Phentolamine blocks presynaptic serotonin autoreceptors in rabbit and rat brain cortex

Summary Possible antagonist effects of phentolamine at presynaptic serotonin autoreceptors were studied in slices of the occipito-parietal cortices of the rabbit and the rat. The slices were preincubated with ³H-serotonin and then superfused and stimulated electrically with single pulses or pulse trains. Nitroquipazine 1 mol/l, a compound that inhibits the high affinity neuronal uptake of serotonin, was present in the superfusion medium in all one pulse-experiments as well as in experiments in which the effect of unlabelled serotonin was examined.In rabbit cortical slices, unlabelled serotonin reduced the single pulse-evoked overflow of tritium. Its concentrationresponse curve was not changed by the selective ₂-adrenoceptor antagonist idazoxan 1 mol/l but was shifted to the right by phentolamine 1 and 10 mol/l. Phentolamine 10 mol/l also shifted to the right the concentration-inhibition curve of the selective 5-HT₁-receptor agonist 5-carboxamidotryptamine. When the slices were stimulated by trains of 30 pulses at 3 Hz, phentolamine 1 and 10 mol/l but not 0.1 mol/l increased the evoked overflow of tritium, the maximal increase amounting to 178%; its effect was enhanced in the presence of nitroquipazine 1 mol/l plus idazoxan 10 mol/l (a drug combination that, when given alone, slightly increased the evoked overflow of tritium). The serotonin receptor antagonist metitepin at concentrations of 0.01–1 mol/l also increased the overflow of tritium elicited by 30 pulses/3 Hz, the maximal increase amounting to 280%; its effect was potentiated in the presence of nitroquipazine 1 mol/l plus idazoxan 10 mol/l but was abolished or almost abolished in the presence of nitroquipazine 1 mol/l plus phentolamine 10 mol/l (a drug combination that, given alone, greatly increased the evoked overflow of tritium). When slices were stimulated by trains of 360 pulses at 3 Hz, there was no apparent antagonism of phentolamine 10 mol/l against the inhibitory effect of unlabelled serotonin. In rat brain cortex slices, unlabelled serotonin reduced the overflow of tritium elicited by 4 pulses delivered at 100 Hz. Again, phentolamine 10 mol/l shifted the concentration-response curve to the right.It is concluded that phentolamine blocks presynaptic serotonin autoreceptors in rabbit and rat brain cortex with pA₂ values of 6.44 and 5.95, respectively. Previous failures to detect the antagonistic effect against exogenous agonists were probably due to stimulation conditions that led to marked endogenous autoinhibition of serotonin release. At least the major part of the increase by phentolamine of the release of serotonin is due to autoreceptor blockade rather than blockade of the presynaptic a2-adrenoceptors at the cortical serotoninergic axons.Send offprint requests to N. Limberger at the above address     

Involvement of presynaptic H3 receptors in the inhibitory effect of histamine on serotonin release in the rat brain cortex

Summary Rat brain cortex slices or synaptosomes preincubated with ³H-serotonin were superfused with physiological salt solution (which, in the case of slices, contained citalopram, an inhibitor of serotonin uptake), and the effects of histamine and related drugs on the evoked tritium overflow were studied.The electrically (3 Hz) evoked tritium overflow from slices was inhibited by histamine and the H₃ receptor agonists R-(–)--methylhistamine and N-methylhistamine (pIC_12.5 values: 6.41, 7.28 and 6.12, respectively), but not affected by the H₁ receptor agonist 2-(2-thiazolyl)ethylamine and the H₂ receptor agonist dimaprit (each at 10 mol/l). The concentration-response curve for histamine was shifted to the right by the H₃ receptor antagonists impromidine, burimamide and thioperamide (apparent pA₂ values: 7.45, 5.97 and 7.88, respectively); the concentration-response curve of serotonin for its inhibitory effect on the electrically evoked overflow was not affected by the three drugs (apparent pA₂ values: < 5.5, < 5.5 and < 6.5). Given alone, impromidine, thioperamide and a low concentration of burimamide facilitated the electrically evoked overflow. In slices superfused with K⁺-rich, Ca²⁺-free solution containing tetrodotoxin throughout and in synaptosomes superfused with Ca²⁺-free solution, histamine inhibited the overflow evoked by introduction of Ca²⁺ (in synaptosomes, simultaneously with an increased amount of K⁺). In either tissue, the effect of histamine was counteracted by thioperamide.The results provide evidence that exogenous and probably also endogenous histamine inhibits serotonin release in the rat brain cortex via presynaptic histamine H₃ receptors.Send offprint requests to E. Schlicker at the above address     

