Involvement of alpha-receptors in clonidine-induced inhibition of transmitter release from central monoamine neurones

Slices of rat cerebral cortex preincubated with (?)-³H-noradrenaline or ³H-5-hydroxytryptamine were stimulated by an electrical field, and the stimulation-induced overflow of tritium was determined. (1) Clonidine diminished the stimulation-evoked tritium overflow from slices preincubated with ³H-noradrenaline. The degree of this inhibition was greater at a low than at a high frequency of stimulation. (2) A high concentration of clonidine (10^?5 M) did not antagonize the increase of the stimulation-induced overflow caused by 10^?6 M or 10^?5 M cocaine, but abolished the increase caused by 10^?7 M of phentolamine or phenoxybenzamine. In the presence of cocaine, the inhibitory effect of clonidine was reduced. (3) 10^?5 M clonidine diminished the stimulation-evoked overflow of tritium from slices preincubated with ³H-5-hydroxytryptamine. (4) It is concluded that clonidine decreases, and phentolamine and phenoxybenzamine increase, the stimulation-induced release of noradrenaline from cerebral neurones by an activation and a blockade of α-receptors, respectively. A variety of secretory cells (secreting catecholamines, acetylcholine, 5-hydroxytryptamine, insulin or renin) seem to be endowed with structures similar to α-adrenergic receptors, which can modulate the secretion process.     

Sympathomimetic inhibition of noradrenaline release: Mediated by prostaglandins?

Summary In isolated perfused rabbit hearts, the effec of oxymetazoline and phentolamine on the stimulation-induced overflow of noradrenaline was tested after the synthesis of prostaglandins had been blocked by indomethacin. Indomethacin changed neither the decrease of overflow caused by oxymetazoline nor the increase caused by phentolamine. It is concluded that prostaglandins are not involved to any major degree in the modulation of noradrenaline release by drugs with affinity to -receptors, or in the feed-back inhibition of transmitter release mediated by the effect of liberated noradrenaline on -receptive sites.     

Pharmacological characterization of B-HT 933 (2-amino-6-ethyl-4,5,7,8-tetrahydro-6H-oxazolo-[5,4-d]-azepindihydrochloride) as a hypotensive agent of the “Clonidine-type”

Summary The contractile responses to transmural stimulation of, and the overflow of tritium from the rat portal vein prelabelled with ³H-noradrenaline were studied.The contractile responses of the rat portal vein were sustained throughout the period of stimulation. The tension developed did not decline when two consecutive periods of stimulation were compared. In contrast, the tritium overflow decreased during the second period of stimulation.Preincubation with 3 M phenoxybenzamine during 30 min increased 3-fold the tritium overflow during stimulation.Phentolamine and phenoxybenzamine were nearly equipotent in reducing the vascular response to stimulation. In contrast, phentolamine was less potent than phenoxybenzamine in increasing the ³H-noradrenaline overflow elicited by stimulation.The results obtained with phentolamine are interpreted in terms of a different potency of phentolamine to produce blockade of prejunctional and postjunctional -adrenoceptors in the rat portal vein.ATP inhibited by 70% the tritium overflow induced by stimulation. The potency of ATP in inhibiting the overflow increased when the prejunctional -adrenoceptors were blocked.The purine compounds ATP, ADP, AMP and adenosine were roughly equipotent in inhibiting stimulation-induced tritium overflow. The tritium released by stimulation decreased when uptake and metabolism of adenosine were inhibited. Under physiological conditions, a prejunctional purinergic inhibition of noradrenaline release might be involved in an endogenously mediated negative feed-back regulatory mechanism. It is possible that the purinergic inhibition of the noradrenaline liberation elicited by stimulation plays a physiological role in tissues with both purinergic and adrenergic innervation.     

