on water and sodium in the presence of beta blockade and alpha-1 destruction by POB. Doses of POB from 0.1 to 10.0 mg/kg progressively reduced [3H]prazosin binding to renal alpha-1 adrenoceptors until there was no specific binding at the 10.0-mg/kg dose. At this dose more than 60% of [3H]rauwolscine binding to renal alpha-2 adrenoceptors was still present. POB 1.0 mg/kg/hr decreased specific binding to renal alpha-1 adrenoceptors by approximately 40% (P less than .05) but reduced the alpha-1 adrenoceptor-induced vasoconstriction in the nonrecirculating isolated perfused kidney to 10 to 20% of the control. This was the maximal dose of POB studied which did not affect the alpha-2 adrenoceptor-induced antagonism of vasopressin. Higher doses of POB (3.0 mg/kg/hr) demonstrated some alpha-2 adrenoceptor binding as indicated by an attenuation of the antagonism by alpha-2 adrenoceptors. Thus, POB displays selectivity for renal alpha-1 over alpha-2 adrenoceptors. Our data indicate that a dose of 1.0 mg/kg/hr of POB will leave alpha-2 adrenoceptors intact while functionally incapacitating alpha-1 adrenoceptors to 10 to 20% of the control value.     

Undifferentiated effects of calcium antagonists on pressor responses to selective alpha-1 and alpha-2 adrenoceptor agonists in anesthetized, spinal dogs

Whether pressor responses mediated by alpha-2 adrenoceptors are more susceptible to calcium antagonists than those mediated by alpha-1 adrenoceptors was investigated in anesthetized, spinal dogs. All drugs were administered i.v. Methoxamine (3-100 mu/kg) or xylazine (3-300 micrograms/kg) produced a sustained increase in mean arterial pressure but almost no effect on heart rate. Both the initial and the sustained phase of the pressor response to methoxamine were selectively antagonized by prazosin, whereas those to xylazine were selectively antagonized by yohimbine. These results indicate that the peripheral arterial bed of the dog comprises alpha-1 and alpha-2 adrenoceptors and that both the initial and sustained phases of the pressor response to methoxamine are predominantly mediated by alpha-1 adrenoceptors, whereas those to xylazine are mediated by alpha-2 adrenoceptors. The calcium antagonists, i.e., nifedipine (0.3-3 micrograms/kg), diltiazem (10-100 micrograms/kg) and KB-944 (10-100 micrograms/kg), administered during the sustained phase of the pressor responses to equieffective doses of methoxamine (100 micrograms/kg) and xylazine (1000 micrograms/kg), lowered mean arterial pressure. The three calcium antagonists in these doses also lowered the baseline mean arterial pressure but to a lesser extent than the elevated one. These results altogether indicate that the calcium antagonists were more effective in lowering mean arterial pressure elevated by either an alpha-1 or alpha-2 adrenoceptor agonist than the base-line mean arterial pressure and that the sustained phase of the pressor response mediated by alpha-1 adrenoceptors would involve Ca++ influx as much as or more than those mediated by alpha-2 adrenoceptors.     

Differential effects of nifedipine, nicorandil and nitroglycerin on the pressor responses elicited by selective alpha-1 and alpha-adrenoceptor agonists in conscious dogs

The influence of vasodilators with varying mechanisms of action on pressor responses mediated by alpha-1 and alpha-2 adrenoceptors was investigated in chronically instrumented, conscious dogs. After ganglionic, cholinergic and beta adrenergic blockade, equipressor doses of phenylephrine (0.6 microgram/kg i.v.), a selective alpha-1 adrenoceptor agonist, and B-HT 933 (20 micrograms/kg i.v.) a selective alpha-2 adrenoceptor agonist, were administered before and in the presence of infusions of nifedipine (0.25-2.0 micrograms/kg/min), nicorandil (4.0-32.0 micrograms/kg/min) or nitroglycerin (1.0-8.0 micrograms/kg/min). Nifedipine produced a dose-related attenuation of the increase in mean arterial pressure after bolus administration of phenylephrine (from 26 +/- 1 to 7 +/- 1 mm Hg) and B-HT 933 (from 29 +/- 2 to 5 +/- 1 mm Hg). Nicorandil did not affect phenylephrine-mediated pressor responses but significantly attenuated those to B-HT 933 (28 +/- 2 to 10 +/- 1 mm Hg). In contrast, nitroglycerin had no effect on either phenylephrine or B-HT 933-mediated responses. In additional experiments after autonomic nervous system blockade, multiple doses of phenylephrine (0.6, 1.25 and 2.5 micrograms/kg i.v.) and B-HT 933 (10, 20 and 40 micrograms/kg i.v.) were administered before and after i.v. infusions of nifedipine (1.0 microgram/kg/min) or nicorandil (16.0 micrograms/kg/min). Nifedipine significantly decreased the pressor responses to all doses of phenylephrine and B-HT 933. In contrast, the attenuation from control of alpha-2-mediated increases in arterial pressure by nicorandil was partially overcome at higher doses (40 micrograms/kg) of B-HT 933.(ABSTRACT TRUNCATED AT 250 WORDS)     