Alpha adrenoceptors in rat brain: Direct identification with prazosin

Summary Tritiated prazosin was used to characterize high affinity binding sites with characteristics similar to ₁ adrenoceptors in rat brain membranes. These sites were compared with ₂ adrenoceptors labeled with tritiated clonidine. The prazosin sites had an association constant of 2 nM^–1 and bound the ligand optimal around pH 7.0. The density of the sites was 300 fmoles per mg of protein; the half time of dissociation of prazosin was 7 min at 30° C. The order or potencies of agonists, determined from binding-inhibition experiments with labeled prazosin, was: naphazoline > clonidine > adrenaline > noradrenaline > phenylephrine > -methylnoradrenaline > dophamine. The order of potencies of antagonists was: prazosin > phenoxybenzamine > phentolamine > clozapine > yohimbine. Sodium ions and divalent cations as well as guanyl nucleotides have little or no effect on the binding of the labeled antagonist. This is in contrast to the binding of the labeled agonist clonidine (Glossmann and Presek, 1979a, 1979b). Labeled prazosin may be a useful tool to characterize ₁ adrenoceptors.This is part of the thesis of R. H. to be presented to the Fachbereich Humanmedizin, Justus Liebig-Universität Giessen, in partial fulfillment of the requirements for a Doctor of Medical Science degreee     

Alpha2-adrenoceptor-mediated responses to so-called selective alpha1-adrenoceptor agonists after partial blockade of alpha1-adrenoceptors

Summary In dog saphenous vein — a tissue possessing both postsynaptic ₁- and ₂-adrenoceptors — the effects of two selective ₁-adrenoceptor agonists (phenylephrine and methoxamine) were compared with that of the selective ₂-adrenoceptor agonist, UK-14,304, before and after phenoxybenzamine. Furthermore, the influence exerted by prazosin, yohimbine and verapamil on the effects of these agonists was also studied before and after phenoxybenzamine. In the absence of phenoxybenzamine, prazosin (56 nmol/l) caused a parallel shift of the concentration-response curves of both phenylephrine and methoxamine to the right (by 0.94 and 1.1 log units, respectively) and had no effect on the concentration-response curve of UK-14,304, while 20 nmol/l yohimbine caused a marked parallel shift of the concentration-response curve of UK-14,304 to the right (by 1.18 log units) and caused only minor displacements of those of phenylephrine and methoxamine (by 0.2 and 0.33 log units, respectively). After exposure of the strips to 30 nmol/l phenoxybenzamine, prazosin (56 nmol/l) caused small shifts of the concentration-response curves of both phenylephrine (by 0.36 log units) and methoxamine (by 0.31 log units) and did not change that of UK-14,304, while yohimbine (20 nmol/l) caused pronounced parallel shifts of the concentration-response curves (to the right) of all the agonists: phenylephrine (by 1.0 log units), methoxamine (by 0.93 log units) and UK-14,304 (by 1.28 tog units). When UK-14,304 was added to the bath during a sub-maximal contraction to phenylephrine it caused a further contraction almost up to the maximum; if this procedure was repeated after phenoxybenzamine (30 nmol/1), there was no further contraction to UK-14,304.In the absence of phenoxybenzamine, verapamil (5 mol/l) caused a parallel shift of the concentration-response curve of phenylephrine (or methoxamine) to the right and a non-parallel shift (with marked depression of the maximal effect) of that of UK-14,304. However, after phenoxybenzamine (30 nmol/l), the same concentration of verapamil caused non-parallel shifts of the concentration-response curves of the three agonists to the right with about equal depression of the maximal effects. We conclude that, after removal of ₁-adrenoceptor reserve by phenoxybenzamine, the responses to selective ₁-adrenoceptor agonists are predominantly ₂-adrenoceptor-mediated. This may explain why under these conditions, the selective ₁-and ₂-adrenoceptor agonists are equally antagonized by calcium entry blockers.This work was supported by a grant from the University of Porto (Subsidio para acção de investigação no. 36/85) Send offprint requests to S. Guimarães at the above address     

Alpha-receptor-mediated modulation of 3H-noradrenaline release from rat brain cortex synaptosomes

Summary The effects of oxymetazoline and noradrenaline (in the presence of desipramine) on the release of ³H-noradrenaline from rat brain cortex synaptosomes were studied using a superfusion technique. Both drugs (at 1M concentrations) were found to reduce the depolarization-induced (15 mM K⁺) release of ³H-noradrenaline. The release-modulating effect of noradrenaline was antagonized by phentolamine and yohimbine.The data provide direct evidence for the hypothesis that -receptors modulating the release of noradrenaline are localized on varicosities of central noradrenergic neurones.     