Influence of drugs with affinity for α-adrenoceptors on noradrenaline release by potassium,tyramine and dimethylphenylpiperazinium

The influence of oxymetazoline and phentolamine on the overflow of noradrenaline evoked by potassium, tyramine and dimethylphenylpiperazinium (DMPP) was investigated in isolated perfused rabbit hearts.Oxymetazoline decreased, and phentolamine increased, the outflow of noradrenaline evoked by potassium. In hearts previously perfused with (?)-³H-noradrenaline, oxymetazoline reduced, and phentolamine enhanced, potassium-induced overflow of both ³H-noradrenaline and total tritium. These actions closely resemble previously described effects on noradrenaline overflow evoked by electrical stimulation of sympathetic nerves. At concentrations which modified the response to potassium, oxymetazoline and phentolamine did not influence the overflow evoked by tyramine. Both drugs diminished DMPP-induced overflow.It is concluded that oxymetazoline depresse noradrenaline release evoked by potassium or orthodromic action potentials through activation of neuronal α-adrenoceptors, followed by inhibition of electro-secretory coupling. Phentolamine blocks the analogous inhibitory effect of liberated noradrenaline and thus enhances release. The action of tyramine does not involve electro-secretory coupling and therefore is not changed. The influence of oxymetazoline and phentolamine on noradrenaline release by DMPP is not related to α-adrenoceptors.     

α-Adrenoceptor-mediated inhibition of noradrenaline release in rabbit brain cortex slices

Summary Brain cortex slices from rabbits were preincubated with [³H]noradrenaline and then superfused and stimulated electrically at 3Hz. In the presence of cocaine 30 M, unlabelled noradrenaline, -methylnoradrenaline, clonidine, oxymetazoline, xylazine and guanabenz decreased, whereas yohimbine, corynanthine, phentolamine, tolazoline and azapetine increased the stimulation-evoked overflow of tritium. Phenylephrine and prazosin had no effect on the evoked overflow except at concentrations that greatly accelerated the basal outflow of tritium. The results indicate that the noradrenergic axons of rabbit brain cortex are endowed with presynaptic -adrenoceptors which are exclusively of the ₂-type. Addition of various concentrations of cocaine, addition of pargyline, or stimulation at different current strengths was used to obtain either a high or a low stimulation-evoked overflow of tritium. Independently of the method used, a low evoked overflow coincided with a large percentage inhibition produced by 0.1M clonidine, whereas a high evoked overflow coincided with a smaller percentage inhibition produced by clonidine. The results indicate that drugs which block the re-uptake of noradrenaline diminish the presynaptic inhibitory effect of -adrenergic agonists by increasing the biophase concentration of released noradrenaline.     

Inhibition of adrenergic neurotransmission by clonidine: an action on prejunctional -receptors

According to previous work, several sympathomimetic agents decrease the release of noradrenaline in response to nerve impulses by an action on α-receptors which may be localized prejunctionally. The possibility of a similar mechanism of action of the antihypertensive agent clonidine was investigated in isolated rabbit hearts with intact postganglionic sympathetic nerves. (1) Clonidine diminished the overflow of noradrenaline evoked by sympathetic nerve stimulation. The degree of this inhibition was inversely related to the overflow caused by the control stimulation period before the infusion of clonidine. The negative correlation presumably reflects the competition between clonidine and liberated noradrenaline for a common inhibitory mechanism. (2) Clonidine prevented the increase of the stimulation-induced overflow of noradrenaline caused by phentolamine, but not that caused by cocaine. (3) The inhibition caused by both clonidine and the α-receptor-stimulant drug oxymetazoline was abolished by preinfusion of phenoxybenzamine. It is concluded that clonidine shares with other sympathomimetic agents the ability to depress the liberation of noradrenaline by an action on—probably prejunctional—α-receptors. The significance of this finding for the central hypotensive effect of clonidine is discussed.     