Differential antagonism of alpha-1 and alpha-2 adrenoceptor-mediated pressor responses by urotensin I, a selective mesenteric vasodilator peptide

In order to characterize the hemodynamic actions of urotensin I, a vasodilator peptide with selectivity for the mesenteric vascular bed, we studied its hypotensive effects and interference with alpha-1 and alpha-2 adrenergic vasoconstrictor responses in the rat. After i.v. administration in anesthetized rats, urotensin I (0.06-6 nmol/kg) produced a dose-dependent lowering of arterial blood pressure. At hypotensive doses, urotensin I was about 3 times more potent in antagonizing systemic pressor responses to the selective alpha-1 adrenoceptor agonist, phenylephrine, than responses to the nonselective adrenoceptor agonist, norepinephrine. Additional studies were performed on the blood-perfused mesenteric bed of the anesthetized rat and on the isolated rat superior mesenteric artery, using as tools phenylephrine, norepinephrine and the relatively selective alpha-2 adrenoceptor agonist, alpha-methylnorepinephrine. The selectivity of the three agonists for vascular alpha-1 and alpha-2 adrenoceptors in the blood-perfused mesenteric bed was confirmed using prazosin and yohimbine as selective antagonists of alpha-1 and alpha-2 adrenoceptors, respectively. Urotensin I diminished the maximum increase in perfusion pressure and shifted the log dose-response curves to the right for all three agonists. A marked selectivity of urotensin I for alpha-1 adrenoceptor-mediated responses was observed: IC30 values of the peptide for pressor responses to phenylephrine, norepinephrine and alpha-methylnorepinephrine were 0.05, 0.83 and greater than 6 nmol/kg, respectively. A less pronounced selectivity of urotensin I for alpha-1 adrenoceptor-mediated contractions could be demonstrated in isolated strips of the superior mesenteric artery of the rat.(ABSTRACT TRUNCATED AT 250 WORDS)     

Evidence for alpha adrenoceptor modulation of the nociceptive jaw-opening reflex in rats and rabbits

The jaw-opening reflex (JOR) in anesthetized rats and rabbits was the pain paradigm studied. The JOR was elicited by the electrical intrapulpal (left maxillary) stimulation and quantified by the measurement of threshold values for eliciting electromyograms (dEMGs) from the ipsilateral digastric muscle which served as the experimental nociceptive index. In both species, the threshold for the JOR was significantly elevated by the systemic administration of clonidine (12.5-50 micrograms/kg i.v.) and these JOR thresholds were inversely correlated with the frequency of stimulation. The analgesia elicited by clonidine was antagonized by pre- and postdrug treatment with the alpha-2 adrenoceptor antagonist yohimbine (1 mg/kg i.v.) but not the alpha-1 adrenoceptor antagonist prazosin (1 mg/kg i.v.) or the opiate receptor antagonist naloxone (1 mg/kg i.v.). The lipophilic alpha-1 adrenoceptor agonist St587 (100-400 micrograms/kg i.v.) had no significant effect on dEMG. Yohimbine did not antagonize the increase in dEMG elicited by morphine or pentobarbital. There was no direct correlation between the antinociceptive and cardiovascular effects of clonidine. Our results suggest that in the JOR nociceptive paradigm, clonidine elicits potent analgesia by activation of alpha-2 and not alpha-1 adrenoceptors.     