Evidence against a functional link between noradrenaline uptake mechanisms and presynaptic alpha-2 adrenoceptors

Summary Slices prepared from rat cerebral cortex were labelled with ³H-noradrenaline and superfused. Electrical field stimulation was carried out 15 min (S₁) and 45 min (S₂) after the start of collection of 5-min samples using 4 pulses delivered at 100 Hz. Drugs acting at ₂-adrenoceptors were added 20 min before S₂, and their effects were evaluated using the S₂/S₁-ratio. The ₂-adrenoceptor antagonists idazoxan (1 mol/l) and rauwolscine (1 mol/l) failed to increase stimulation-evoked overflow of radioactivity in the absence or presence of the noradrenaline reuptake inhibitor desipramine (1 gmol/l). This indicates that the duration of electrical stimulation was too short to allow development of ₂-adrenoceptor-mediated auto-inhibition by released noradrenaline. The effect of clonidine (3–1000 nmol/l) on stimulation-evoked overflow of radioactivity was tested in the absence and presence of three different reuptake inhibitors (desipramine, 1 ol/l; maprotiline, 1 ol/l; cocaine, 10 mol/l). The analysis yielded identical concentration-response curves under all conditions. These results argue against an action of inhibitors of neuronal reuptake of noradrenaline at the presynaptic ₂-adrenoceptor and against the concept of a functional link between uptake site and receptor. Send offprint requests to E. A. Singer     

Autoreceptors and α2-adrenoceptors at the serotonergic axons of rabbit brain cortex

Summary Slices of the rabbit occipito-parietal cortex were preincubated with ³H-serotonin and then superfused and stimulated electrically (2 min at 3 Hz). In the absence of drugs, the stimulation-evoked overflow of tritium was approximately 3% of the tritium content of the tissue. Unlabelled serotonin and 5-carboxamido-tryptamine, when administered in the presence of 6-nitroquipazine, reduced the evoked overflow of tritium. Their effects were antagonized by metitepin (apparent pA₂ value 8.1) and (±)-cyanopindolol (apparent pA₂ value 6.4). Metitepin, but not cyanopindolol, increased evoked tritium overflow; the effect of metitepin was greater in the presence than in the absence of nitroquipazine. The evoked overflow of tritium was also depressed by clonidine, an effect antagonized by idazoxan (apparent pA₂ value 7.0) but not by prazosin. Phenylephrine caused a decrease only at high concentrations that simultaneously accelerated basal tritium efflux. Prazosin and idazoxan did not change evoked tritium overflow, and phentolamine increased it significantly only when administered in the presence of (+)-oxaprotiline. Rauwolscine produced an inhibition that was prevented by metitepin. It is concluded that the serotonergic axons of the rabbit occipitoparietal cortex possess presynaptic, release-inhibiting serotonin autoreceptors and ₂-adrenoceptors. The receptors appear to receive an input of endogenous serotonin and, to a lesser extent, noradrenaline, under the conditions of these in vitro experiments.     

B-HT 920, B-HT 933, and B-HT 958: presynaptic effects on electrically evoked 3H-noradrenaline release from slices of rat brain cortex and hypothalamus