Modulation of noradrenaline release by presynaptic alpha-2 and beta adrenoceptors in rat atria

Summary The effect of pretreatment with the beta-2-selective adrenoceptor agonist, (+-)-clenbuterol (0.3 mg/kg, twice daily, 14 days) on prejunctional alpha-2- and beta-adrenoceptors was studied in rat atria. When atria from non-pre-treated rats had been preincubated with (³H)-noradrenaline, (-)-isoprenaline (0.02 to 4.0 M) did not affect tritium overflow evoked by stimulation of the cardioaccelerant nerves, but a higher concentration (40 M) decreased it. Blockade of prejunctional inhibitory alpha-2-adrenoceptors by yohimbine (0.03, 0.3 and 0.8 M) enhanced the overflow of tritium. In the presence of yohimbine, isoprenaline (1.2 M) significantly increased stimulation-induced transmitter overflow, suggesting that in rat atria the facilitatory effect of isoprenaline mediated via prejunctional beta-adrenoceptors, is masked by the dominant influence of inhibitory alpha-2-adrenoceptors. (-)-Propranolol (0.1 M) prevented the isoprenaline-induced increase in atrial rate and the isoprenaline-induced enhancement of transmitter release in the presence of yohimbine (0.3 M), but did not modify by itself the stimulation-induced efflux of tritium, suggesting that neuronally released noradrenaline failed to activate facilitatory prejunctional beta-adrenoceptors. When atria from clenbuterol-pretreated rats had been preincubated with ³H-noradrenaline, the facilitatory effect of yohimbine 0.03 and 0.3 M was markedly enhanced and, in this case, isoprenaline (1.2 and 12.0 M) failed to cause its facilitatory effect in the presence of the alpha-2-adrenoceptor antagonist. Propranolol did not modify the facilitatory effect of yohimbine. No changes in the isoprenaline-induced increase in atrial rate were observed in clenbuterol-treated rats. In addition, the treatment reduced the positive chronotropic effect of nerve stimulation without affecting the response to exogenous noradrenaline, suggesting a reduction in the transmitter release induced by nerve stimulation in clenbuterol-treated rats. These results suggest that chronic treatment with clenbuterol desensitizes facilitatory prejunctional beta-adrenoceptors, without affecting the postsynaptic beta-adrenoceptors, thus implying that prejunctional beta-adrenoceptors possess properties of the beta-2-subtype. Send offprint requests to M. A. Enero at the above address     

Further study of prerequisites for the enhancement by α-adrenoceptor antagonists of the release of noradrenaline

Summary Segments of the rabbit ear artery were preincubated with (–)-³H-noradrenaline and then perfused/superfused and stimulated by transmural electrical pulses. The outflow of ³H-noradrenaline and total tritium was determined.In the first series of experiments, stimulation periods of approximately constant length (50 s) were used (cocaine 5 M present). Thirteen pulses (0.25 Hz) elicited an overflow of ³H-noradrenaline of 0.024% of tissue tritium; 26 pulses (0.5 Hz) elicited an overflow of 0.059%, and 52 pulses (1 Hz) of 0.166%. Rauwolscine 1 M did not change the overflow evoked by 13 pulses, increased that evoked by 26 pulses and increased most markedly that evoked by 52 pulses. Phentolamine 1 M decreased the overflow at 13, did not change the overflow at 26, and increased the overflow at 52 pulses. Corynanthine 1 M decreased the overflow at 13, and did not change the overflow at 26 and 52 pulses. The effect of tetraethylammonium (TEA) 100 M was opposite to that of rauwolscine; it increased most markedly the overflow evoked by 13 pulses, increased less that evoked by 26 pulses, and least the overflow at 52 pulses.In the second series of experiments, the frequency of stimulation was kept constant (2 Hz). In the absence of cocaine, 10 pulses elicited an overflow of ³H-noradrenaline of 0.023% of tissue tritium; 20 pulses elicited an overflow of 0.043%, and 40 pulses of 0.089%. Phentolamine 1 M did not change the overflow evoked by 10 pulses, increased that evoked by 20 pulses, and increased most markedly that evoked by 40 pulses. TEA 100 M increased the evoked overflow at all pulse numbers. Similar results were obtained in the presence of cocaine 5 M.The results demonstrate that the enhancement by -adrenoceptor antagonists of the release of noradrenaline depends on the biophase concentration of noradrenaline. Under the present conditions, graded increases in biophase noradrenaline concentration led to graded increases in the effect of the antagonists. A second prerequisite for the release-enhancing effect appears to be a sufficient length of the pulse train. Under the present conditions, graded increases in train length up to about 20s led to graded increases in the effect of the antagonists, even though the average biophase concentration of noradrenaline did not change with the pulse train length. This pattern of effects of the -antagonists is not shared by at least one other release-enhancing drug, namely TEA.     