Effects of acute and chronic administration of idazoxan on blood pressure and plasma catecholamine concentrations of rats

To test the hypothesis that alpha-2 adrenoceptor antagonists can modulate sympathetic nerve release of norepinephrine in vivo through blockade of peripheral prejunctional alpha-2 adrenoceptors, acute and chronic effects of the alpha-2 adrenoceptor antagonist idazoxan on mean arterial pressure (MAP), heart rate and plasma catecholamine concentrations have been investigated in conscious and anesthetized rats. In normotensive rats, a single i.v. dose of idazoxan (300 micrograms kg-1) caused an immediate 2-fold increase in plasma concentration of norepinephrine and epinephrine, a transient increase in heart rate but no significant change in MAP. Plasma norepinephrine concentration of conscious normotensive rats increased significantly during a 4-hr i.v. infusion of idazoxan (300 micrograms kg-1 hr-1) with no concomitant changes in MAP or heart rate. In anesthetized spontaneously hypertensive rats, the increases in plasma norepinephrine concentration and heart rate caused by i.v. idazoxan (300 micrograms kg-1) were accompanied by a significant decrease in MAP. The increase in plasma norepinephrine after idazoxan in spontaneously hypertensive rats was much greater than that produced by an equihypotensive dose of the vasodilator hydralazine. Normotensive rats treated continuously for 7 days with s.c. idazoxan (7.5 mg kg-1 day-1) had similar blood pressures and plasma catecholamine concentrations to vehicle-treated rats. These results suggest that idazoxan causes a greater increase in plasma norepinephrine concentration than that which can be attributed to baroreceptor stimulation. Blockade of prejunctional alpha-2 adrenoceptors by idazoxan may, therefore, increase release of norepinephrine from peripheral sympathetic nerves of anesthetized and conscious rats. This effect is short-lived and does not influence blood pressure of normotensive rats.     

Evaluation of the alpha-1 and alpha-2 adrenoceptor-mediated effects of a series of dimethoxy-substituted tolazoline derivatives in the cardiovascular system of the pithed rat

The alpha-1 and alpha-2 adrenoceptor-mediated effects of a series of dimethoxy-substituted tolazoline derivatives were investigated in the cardiovascular system of the pithed rat. The 2,5- and 3,5-dimethoxy-substituted tolazoline derivatives produced vasopressor responses that were inhibited by the alpha-1 adrenoceptor antagonist, prazosin (0.1 mg/kg i.v.), and were not affected by the alpha-2 adrenoceptor antagonist, yohimbine (1 mg/kg i.v.), suggesting that these derivatives selectively activate postsynaptic vascular alpha-1 adrenoceptors. The 2,5- and 3,5-dimethoxy-substituted derivatives of tolazoline did not produce an alpha-2 adrenoceptor-mediated inhibition of neurogenic tachycardia in cord-stimulated pithed rats and were therefore presumed to be devoid of alpha-2 adrenoceptor agonist activity. In contrast, 2,3-dimethoxytolazoline produced a vasopressor effect that was inhibited by yohimbine but not by prazosin, suggesting selective activation of postsynaptic vascular alpha-2 adrenoceptors. Consistent with this observation is the fact that 2,3-dimethoxytolazoline elicited a dose-dependent, alpha-2 adrenoceptor-mediated inhibition of neurogenic tachycardia in cord-stimulated pithed rat. 3,4-Dimethoxytolazoline was a weak alpha-1 adrenoceptor agonist in the vasculature of the pithed rat and was devoid of agonist activity at alpha-2 adrenoceptors. However, 3,4-dimethoxytolazoline was found to be an alpha-2 adrenoceptor antagonist of similar potency as yohimbine. The results of the present study indicate that dimethoxy-substituted derivatives of tolazoline possess different activities and selectivities at alpha-1 and alpha-2 adrenoceptors depending upon the positions of substitution.(ABSTRACT TRUNCATED AT 250 WORDS)     

SL 84.0418: a novel, potent and selective alpha-2 adrenoceptor antagonist: in vitro pharmacological profile.