Summary The effects of the three azepine compounds, B-HT 920 (6-allyl-2-amino-5,6,7,8-tetrahydro-4H-thiazolo-[4,5-d]azepine), B-HT 933 [2-amino-6-ethyl-5, 6, 7, 8-tetrahydro-4H-oxazolo [4,5-d]azepine; azepexole] and B-HT 958 (2-amino-6-(p-chloro-benzyl)-4H-5, 6, 7, 8-tetrahydrothiazolo[5,4-d]azepine) on electrically evoked overflow of ³H-noradrenaline were studied. Slices from parietal cortex (C) or nucleus anterior hypothalami (nah) were incubated with ³H-noradrenaline, superfused at 23°C or 37°C in the presence of the noradrenaline uptake inhibitor desipramine (3 mol/l) and field stimulated at frequencies of 0.3 or 3 Hz. 1. At 37°C/0.3 Hz, B-HT 920 and B-HT 933 concentration-dependently decreased the evoked overflow of tritium in both regions studied, whereas B-HT 958 had no effect. 2. In a second set of experiments each drug was tested under three additional experimental conditions, i. e. 37°C/3 Hz, 23°C/ 0.3 Hz and 23°C/3 Hz. Increasing the stimulation frequency to 3 Hz or lowering the superfusion temperature to 23°C reduced the effects of B-HT 920 (1 mol/l) and B-HT 933 (10 mol/l) as compared to the effects at 37°C/0.3 Hz. When tested at 23°C/3 Hz, both drugs did not significantly affect the evoked overflow of tritium in the Cx or the nah. In contrast, B-HT 958 (10 mol/l), caused a facilitation of evoked overflow in both regions when the higher stimulation frequency or the lower superfusion temperature was used. Its release-enhancing action was most pronounced at 23°C/3 Hz. 3. Idazoxan (0.1 mol/l) antagonized the effects of BHT 920 (10 mol/l) and B-HT 933 (10 gmmol/l) in the Cx at 37°C/0.3 Hz. The ineffectiveness of B-HT 958 under these experimental conditions was not changed in the presence of idazoxan. Sulpiride (10 mol/l) did not affect the action of any of the three compounds. 4. From the patterns of effects obtained under the different experimental conditions it is concluded that B-HT 920 and B-HT 933 act as agonists at prejunctional ₂-adrenoceptors, whereas B-HT 958 acts as a weak antagonist at these sites. Send offprint requests to E. A. Singer at the above addressPreliminary results were presented at the 27th Spring Meeting of the Deutsche Pharmakologische Gesellschaft, March 11–14, 1986, Mainz, Federal Republic of Germany     

Facilitation of serotonin (5-HT) release in the rat brain cortex by cAMP and probable inhibition of adenylate cyclase in 5-HT nerve terminals by presynaptic α2-adrenoceptors

Summary Stimulation-evoked tritium overflow was examined in superfused rat brain cortex slices (stimulus: electrical impulses; 3 Hz) and synaptosomes (stimulus: potassium 12 mmol/l) preincubated with ³H-5-HT. 1. In slices and synaptosomes, the evoked ³H overflow was facilitated by forskolin and 8-Br-cAMP, but was not affected by AH 21-132 (an inhibitor of cAMP phosphodiesterase; cis-6-(p-acetamidophenyl)-1, 2, 3, 4, 4 a,10b-hexahydro-8, 9-dimethoxy-2-methylbenzo [c] [1,6]-naphthyridine). In the presence of AH 21-132, the facilitatory effect of forskolin on evoked overflow was increased. 2. In slices, AH 21-132 or combined administration of forskolin plus AH 21-132 did not change the percentage of basal or evoked ³H overflow represented by unmetabolized ³H-serotonin (about 30% and 60%, respectively). 3. In slices, cocaine or 6-nitroquipazine, an inhibitor of serotonin uptake, did not influence the increase in evoked overflow produced by forskolin plus AH 21-132. Forskolin plus AH 21-132 did not alter the inhibitory effect of serotonin (examined in the presence of 6-nitroquipazine) and the facilitatory effect of metitepin (a serotonin receptor antagonist) on evoked ³H overflow, but considerably decreased the inhibitory effect of clonidine or B-HT 920 (2-amino-6-allyl-5,6,7,8-tetrahydro-4H-thiazolo-[5,4-d]-azepine). The present results suggest that the serotoninergic nerve terminals in the rat brain cortex are endowed with an adenylate cyclase, which is negatively coupled to the presynaptic ₂-adrenoceptors, but is not linked to the presynaptic autoreceptors.This study was supported by a grant of the Deutsche Forschungsgemeinschaft. Part of the present results was reported at the 9th International Congress of Pharmacology, London 1984 (Schlicker et al. 1984) Send offprint requests to M. Göthert     