Endogenous noradrenaline as modulator of hippocampal serotonin (5-HT)-release

Summary The modulation of hippocampal serotonin (5-HT)-release by noradrenaline was studied in rabbit hippocampal slices, which were preincubated with ³H-serotonin and then superfused continuously. Electrical field stimulation of the slices elicited a tritium overflow, which was decreased by clonidine in a concentration dependent manner. Phentolamine antagonized the effects of clonidine and, given alone, increased the evoked tritium overflow. This facilitatory effect of phentolamine was further enhanced in the presence of (+)oxaprotilin, a highly selective noradrenaline uptake inhibitor, whereas the (-)enantiomer of oxaprotilin, which does not affect noradrenaline uptake, was inactive. (+)Oxaprotilin but not (-)oxaprotilin, given alone, inhibited the evoked tritium overflow. The inhibitory effect of (+)oxaprotilin was antagonized by phentolamine.In the presence of phentolamine, the -adrenoceptor antagonists yohimbine, rauwolscine and corynanthine decreased the evoked 5-HT-release concentration dependently. Their inhibitory effects were, however, abolished (corynanthine) or inversed to a facilitation of release (yohimbine, rauwolscine) if instead of phentolamine the 5-HT-receptor antagonist metitepin was present. Therefore we suggest that yohimbine, rauwolscine and corynanthine, in addition to their -adrenoceptor antagonistic properties, may act as agonists at 5-HT-autoreceptors. Possibly the indol part of their molecules is responsible for this effect. Furthermore, our results provide evidence for the modulation of hippocampal 5-HT-release by endogenous noradrenaline.This study was supported by the Deutsche Forschungsgemeinschaft (SFB 70)     

Release of noradrenaline and ATP by electrical stimulation and nicotine in guinea-pig vas deferens

Summary Effects of electrical stimulation and nicotine on ATP and tritium outflow and smooth muscle tension were studied in the guinea-pig isolated vas deferens preincubated with [³H]-noradrenaline. ATP was measured using the luciferase technique.Electrical stimulation caused biphasic contractions and an acceleration of ATP and tritium outflow. The contraction amplitude and the overflow of ATP increased markedly, whereas the overflow of tritium increased only slightly with the frequency of stimulation (1–10 Hz; constant number of 60 pulses). The contraction amplitude did not increase with an increase in pulse number (20–540 pulses; constant frequency of 5 Hz), whereas the overflow of ATP increased slightly, and that of tritium markedly. Nicotine caused monophasic, transient contractions and, again, an acceleration of ATP and tritium outflow. Contractions, ATP and tritium overflow increased with the concentration of nicotine (56–320 mol/l) in an approximately parallel manner. The influence of some drugs on responses to electrical stimulation (60 pulses, 5 Hz) and nicotine (180 mol/l) was investigated. Tetrodotoxin blocked all effects of electrical stimulation but did not change those of nicotine. The reverse was true for hexamethonium. Neither electrical stimulation nor nicotine caused contraction or an increase in ATP outflow after pretreatment with 6-hydroxydopamine. The main effects of prazosin 0.3 mol/l were to reduce electrically evoked contractions (above all second phase) as well as nicotine-evoked contractions and the nicotine-evoked overflow of ATP (the latter by about 81 %). Prazosin also tended to diminish the electrically evoked overflow of ATP. ,ß-Methylene-ATP 10 mol/l elicited a transient contraction and ATP overflow on its own. The main change in the subsequent state of desensitization was a decrease of the first phase of electrically evoked contractions. The main effects of prazosin combined with desensitization by ,ß-methylene-ATP were marked decreases of electrically evoked contractions (by 94%), the electrically evoked overflow ATP (by 66%), nicotine-evoked contractions (by 97%) and the nicotinee-voked overflow of ATP (by 70%).It is concluded that both electrical stimulation and nicotine release noradrenaline and ATP in guinea-pig vas deferens. Only part of the evoked overflow of ATP (about 32%) is neural in origin. Another part probably originates from smooth muscle cells where it is released by neurogenic noradrenaline acting at ₁-adrenoceptors. Corelease leads to cotransmission: electrically as well as nicotine-evoked contractions consist of adrenergic and purinergic components. Varying types of stimulation release cotransmitter mixtures of varying composition. Electrical stimulation at high frequency (for example 10 Hz) and with low pulse numbers (for example 20 pulses) seems to release the cotransmitters at a relatively high ATP/noradrenaline ratio. Activation of prejunctional nicotine receptors seems to release the cotransmitters at a relatively low ATP/noradrenaline ratio. Send offprint requests to Ivar von Kügelgen at the above address     