One novel, potent and selective alpha-2 adrenoceptor antagonist is 2-(4,5-dihydro-1H-imidazol-2-yl)-1,2,4,5-tetrahydro-2- propylpyrrolo[3,2,1-hi]-indole hydrochloride (SL 84.0418). It inhibits with high affinity the radioligand binding to rat cortical alpha-2 adrenoceptors, as well as to human platelet alpha-2 adrenoceptors labeled with [3H]idazoxan (Ki = 7 nM). SL 84.0418 has low affinity for alpha-1 adrenoceptors labeled with [3H]prazosin (Ki = 3.3 microM). In vitro, SL 84.0418 has no alpha agonist properties, whereas it is a potent alpha-2 adrenoceptor antagonist at both pre- and postsynaptic alpha-2 adrenoceptors. In contrast, it possesses low potency as an antagonist at postsynaptic alpha-1 adrenoceptors demonstrating a more than 1000-fold selectivity toward alpha-2 compared with alpha-1 adrenoceptors. In the same tests, the alpha-2 adrenoceptor antagonist idazoxan had a selectivity ratio of 200. SL 84.0418 is the racemic mixture of two enantiomers, SL 86.0715 [(+) enantiomer] and SL 86.0714 [(-) enantiomer]. The alpha-2 adrenoceptor blocking activities reside with SL 86.0715. Similar to idazoxan, SL 84.0418 increases in a concentration-dependent manner the electrically evoked release of [3H]norepinephrine from rat hypothalamic slices through the blockade of the presynaptic inhibitory alpha-2 adrenoceptors. In isolated hamster adipocytes, SL 84.0418 potently antagonizes the inhibition of lipolysis induced by UK 14,304. In addition, SL 84.0418 inhibits epinephrine-induced aggregation of rabbit platelets, effects mediated by postsynaptic alpha-2 adrenoceptors. SL 84.0418 does not inhibit (IC50 > 1,000 nM) radioligand binding to other receptors or recognition sites, nor does it inhibit calcium, sodium or potassium channels.(ABSTRACT TRUNCATED AT 250 WORDS)     

Evaluation of alpha-1 and alpha-2 adrenoceptor-mediated vasoconstriction in the in situ, autoperfused, pulmonary circulation of the anesthetized dog

Alpha-1 and alpha-2 adrenoceptor-mediated vasoconstriction was studied in the in situ, autoperfused pulmonary circulation of the open-chest anesthetized dog utilizing selective alpha adrenoceptor agonists and antagonists. Animals were pretreated with propranolol (1 mg/kg i.v.) to eliminate beta adrenoceptor-mediated effects in the pulmonary circulation. Blood was withdrawn from the right femoral artery and transferred, via a peristaltic pump, to the pulmonary arterial branch supplying the left diaphragmatic lobe of the lung. The flow rate of the pump was set so that the perfusion pressure in the lobe was equal to resting diastolic pulmonary artery pressure (10 +/- 1 mm Hg). Under conditions of constant left atrial pressure and pulmonary blood flow, intralobar administration of alpha adrenoceptor agonists elicited increases in perfusion pressure of the lobe, reflecting changes in pulmonary vascular resistance. Intralobar administration of the selective alpha-1 adrenoceptor agonist methoxamine and the selective alpha-2 adrenoceptor agonist B-HT 933 elicited dose-dependent increases in lobar perfusion pressure, as did the nonselective alpha adrenoceptor agonist norepinephrine. Prazosin (100 micrograms/kg i.v.), a selective alpha-1 adrenoceptor antagonist, inhibited pulmonary vasopressor responses to methoxamine and norepinephrine without altering significantly the response to B-HT 933. Rauwolscine (100 micrograms/kg i.v.), a selective alpha-2 adrenoceptor antagonist, inhibited the response to B-HT 933 and norepinephrine with little effect on methoxamine. Intralobar administration of tyramine to evoke the release of endogenous norepinephrine resulted in dose-dependent increases in lobar perfusion pressure. The response to tyramine was inhibited selectively by prazosin with little effect of rauwolscine.(ABSTRACT TRUNCATED AT 250 WORDS)     

Effect of aromatic fluorine substitution on the alpha and beta adrenoceptor-mediated effects of 3,4-dihydroxytolazoline in the pithed rat