Endogenous dopa in rat brain

Summary dopa was isolated from rat brain by cation exchange chromatography and determined by a radioenzymatic method using catechol-O-methyl-transferase and [³H]-S-adenosyl-methionine as cofactor. The product [³H]-methoxytyrosine was purified by cation and anion exchange chromatography. For identification of presumed endogenous dopa isolated from rat brain and rat blood plasma the [³H]-labelled product was purified further by thin-layer chromatography.In the brain of rats killed by decapitation, dopa in a concentration of 7 ng/g was identified. When unstressed rats were killed by focussed microwave irradiation at 2.450 MHz and 8 kW for 1.3 s dopa levels as high as 20 ng/g were measured.The regional distribution of dopa in brain of rats killed by microwaves was similar to the distribution of catecholamines, dopa levels being highest in c. striatum and lowest in cerebellum. Inhibition of tyrosine hydroxylase with -methyl-p-tyrosine methylester HCl, 250 mg/kg i.p. 90 min before death did not change the brain dopa levels in rats killed by decapitation or in rats killed by microwaves. Compounds, such as haloperidol, chlorpromazine, apomorphine and pentobarbital which are known to increase or decrease catecholamine synthesis did not change the basal level of dopa.The data indicate that in rat brain, the main portion of dopa is associated with catecholamine-containing nerve terminals and that this portion is present in a pool which is only slowly metabolized. A second very small pool of dopa must exist, which is serving as precursor pool for catecholamines and which is turned over at a higher rate. It can be concluded that the basal dopa level cannot be used as an indicator of catecholamine synthesis.Part of this communication has been presented at the spring meeting 1979 of the German Pharmacological Society (Thiede and Kehr 1979).     

Clonidine-induced inhibition of sympathetic nerve activity: No indication for a central presynaptic or an indirect sympathomimetic mode of action

Summary The effects of clonidine on blood pressure, heart rate, contractile state of the nictitating membranes, spontaneous sympathetic nerve activity and response of sympathetic nerves to hypothalamic stimulation were compared in normal anaesthetized cats and in anaesthetized cats pretreated with reserpine and -methyl-p-tyrosine. The pretreatment lowered the noradrenaline content of various parts of the brain to less than 5 ng/g, i.e. to less than 1–3% of that of the controls. Under the conditions of this severe noradrenaline depletion, blood pressure and heart rate were low and spontaneous sympathetic nerve activity consisted of continous, high-amplitude discharges which contrasted with the low-amplitude bursts of activity—synchronous with the respiration—of the controls. In contrast to the controls, clonidine did not lower blood pressure and heart rate in the cats with noradrenaline depletion; however, the clonidine-induced contractions of the nictitating membranes were of similar magnitude and duration in both groups of animals. The efficacy of clonidine in reducing or abolishing spontaneous sympathetic nerve activity and in inhibiting the response of sympathetic nerves to hypothalamic stimulation was equal in controls and in cats with noradrenaline depletion, its potency being 3-fold higher in the former. The results indicate a direct stimulation of -adrenoceptors by clonidine both in the periphery and in the central nervous system and make it unlikely that the central effect of clonidine on blood pressure is due to a release of noradrenaline from central adrenergic neurones. It is further concluded that clonidine activates an adrenergic mechanism in the central nervous system by stimulation of postsynaptic -adrenoceptors. The inhibition of such a mechanism as a consequence of a diminished noradrenaline release due to stimulation of presynaptic -adrenoceptors—as proposed from in vitro experiments—seems to be of no importance for the central effect of clonidine on sympathetic nerve activity and blood pressure.Preliminary results have been presented at the 15th Spring Meeting of the German Pharmacological Society in Mainz (Haeusler, 1974a).     

Benzamide action at α2-adrenoceptors modifies catecholamine-induced contraction and relaxation of circular smooth muscle from guinea-pig stomach

Summary Dopamine was shown to act on the circular smooth muscle of the stomach body to cause contraction at a yohimbine-sensitive site (₂) and a relaxation at a prazosin-sensitive site (₁). Metoclopramide and tiapride failed to modify either response, failed to antagonise a relaxation to phenylephrine at 1(₁ sites in the same tissue, and failed to modify the contractions caused by dopamine and phenylephrine at an ₂-adrenoceptor site in the pyloric sphincter. However, (+)- and (–)-sultopride and (+)-sulpiride antagonised the dopamine-induced contractions of the stomach body indicating an ₂-antagonist action. An ability to attenuate the relaxation of this tissue may reflect a displacement of the contraction curve to the right rather than an ₂-antagonist action since the response to phenylephrine was not antagonised either in this tissue or in the pyloric sphincter. Within the central nervous system the (–)-enantiomers of sultopride and sulpiride have a highly selective dopamine receptor blocking action. This cotrasts with the present findings in the stomach musculature of a non-stereospecific antagonism at ₂-type adrenoceptors.     