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.     

Inhibition by dopamine of 3H-noradrenaline release elicited by nerve stimulation in the isolated cat's nictitating membrane

Summary After loading the isolated nerve-muscle preparation of the cat nictitating membrane with ³H-(±)-noradrenaline the effects of exogenous dopamine and (-)-noradrenaline were determined on ³H-transmitter overflow elicited by nerve stimulation in the presence of cocaine, 29 M. Dopamine, 0.20 M, and (-)-noradrenaline, 0.18 M, inhibited ³H-noradrenaline release elicited by nerve stimulation at 4 or 10 Hz. Similar results were obtained with apomorphine 0.03 or 0.1 M. Chlorpromazine, 1 M, or pimozide, 1 M, antagonized selectively the reduction in ³H-noradrenaline release obtained with dopamine or apomorphine, without affecting the inhibition obtained with (-)-noradrenaline. Phentolamine, 1 M, antagonized more effectively the inhibitory effects of (-)-noradrenaline than those of dopamine. Phenoxybenzamine, 0.29 M, prevented the inhibition of ³H-transmitter overflow obtained with (-)-noradrenaline, dopamine or apomorphine. In the absence of cocaine neither chlorpromazine nor pimozide were able to increase ³H-transmitter overflow during nerve stimulation. In contrast to these results, block of -adrenoceptors by phentolamine or phenoxybenzamine resulted in an increase ³H-transmitter overflow during nerve stimulation. Inhibition by dopamine of ³H-transmitter overflow appears to be mediated through dopamine receptors probably located in the outer surface of adrenergic nerve endings. These dopamine receptors differ from the prejunctional -adrenoceptors that mediate the negative feed-back regulatory mechanism for noradrenaline release by nerve stimulation. The prejunctional inhibitory dopamine receptors are not involved in an endogenously mediated regulatory mechanism for noradrenaline release by nerve stimulation under normal conditions. The possibility that these dopamine receptors are involved in the hypotension commonly observed in patients with chronic l-Dopa treatment is discussed.     

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     

Effect of phentolamine on noradrenaline uptake and release

Summary The influence of phentolamine on the uptake of exogenous noradrenaline infused into the aortic cannula and on the overflow of endogenous noradrenaline caused by sympathetic nerve stimulation was investigated in the isolated perfused rabbit heart. 10^–6 M phentolamine doubled the overflow of endogenous noradrenaline, but did not change noradrenaline uptake. 10^–5 M phentolamine increased the stimulation-induced overflow of noradrenaline 4-fold and inhibited amine uptake by about 50%. 10^–4 M phentolamine elevated the overflow of noradrenaline less than 10^–5 and 3×10^–5 M did. The augmentation of transmitter overflow was only partly reversed by 13 min perfusion with drug-free medium.Pretreatment of hearts with 1.5×10^–5 M cocaine or with 10^–7 or 10^–6 M desipramine did not change the effect of phentolamine on the overflow of noradrenaline evoked by nerve impulses. Pretreatment of hearts with 10^–5 M, but not with 10^–6 M, phentolamine prevented the increase of transmitter overflow by cocaine.It is concluded that low concentrations of phentolamine potentiate the overflow of noradrenaline during nerve stimulation by a mechanism different from that of cocaine, i.e. different from inhibition of neuronal re-uptake. The nature of this mechanism is discussed.This work was supported by the Deutsche Forsehungsgemeinschaft. We have the pleasure to thank Mrs. Ch. Arts, Miss B. Piel and Mr. E. Hagelskamp for skilful technical assistance.     