The alpha and beta adrenoceptor-mediated effects of the catecholimidazoline, 3,4-dihydroxytolazoline, and its 2-, 5- and 6-aromatic fluorine-substituted derivatives have been studied in the cardiovascular system of the pithed rat. All four compounds produced vasopressor responses in beta adrenoceptor blocked (propranolol, 3 mg/kg i.v.) animals. The pressor responses produced by all four compounds were antagonized by the selective alpha-1 adrenoceptor antagonist, prazosin (0.1 mg/kg i.v.), and were relatively unaffected by the selective alpha-2 adrenoceptor antagonist, rauwolscine (0.5 mg/kg i.v.), indicating that vasoconstriction produced by the fluorinated imidazolines was mediated exclusively by postjunctional vascular alpha-1 adrenoceptors. The rank order of potency at the alpha-1 adrenoceptor was: 5-fluoro greater than 2-fluoro greater than desfluoro greater than 6-fluoro. At higher doses, 3,4-dihydroxytolazoline and its fluorinated derivatives produced an alpha-2 adrenoceptor-mediated inhibition of neurogenic tachycardia in animals pretreated with prazosin, with all four compounds being equipotent. In rats with complete alpha adrenoceptor blockade [phenoxybenzamine (3 mg/kg i.v.), prazosin (0.1 mg/kg i.v.) and rauwolscine (1 mg/kg i.v.)] whose blood pressure was elevated by constant infusion of angiotensin II (150 ng/kg/min i.v.), high doses of the 2-fluoro-, but not the 5-, 6- or desfluoro catecholimidazoline derivatives, produced a beta-2 adrenoceptor-mediated vasodepressor response. All four compounds produced a beta-1 adrenoceptor-mediated positive chronotropic response in pithed rats with the rank order of potency being: 2-fluoro = 5-fluoro greater than desfluoro greater than 6-fluoro.(ABSTRACT TRUNCATED AT 250 WORDS)     

Sympathetic and parasympathetic nerves regulate postsynaptic alpha-2 adrenoceptor in salivary glands

The effects of sympathetic denervation or parasympathetic decentralization on the inhibitory effects of postsynaptic alpha-2 adrenoceptors were studied in the submaxillary and the sublingual gland of the rat. Chronic sympathetic denervation enhanced by a factor of 10 the potency of clonidine to inhibit the secretory responses of the submaxillary gland to either norepinephrine or methacholine. In denervated glands, clonidine (1 microgram/kg), reduced markedly the response to norepinephrine, but potentiated this response in control glands. Blockade of postsynaptic alpha-2 adrenoceptors with idazoxan (3 micrograms/kg) enhanced the secretory responses of denervated glands to norepinephrine. Parasympathetic decentralization also potentiated the inhibitory effects of the alpha-2 agonists. In the submaxillary gland the potency of guanabenz to decrease the secretory response to methacholine was increased by a factor of 30. Supersensitivity to the inhibitory effects of clonidine was also observed in parasympathetically decentralized sublingual glands. Parasympathetic decentralization increased the maximum binding site of [3H]clonidine binding by about 50% in both the submaxillary and sublingual glands. No changes in KD were detected. This surgical procedure also increased the maximum binding site of [3H]prazosin binding in submaxillary glands. The present findings show clearly that interruption of either branch of the autonomic nervous system induces supersensitivity of the inhibitory response mediated through postsynaptic alpha-2 adrenoceptors. The enhanced inhibitory activity could mask alpha-1 adrenoceptor supersensitivity after postganglionic sympathetic denervation.     

Evidence for central alpha-2 adrenoceptors, not imidazoline binding sites, mediating the ethanol-attenuating properties of alpha-2 adrenoceptor antagonists.

The role of central adrenoceptors in the ethanol-attenuating effects of alpha-2 adrenoceptor blockers was investigated in mice; the centrally active antagonist atipamezole was compared with L 659,066, which penetrates the brain poorly. L 659,066 (1-10 mg/kg) had no effect on the hypothermia induced by ethanol (2 g/kg) or ethanol ataxia (2.4 g/kg), whereas atipamezole (1 mg/kg) significantly attenuated both ethanol-induced hypothermia and ataxia. Atipamezole (1-3 mg/kg) significantly attenuated the ethanol-induced reduction in exploratory head-dipping in a holeboard test whereas L 659,066 was only effective at a dose of 1 mg/kg, higher doses (3 and 10 mg/kg) and a lower dose (0.3 mg/kg) were ineffective. Atipamezole was without effect on ethanol's locomotor stimulant effect in the holeboard but L 659,066 attenuated this effect at doses less than 3 mg/kg Many alpha-2 adrenoceptor ligands also have affinity for nonadrenergic imidazoline-binding sites. The role these sites may play in attenuating ethanol's effects was investigated by comparing RX 821002 (methoxy idazoxan), which has little or no affinity for imidazoline-binding sites with atipamezole. Both atipamezo 1 e (1 mg/kg) and RX 821002 (0.06-0.2 mg/kg) significantly attenuated ethanol-induced hypothermia, ataxia and reduction in head-dipping, but were without effect on ethanol-induced locomotor stimulation. These results suggest that nonadrenergic imidazoline-binding sites are not implicated in the ethanol-attenuating properties of alpha-2 adrenoceptor antagonists.     