The effect of gamma-butyrolactone on locomotor activity in the rat

The effect of -butyrolactone (GBL) on locomotor activity in the rat was studied. Low doses of GBL (100 and 200 mg/kg) had a biphasic effect on activity. Initially, the activity of the rats was reduced, and this reduction was then followed by a period of hyperactivity. The effect of -flupenthixol (50 g/kg -FPT), atropine (10 mg/kg), benztropine (25 mg/kg), protriptyline (15 mg/kg), and clomipramine (25 mg/kg) was investigated on this biphasic effect. -FPT reduced the hyperactivity while benztropine potentiated it; atropine, clomipramine, and protriptyline had little effect. It is concluded that the increase in activity could be due to a release of dopamine.     

The mycotoxin ochratoxin A is a substrate for phenylalanine hydroxylase in isolated rat hepatocytes and in vivo

Ochratoxin A (OTA), is a mycotoxin contaminating food and feed stuffs, consisting of a chlorinated dihydroisocoumarin linked through a 7-carboxyl group tol-phenylalanine by an amide bond. When OTA (0.12–1.4 mM) is incubated with freshly isolated rat hepatocytes, it inhibits both the hydroxylation of phenylalanine (0.05 mM) to tyrosine, catalyzed by phenylalanine hydroxylase and the subsequent metabolism of tyrosine as measured by homogentisate oxidation. The IC₅₀ of OTA for phenylalanine hydroxylation is 0.43 mM. OT, (0.5–1.0 mM), the dihydroisocoumarin moiety of OTA, does not inhibit phenylalanine hydroxylase activity under these conditions. During incubations of hepatocytes with uniformly labelled [³H]-OTA and unlabelled phenylalanine, tyrosine-ochratoxin A is formed (up to 6% of the total mycotoxin added), indicating that ochratoxin can act as a substrate for phenylalanine hydroxylase. In vivo tyrosine-OTA is also found in liver of poisoned animals.     

Alpha2-adrenoceptor antagonism and other pharmacological antagonist properties of some substituted benzoquinolizines and yohimbine in vitro

Summary Comparison of pA₂ values for antagonism of clonidine induced inhibition of the electrically evoked contraction of the rat isolated vas deferens ( ₁-adrenoceptors) and antagonism of contractions to methoxamine on the rat isolated anococcygeus ( ₂-adrenoceptors) showed a group of substituted benzoquinolizines (Wy 25309, 26392 and 26703) to be more potent and more selective ₂-adrenoceptor antagonists than yohimbine.The benzoquinolizines and yohimbine enhanced stimulation-evoked overflow of tritium from rabbit isolated pulmonary arteries preloaded with [³H]-noradrenaline, as expected for ₂-adrenoceptor antagonists. In contrast to the results on the rat vas deferens, yohimbine was more potent than the benzoquinolizines. At higher concentrations all the -adrenoceptor antagonists reduced the stimulation-evoked contraction of the pulmonary artery.The benzoquinolizines were competitive antagonists of 5-hydroxytryptamine on the rat isolated ileum. Wy 25309 showed only weak activity (pA₂=5.21) whereas Wy 26703 was more potent (pA₂=7.25). Yohimbine was a potent antagonist of 5-hydroxytryptamine.Wy 26703 was the only compound to have histamine antagonist effects in the guinea pig isolated ileum and to antagonise the chronotropic effect of isoprenaline on the isolated atria of the guinea pig and in both instances activity was weak (pA₂ values 5.3 and 5.5 respectively). Yohimbine reduced the spontaneous beating of the atria at 3×10^–6 M. No compound at 10^–5 M antagonised acetylcholine on the guinea pig ileum. These novel substituted benzoquinolizines should be useful experimental compounds for the study of -adrenoceptors mediated responses.     