Involvement of presynaptic imidazoline receptors in the α2-adrenoceptor-independent inhibition of noradrenaline release by imidazoline derivatives

Summary An involvement of imidazoline recognition sites in the modulation of transmitter release was investigated in the rabbit pulmonary artery and aorta preincubated with [³H]noradrenaline and superfused with physiological salt solution containing cocaine, corticosterone and propranolol. Electrical impulses were applied transmurally at 0.66 or 2 Hz. In the absence of further drugs, rauwolscine as well as the imidazoline derivatives BDF 6143 [4-chloro-2-(2-imidazoline-2-ylamino)-isoindoline], idazoxan and phentolamine increased the ³H overflow from the pulmonary artery, evoked by electrical stimulation at 2 Hz; the effect was due to the ₂-autoreceptor blocking property of these drugs. The maximum increase in overflow obtainable with the imidazolines was considerably lower than with rauwolscine. The concentration-response curves of the imidazolines were bell-shaped. At 0.66 Hz, BDF 6143 did not facilitate, but concentration-dependently inhibited, whereas idazoxan failed to change the evoked ³H overflow. When, at the stimulation frequency of 2 Hz, presynaptic ₂-adrenoceptors were blocked by rauwolscine and/or pre-exposure to phenoxybenzamine, the electrically evoked ³H overflow from the pulmonary artery and/or aorta was inhibited by the following imidazoline derivatives: the ₂-adrenoceptor antagonists BDF 6143, idazoxan and phentolamine, the ₁-adrenoceptor agonist with ₂-blocking property cirazoline as well as the ₂-adrenoceptor agonists clonidine and moxonidine. The maximum inhibition caused by BDF 6143 was greater than that due to clonidine and moxonidine; the latter two, hence, behaved as partial agonists. At the stimulation frequency of 0.66 Hz, the imidazolines exhibited a higher potency than, but a similar intrinsic activity to that at 2 Hz. Noradrenaline did not affect the evoked ³H overflow. The BDF 6143-induced inhibition of evoked ³H overflow was not modified by metitepine, atropine, theophylline, dipyridamole and indometacin, but was counteracted by the partial agonists clonidine and moxonidine.The results exclude the possibility that ₁- and ₂-adrenoceptors, 5-HT₁ receptors, muscarine receptors, P₁ purinoceptors and prostaglandin receptors are involved in the imidazoline-induced inhibition of noradrenaline release. They provide evidence indicating that the inhibitory effect is mediated by imidazoline receptors on the postganglionic sympathetic nerve terminals of the rabbit pulmonary artery and aorta.     

On the mechanism of alpha-receptor mediated modulation of 3H-noradrenaline release from slices of rat brain neocortex

Summary Brain cortical slices were superfused with Krebs-Ringer media and the effects of oxymetazoline (an -adrenoceptor agonist) and phentolamine (an -antagonist) on depolarization-induced ³H-NA release were examined. Depolarization was effected by various K⁺-concentrations or by electrical pulses.The effects of the -receptor agents on stimulated ³H-NA overflow appeared to be dependent on the strength of the depolarizing stimulus. Thus, at low K⁺-concentrations (13 or 26 mM) oxymetazoline decreased and phentolamine increased the stimulated overflow, while at 56 mM K⁺ little or no modulation was found. The agents acting on -receptors modulated ³H-NA release in a dose-dependent way (5 · 10^–8–10^–5 M).The lack of modulation by oxymetazoline of ³H-NA release induced by 56 mM K⁺ seems not to be due to a high concentration of NA released into the synaptic cleft, since reduction of the endogenous NA level by pretreatment with -methyl-para-tyrosine did not reveal such modulation.However, oxymetazoline was found to decrease 56 mM K⁺-induced ³H-NA release effectively, if the Ca²⁺-concentration in the medium was lowered from 1.2 to 0.2 mM. This suggests that -receptor mediated modulation of release may occur as a result of a change in Ca²⁺-availability to the depolarization-secretion process. In addition, hyperpolarization of nerve endings might be involved in the modulatory process, as concluded from calculations of the (theoretical) trans-membrane potential at various K⁺-concentrations.Although the -receptors modulating NA release seem to be localized presynaptically, their precise location remains uncertain. Experiments with tetrodotoxin suggested that the -receptor mediated modulation does not operate via a local interneuronal loop.     