Fengabine, a novel antidepressant GABAergic agent. II. Effect on cerebral noradrenergic, serotonergic and GABAergic transmission in the rat

The effects of fengabine (a novel benzylidene derivative possessing clinically demonstrated antidepressant action) on neurochemical parameters related to norepinephrine, serotonin and gamma-aminobutyric acid (GABA) neurons have been investigated in the rat and mouse brain. When given acutely, fengabine (50-1000 mg/kg i.p.) does not alter norepinephrine uptake but accelerates the turnover rate of norepinephrine in the rat brain as demonstrated by the enhancement of: the alpha-methyl-p-tyrosine-induced disappearance of norepinephrine in the hypothalamus; 3,4-dihydroxyphenylacetic acid levels in noradrenergic cell body areas; the pargyline-induced accumulation of normetanephrine in the hypothalamus; and 3,4-dihydroxyphenylethyleneglycol levels in the hypothalamus, septum and spinal cord. No tolerance to the effect of fengabine on the latter biochemical parameter was observed after repeated treatment for 2 weeks at doses of 100 or 200 mg/kg i.p., b.i.d. Fengabine (100 or 200 mg/kg i.p., b.i.d.), given for 14 days, causes a desensitization of isoprenaline-stimulated adenylate cyclase in septal and cortical slices of the rat but fails to modify cortical beta, alpha-1 or alpha-2 adrenoceptor binding sites. Fengabine (up to 400 mg/kg i.p.) has no effect on rat cerebral serotonin uptake, synthesis or metabolism. Moreover, when given subacutely (100 or 200 mg/kg i.p., b.i.d. for 2 weeks), it fails to alter rat cortical serotonine receptors or [3H]imipramine binding sites. Fengabine (up to 50-100 microM) is also inactive in vitro on [3H] GABA binding to GABAA or GABAB receptors in the rat brain or on GABA transaminase activity in the mouse brain.(ABSTRACT TRUNCATED AT 250 WORDS)     

Electrophysiological actions of cocaine on noradrenergic neurons in rat locus ceruleus

Extracellular microelectrode experiments were conducted to study the effects of cocaine HCl on the activity of spontaneously firing single locus ceruleus (LC) noradrenergic neurons in vivo. The responses of single identified noradrenergic LC neurons to the systemic (i.v.) administration of cocaine were observed over a wide range of doses (0.0625-2.0 mg/kg). The spontaneous activity of all LC neurons receiving doses greater than the threshold dose (0.0625 mg/kg) was inhibited in a dose-dependent manner. The local anesthetics, procaine and mepivacaine, did not affect LC neuronal activity, action potential amplitude or slope. The inhibitory effects of cocaine on spontaneous LC neuron activity was reversed by the subsequent i.v. administration of the specific alpha-2 adrenoceptor antagonist, piperoxone, but not the opiate receptor antagonist, naloxone. Pretreatment with another alpha-2 adrenoceptor antagonist, yohimbine (5 mg/kg i.p.), attenuated significantly the inhibition of spontaneous LC activity elicited by i.v. cocaine. Intravenous cocaine produced a brief increase in mean arterial pressure which did not appear to be correlated with the more sustained inhibition of LC neurons. Reserpine pretreatment (10 mg/kg i.p.) attenuated significantly the inhibitory effects of cocaine on LC activity. These results suggest that the inhibition of spontaneous LC neuron activity by i.v. cocaine is most likely mediated by an augmented action of catecholamines at central alpha-2 adrenoceptors and not by the local anesthetic effects of cocaine.     

Role of receptor reserve in the inhibition of alpha-1 adrenoceptor-mediated pressor responses by calcium antagonists in the pithed rat