A kinetic study of the release of noradrenaline by electrical stimulation: influence of presynaptic α-adrenoceptors

Summary Dog saphenous vein strips were incubated with 1.4 mol/l ³H-(-)-noradrenaline for 60 min, after inhibition of the noradrenaline-metabolizing enzymes and of extraneuronal uptake. At the end of the incubation period the strips were perifused for 150 min; cocaine (10 mol/l) was added to the perifusion fluid from t=75 min onwards. In some experiments either phentolamine (10 mol/l) or clonidine (0.1 mol/l) was also added at this time. Some strips were subjected to electrical stimulation from t=100 to 150 min of perifusion (t=0 being the start of perifusion), with frequencies ranging from 0.5 to 13.5 Hz. A compartmental analysis of spontaneous or electrically-induced efflux of ³H-noradrenaline was made. The spontaneous efflux had a long half time (t/2=124 min) and most of the ³H-noradrenaline which had accumulated in the strips did not participate in the efflux (bound fraction, representing 90% of tissue activity at t=100 min of perifusion). Neither phentolamine nor clonidine modified the half time or the bound fraction observed for spontaneous efflux. Electrical stimulation (>0.5 Hz) mobilized only one compartment of noradrenaline, which represented about 50% of the noradrenaline accumulated in the strips. The half time of ³H-efflux induced by electrical stimulation decreased when the frequency increased from 0.5 Hz up to 13.5 Hz. Phentolamine increased the rate of efflux for all frequencies of stimulation and decreased the half time of efflux. However, the releasable pool of noradrenaline was only increased by phentolamine at 0.5 Hz, but not at higher frequencies. Clonidine was used only at two frequencies of stimulation, 1.5 and 4.5 Hz. For the low frequency clonidine decreased the releasable pool, but no change was observed at 4.5 Hz.The results support the view that there is a norarenaline pool which is resistant to electrical stimulation and that its magnitude is not dependent on the activity of presynaptic -adrenoceptors.Results presented in part to the 13th Annual Meeting of the Portuguese Pharmacological Society (Porto, December 1982) and to the 5th Meeting on Adrenergic Mechanisms (Porto, October 1983)Work supported by a grant from Instituto Nacional de Investigação Científica (FmPl)     

α1B- but not α1A-adrenoceptors mediate inositol phosphate generation

Summary We used novel highly subtype-selective antagonists to study whether _1A- and/or _1B-adrenoceptors mediate the stimulation of inositol phosphate generation by noradrenaline in rat cerebral cortex. Phentolamine (10 M) and prazosin (100 nM) completely abolished the stimulated inositol phosphate generation. The _1A-selective antagonists 5-methyl-urapidil (100 nM) and (+)– and (–)-niguldipine (10 nM) caused only weak inhibition or none at all although these concentrations occupied _1A-adrenoceptors almost completely. In contrast, pretreatment with the irreversible _1B-selective chloroethylclonidine reduced the noradrenaline-stimulated inositol phosphate generation by 76 ± 8%. These data demonstrate that _1B-adrenoceptors couple to inositol phosphate generation; the signal transduction system of _1A-adrenoceptors remains unclear. Send offprint requests to G. Gross at the above address     

Comparison of cloned and pharmacologically defined rat tissue α1-adrenoceptor subtypes

Multiple ₁-adrenoceptor subtypes have been defined by pharmacological and receptor cloning techniques, but the precise alignment of cloned and pharmacologically-defined subtypes is still unclear. We have compared the affinities of 8 subtype-selective compounds at three cloned ₁-adrenoceptor subtypes (rat _1B, bovine _1C rat _1A/D) with those previously determined by the same methods in rat spleen, cerebral cortex, and kidney (Naunyn-Schmiedeberg's Arch. Pharmacol. 348: 385–395, 1993). Among all compounds tested to date at cloned ₁-adrenoceptor subtypes (+)-tamsulosin appears to be the most selective with a rank order of potency _1C > _{1A/D 1B}. Affinities for the _1A-selective 5-methyl-urapidil, methoxamine, oxymetazoline, phentolamine and (–)- and (+)-tamsulosin and for noradrenaline and SDZ NVI-085 at the splenic _1B-adrenoceptors and at their low affinity sites in cerebral cortex and kidney correlated best with those at the cloned _1B-adrenoceptor. Affinities of these drugs at their high affinity sites in cerebral cortex (pharmacologically-defined _1A-adrenoceptor) were matched best by those at the cloned _1C-adrenoceptor. Rat kidney appears to contain two chloroethylclonidine-resistant ₁-adrenoceptor subtypes one of which is similar to the cloned at _1C- and one to the cloned _1A/D-adrenoceptor. We conclude that the cloned _1B-adrenoceptor is the genetic correlate of the pharmacologically-defined _1B-adrenoceptor. An ₁-adrenoceptor subtype corresponding to the cloned _1A/D-adrenoceptor appears to exist in rat kidney. Among cloned ₁-adrenoceptor subtypes, the bovine _1C-adrenoceptor bears the closest resemblance to the pharmacologically-defined _1A-adrenoceptor in rat cortex and to one of the chloroethylclonidine-insensitive subtypes in rat kidney.     