Facilitatory presynaptic angiotensin receptors on the sympathetic nerves of the human saphenous vein and pulmonary artery. Potential involvement in β-adrenoceptor-mediated facilitation of noradrenaline release

Summary Spirally cut strips of human saphenous vein and pulmonary artery preincubated with ³H-noradrenaline were superfused in the presence of corticosterone and desipramine or cocaine. In the saphenous vein angiotensin I, angiotensin II and angiotensin III concentration-dependently increased the electrically (2 Hz) evoked tritium overflow (relative order of potency: angiotensin II > angiotensin I > angiotensin III). The angiotensin receptor antagonist saralasin displaced the concentration-response curve of angiotensin II to the right, and also blocked the facilitatory effect of angiotensin III. Captopril, an inhibitor of angiotensin converting enzyme, did not modify the concentration-response curve of angiotensin I and did not significantly diminish the release-increasing effect of the nonselective -adrenoceptor agonist isoprenaline, whereas saralasin attenuated the facilitatory effect of the ₂-adrenoceptor agonist procaterol. In the pulmonary artery the angiotensin receptor agonist Val⁵-angiotensin II-Asp¹--amide also increased the electrically evoked tritium overflow in a concentration-dependent manner. It is concluded that the sympathetic nerve fibres of the human saphenous vein (and probably of the human pulmonary artery as well) are endowed with facilitatory presynaptic angiotensin receptors. Angiotensin I exerted its facilitatory effect in the saphenous vein probably via direct stimulation of angiotensin receptors but not by conversion to angiotensin II. Furthermore, the ₂-adrenoceptor-induced facilitation of noradrenaline release may in part be mediated by local stimulation of angiotensin II synthesis, which may occur by increased formation or activation of renin and/or increased availability of angiotensinogen.This study was supported by a grant of the Deutsche Forschungsgemeinschaft Send offprint requests to M. Göthert at the above address     

Corelease of noradrenaline and ATP by brief pulse trains in guinea-pig vas deferens

Contractions and overflow of tritium and ATP elicited by single electrical pulses or short pulse trains were studied in the guinea-pig isolated vas deferens preincubated with [³H]-noradrenaline. ATP was measured using the luciferase technique.A single pulse caused only a small contraction and minimal tritium and ATP overflow. In contrast, trains of 6 pulses elicited marked contractions as well as tritium and ATP overflow. In experiments with 6 pulses/100 Hz, prazosin 0.3 M reduced the contraction by 73 %, did not change the evoked overflow of tritium, and reduced the evoked overflow of ATP by 85%. Suramin 300 M reduced the contraction by 69% but changed neither the evoked overflow of tritium nor that of ATP. The combination of prazosin 0.3 gM and suramin 300 M abolished the contraction, did not change the evoked overflow of tritium, and reduced the evoked overflow of ATP by 70%. When 6 pulses were applied at frequencies of 1, 2, 10 or 100 Hz, all responses increased with frequency up to a maximum at 10 Hz, but contractions and the evoked overflow of ATP increased with frequency to a greater extent than the evoked overflow of tritium. A similar frequency overflow relationship was observed when the medium contained prazosin 0.3 M and suramin 300 M (and evoked ATP overflow was greatly reduced). Yohimbine 1 M did not affect the overflow of tritium evoked by 6 pulses/100 Hz but increased that evoked by 6 pulses/10 Hz.The results demonstrate an overflow of both noradrenaline and ATP in response to short pulse trains. As observed previously for prolonged pulse trains, the major part of the evoked overflow of ATP was derived from non-neural cells. The ATP overflow remaining during ₁-adrenoceptor blockade by prazosin and P₂-purinoceptor blockade by suramin is likely to reflect neural release of ATP. The results support the view that release of ATP increases with frequency to a greater extent than release of noradrenaline. The latency for the onset of prejunctional ₂-autoinhibition in guinea-pig vas deferens is between 50 and 500 ms. Correspondence to: I. von Kügelgen at the above address     