The effect of the calcium channel antagonists nifedipine and FR 34235 on the vasopressor response to alpha-1 adrenoceptor stimulation in the pithed normotensive rat was investigated. The maximal pressor response elicited by the full alpha-1 adrenoceptor agonist SK&F l-89748 was slightly but significantly reduced by 1-mg/kg doses of nifedipine (21 +/- 2%) and FR 34235 (34 +/- 4%). In comparison, the maximal pressor response to alpha-1 adrenoceptor stimulation by the partial alpha-1 agonist SK&F 88444 was markedly inhibited by nifedipine (51 +/- 1%) and FR 34235 (65 +/- 3%). Partial inactivation of the postsynaptic alpha-1 adrenoceptors with phenoxybenzamine (0.1 mg/kg) resulted in a maximal increase in diastolic pressure to alpha-1 adrenoceptor activation by SK&F l-89748 less than that induced by SK&F 88444. After phenoxybenzamine treatment, nifedipine and FR 34235 produced even greater reductions in the maximal vasopressor response to alpha-1 adrenoceptor stimulation by SK&F l-89748 (77 +/- 8 and 85 +/- 1%, respectively). Moreover, an inverse linear correlation (r = 1.00) was observed between the sensitivity of the maximal vasopressor response to nifedipine and FR 34235 and the magnitude of the maximal pressor response. The data suggest that the sensitivity of the alpha-1 adrenoceptor-mediated pressor response to inhibition by calcium antagonists in the pithed rat is inversely related to the magnitude of the pressor response, and they are consistent with the notion that the presence of "spare" alpha-1 adrenoceptors may determine the sensitivity of the pressor response to calcium antagonists.     

Classification of phenoxybenzamine/prazosin-resistant contractions of rat spleen to norepinephrine by Schild analysis: similarities and differences to postsynaptic alpha-2 adrenoceptors

The striking resistance of norepinephrine contractions of rat splenic strips to antagonism by the selective alpha-1 adrenoceptor antagonist prazosin was examined by Schild analysis. Prazosin was a simple competitive antagonist of contractions to phenylephrine indicating that this tissue possesses alpha-1 adrenoceptors. In contrast, the Schild regression for prazosin, with norepinephrine as the agonist, was nonlinear and had an overall slope of 0.24. These data indicated that norepinephrine activated a prazosin-resistant adrenoceptor in this tissue. As a working hypothesis, it was assumed that the prazosin-resistant receptor was an alpha-2 adrenoceptor; the concomitant addition of yohimbine, in concentrations below those required to block alpha-1 adrenoceptors, converted the atypical Schild regression for prazosin (norepinephrine as agonist) to a linear regression identical with that found for antagonism of phenylephrine responses. Selective alkylation of alpha-1 adrenoceptors with phenoxybenzamine (POB) eliminated responses to phenylephrine but not those to norepinephrine. After POB-alkylation and in the presence of a concentration of prazosin that was sufficient to produce a profound blockade of alpha-1 adrenoceptors, a response to norepinephrine remained. It was determined that the POB/prazosin-resistant response most likely was mediated by a homogeneous population of receptors by the finding that the Schild regressions for both yohimbine and idazoxan were identical with respect to slope and elevation when either norepinephrine or cobefrin were utilized as agonists, i.e., a difference in the regressions for these antagonists would be expected if the two agonists activated a heterogeneous receptor population.(ABSTRACT TRUNCATED AT 250 WORDS)     

Analysis of the presence of postjunctional alpha-2 adrenoceptors in the rat anococcygeus muscle

When the tone is raised by guanethidine, rat anococcygeus muscle produces inhibitory responses to field stimulation, whose mechanism is not understood properly. The present study is an attempt to investigate the role of alpha adrenoceptors in the field stimulation-induced relaxations in isolated rat anococcygeus muscle. When the tissues are contracted with clonidine, UK-14,304 and low doses of oxymetazoline, field stimulation produced relaxations at lower frequencies, but not in the tissues precontracted with phenylephrine and norepinephrine. Relaxations induced by low frequencies were blocked by idazoxan, but not by phentolamine, prazosin, indomethacin, N-methyl-hydroxylamine, ouabain or 3,4-diminopyridine. When the tone of the muscle is raised by norepinephrine, prazosin reversed the field stimulation-induced contractions to relaxation responses. The data of the present study suggested the possible involvement of alpha-2 adrenoceptors during the field stimulation-induced relaxations of the rat anococcygeus muscle. To analyze and quantitate the alpha-2 adrenoceptor antagonism in the rat anococgygeus muscle, Schild analyses of clonidine-induced contractions against idazoxan were conducted either for idazoxan alone or after partially alkylating the alpha-1 adrenoceptors with phenoxybenzamine and by pharmacologic resultant analysis by blocking the alpha-1 adrenoceptors with prazosin. The Schild regression for idazoxan and pharmacologic resultant analysis suggested that the rat anococcygeus muscle responds to alpha-2 agonists with alpha-1-mediated contractions and idazoxan competes with alpha-1 antagonists for the same site, i.e., alpha-1 adrenoceptor site. However, the atypical Schild regression of idazoxan after partial alkylation with phenoxybenzamine indicated the existence of a second alpha adrenoceptor site in the rat anococcygeus muscle.(ABSTRACT TRUNCATED AT 250 WORDS)     