Chronic dexamethasone administration decreases noradrenaline-stimulated, but not serotonin-stimulated, phosphoinositide metabolism in the rat brain

The present study was undertaken to investigate the effects of chronic administration of dexamethasone on the noradrenaline- and serotonin-stimulated (5-HT-stimulated) phosphoinositide metabolism in hippocampus and frontal cortex of the rat brain. For determination of phosphoinositide metabolism, slices from selected regions of the rat brain (hippocampus or frontal cortex) were loaded with myo- [³H] inositol and stimulated with the agonists (noradrenaline or 5-HT) in the presence of LiCl (7.5 mM). Administration of dexamethasone (1 mg/kg/day) every 2nd day for 14 days markedly reduced the noradrenaline-stimulated phosphoinositide metabolism in the rat hippocampus (IP₁: 60% of the control value). In the rat frontal cortex, the noradrenaline-stimulated phosphoinositide metabolism was less depressed by the chronic administration of dexamethasone (IP₁: 84% of the control value). However, the chronic administration of dexamethasone did not affect the 5-HT-stimulated phosphoinositide metabolism in the rat brain. The binding characteristics of ₁-adrenoceptors and 5-HT_2A receptors were unaffected by the chronic treatment with dexamethasone. These results indicate that chronic administration of dexamethasone induces regional and neurotransmitter-specific changes of phosphoinositide metabolism in rat brain. The results suggest that the reduction of noradrenaline-stimulated phosphoinositide metabolism is due do modification of the intracellular signal transduction system.     

Effects of NRA0045, a novel potent antagonist at dopamine D4, 5-HT2A,and alpha1 adrenaline receptors,and NRA0160, a selective D4 receptor antagonist,on phencyclidine-induced behavior and glutamate release in rats

Rationale Administration of phencyclidine (PCP) to animals produces abnormal behavior such as hyperlocomotion, stereotyped behavior, and ataxia; this abnormal behavior is only weakly blocked by dopamine D₂ receptor antagonists. This study examined the effects of a novel thiazole derivative, NRA0045 which potently antagonizes not only dopamine D₄ receptors but also 5-HT_2A and ₁ adrenaline receptors, and NRA0160, a selective dopamine D₄ receptor antagonist, on PCP-induced abnormal behavior, and accompanying increases in extracellular levels of glutamate in the medial prefrontal cortex. Furthermore, this study compared the effects of these drugs with those of clozapine and haloperidol.Methods To study the effects of NRA-drugs, atypical and typical antipsychotics, we measured locomotor activity with an infra-red sensor, and stereotypy and ataxia on a rating scale. Extracellular glutamate levels were measured by in vivo microdialysis.Results NRA0045 (1 or 3 mg/kg) or clozapine (1 mg/kg) attenuated hyperlocomotion, stereotypy, and ataxia induced by PCP (7.5 mg/kg) without affecting behavior after saline injection. Although haloperidol (0.1 or 1 mg/kg) attenuated or inhibited PCP-induced behavior, this drug also affected behavior after saline injection. NRA0160 (0.1, 1, or 3 mg/kg) had no effect on behavior induced by PCP or saline. NRA0045 (3 mg/kg), but not NRA0160, inhibited PCP-induced increases in glutamate levels in the medial prefrontal cortex. PCP-induced hyperlocomotion correlated with the PCP-induced increases in glutamate levels in this brain region.Conclusions These results suggest that the effects of NRA0045 on PCP-induced abnormal behavior are similar to those of the atypical antipsychotic clozapine. NRA0045 probably attenuates PCP-induced abnormal behavior by inhibiting the PCP-induced increase in glutamate levels in the medial prefrontal cortex; this inhibition may be mediated via the blockade of 5-HT_2A receptors.