Presynaptic β2-adrenoceptors on the sympathetic nerve fibres of the human saphenous vein: no evidence for involvement in adrenaline-mediated positive feedback loop regulating noradrenergic transmission

Summary Spirally cut strips of human saphenous veins preincubated with ³H-noradrenaline were superfused in the presence of corticosterone and, unless stated otherwise, of cocaine or desipramine. Tritium overflow was stimulated electrically (2 Hz). Adrenaline (in the presence of rauwolscine), isoprenaline and the preferential ₂-adrenoceptor agonist procaterol concentration-dependently increased the electrically evoked tritium overflow. Prenalterol, a -adrenoceptor agonist with moderate preference for ₁-adrenoceptors, was ineffective. The concentration-response curve of isoprenaline was shifted to the right by the nonselective -adrenoceptor antagonist propranolol and by the preferential ₂-adrenoceptor antagonist ICI 118,551, but was not affected by the ₁-selective antagonist atenolol. In experiments on strips preexposed to adrenaline 10 nmol/l (i. e. a concentration higher than that which normally occurs in vivo) for 32 min in the absence of cocaine or desipramine, the electrically evoked ³H overflow was not affected 12 and 44 min after withdrawal of adrenaline, irrespective of whether propranolol was absent or present in the superfusion fluid. — In veins incubated with ³H-adrenaline, a considerable amount of the radioactivity was accumulated. During subsequent superfusion with ³H-adrenaline-free solution, electrical stimulation induced tritium overflow in a tetrodotoxin-sensitive manner. Propranolol failed to modify the evoked tritium overflow. — It is concluded that the sympathetic nerve fibres of the human saphenous vein are endowed with facilitatory presynaptic ₂-adrenoceptors. These receptors do not seem to play a substantial role in a local adrenaline (previously taken up)-mediated positive feedback loop regulating noradrenergic transmission, at least under the present in vitro conditions.This study was supported by a grant of the Deutsche Forschungsgemeinschaft Send offprint requests to M. Göthert     

Influence of neuronal uptake on the presynaptic α-adrenergic modulation of noradrenaline release

Summary Conditions required for the inhibitory feedback modulation of noradrenergic neurotransmission were studied in isolated atria of the rat.The alpha adrenergic antagonist, yohimbine, 0.8 M, or phentolamine, 1 M, did not affect the chronotropic response to 4 or 8 shocks at 0.8 Hz but increased it when a higher number of shocks was applied. When neuronal uptake was inhibited by cocaine, 2.9 M, or desipramine, 0.1 M, the enhancement of neurotransmission by yohimbine or phentolamine was higher than that observed in the presence of -adrenergic antagonists alone.In atria preincubated with ³H-noradrenaline, the effect of the drugs on the ³H-overflow evoked by 240 shocks at 2.0 Hz was studied. Cocaine 2.9 M, did not increase the evoked overflow but yohimbine, 0.8 M, did. The ³H-overflow obtained in the group of yohimbine plus cocaine was significantly higher than was expected from the effects of both drugs alone.It is concluded that yohimbine or phentolamine enhance the chronotropic response in rat atria only when the concentration of noradrenaline in the biophase is sufficiently high to activate presynaptic receptors. In this tissue, the efficiency of the neuronal uptake influences the degree of -adrenergic autoinhibition.