Comparison of the alpha adrenoceptor activity of dopamine, ibopamine and epinine in the pulmonary circulation of the dog

The ability of dopamine, ibopamine and epinine to elicit alpha adrenoceptor-mediated vasoconstriction was studied in the in situ, autoperfused pulmonary circulation of the open-chest anesthetized dog. Animals were pretreated with propranolol to eliminate beta adrenoceptor-mediated relaxation of the pulmonary vasculature. Heparinized blood was withdrawn from the left femoral artery and transferred via a peristaltic pump to the pulmonary arterial branch supplying the left diaphragmatic lobe of the lung. The flow rate of the pump was adjusted so that mean pulmonary perfusion pressure in the lobe was equal to resting diastolic pulmonary artery pressure (10 +/- 1 mm Hg). Under conditions of constant left atrial pressure and pulmonary blood flow, intralobar administration of dopamine, ibopamine and epinine elicited dose-dependent increases in perfusion pressure of the lobe, reflecting increases in pulmonary vascular resistance. Prazosin (100 micrograms/kg i.v.), a selective alpha-1 adrenoceptor antagonist, inhibited the pulmonary vasopressor responses to dopamine, ibopamine and epinine. Rauwolscine (100 micrograms/kg i.v.), a selective alpha-2 adrenoceptor antagonist, inhibited pulmonary pressor responses to dopamine and epinine without altering significantly the pulmonary vasoconstrictor response to ibopamine. These data indicate that dopamine and epinine stimulate both postjunctional vascular alpha-1 and alpha-2 adrenoceptors to elicit pulmonary vasoconstriction in the dog, whereas ibopamine, when injected directly into the pulmonary circulation, stimulates primarily postjunctional vascular alpha-1 adrenoceptors. However, when ibopamine was administered intraduodenally, both prazosin and rauwolscine were found to inhibit the resulting pulmonary vasopressor response. This finding is consistent with the hypothesis that ibopamine is converted to its active metabolite epinine, which stimulates both pulmonary vascular alpha-1 and alpha-2 adrenoceptors.(ABSTRACT TRUNCATED AT 250 WORDS)     

Heterogeneity of smooth muscle alpha adrenoceptors in rat tail artery in vitro

Vascular smooth muscle alpha adrenoceptors in the proximal end of the rat isolated tail artery have been classified by determining pA2 values and -log KB values for the antagonists prazosin, corynanthine and idazoxan (RX 781094, a new synthetic alpha-2 adrenoceptor antagonist) against norepinephrine. The effects of the antagonists on responses to intramural sympathetic nerve stimulation were also assessed. Artery segments were perfused and superfused with Krebs' solution containing cocaine (4 microM) and propranolol (1 microM). Maximum responses to KCl, norepinephrine and nerve stimulation were not significantly different from one another. Corynanthine (0.1-100 microM), prazosin (10 nM-1 microM) and idazoxan (1-100 microM) caused competitive antagonism of norepinephrine responses with pA2 values consistent with the presence of alpha-1 adrenoceptors. However, idazoxan (10-100 nM) also caused parallel shifts in the concentration-response curves to norepinephrine with -log KB values higher than those consistent with the presence of alpha-1 adrenoceptors. The results have been interpreted to suggest a predominance of smooth muscle alpha-1 adrenoceptors in addition to a subpopulation of smooth muscle alpha-2 adrenoceptors which also contribute to vasoconstrictor responses to norepinephrine. In contrast to the results obtained with exogenous norepinephrine, responses to electrical stimulation were exquisitely sensitive to blockade by prazosin but resistant to idazoxan , suggesting an involvement of an alpha-1 adrenoceptor in these responses. It is concluded that idazoxan may be used to distinguish alpha-1 and alpha-2 adrenoceptors on vascular smooth muscle in vitro and that the results favor the existence of alpha-1 and alpha-2 adrenoceptors in terms of the existing subclassification scheme for alpha adrenoceptor subtypes.(ABSTRACT TRUNCATED AT 250 WORDS)