Activation of β2-adrenoceptors by isoprenaline and adrenaline enhances noradrenaline release in cortical kidney slices of young spontaneously hypertensive rats

Summary The aim of the present study was to investigate -adrenoceptor modulation of noradrenaline release from sympathetic nerves in superfused cortical kidney slices of 4-week-old spontaneously hypertensive rats (SHR) and age-matched controls (WKY). After preincubation with ³H-noradrenaline the kidney slices were electrically stimulated in superfusion chambers. The stimulation induced (S-I) outflow of radioactivity was mainly composed of unmetabolized 3H-noradrenaline in both strains and thus taken as an index of noradrenaline release. There was a frequency-dependent (1.25–20 Hz) increase in the S-1 outflow of radioactivity. At all stimulation frequencies tested S-I outflow of radioactivity was similar or even slightly lower in SHR than in WKY kidney slices in either the absence or presence of cocaine (10 mol/l). The non-selective -adrenoceptor agonists isoprenaline (0.l gmol/1) and adrenaline (0.01 and 0.1 mol/l) enhanced S-I outflow of radioactivity. The facilitatory effects of isoprenaline (0.1 mol/l) and adrenaline (0.1 mol/l) were blocked by the selective ₂-adrenoceptor antagonist ICI 118551 (0.1 mol/l) but not by the selective ₁-adrenoceptor antagonist atenolol (0.3 mol/l). The cell-permeable CAMP analogue 8-bromo-cAMP (300 mol/l) enhanced S-1 outflow of radioactivity to a similar extent in both SHR and WKY kidney slices. A combination of 8-bromo-cAMP (300 mol/l) and adrenaline (0.1 mol/l) did not enhance S-1 outflow of radioactivity to a greater extent than 8-bromo cAMP (300 mol/l) alone in both strains. However, the facilitatory effects of isoprenaline (0.1 mol/l) and adrenaline (0.1 mol/l) but not that of adrenaline (0.01 mol/l) were significantly greater in SHR than in WKY. The results suggest that stimulation of prejunctional ₂-adrenoceptors by adrenaline even in the absence of a-adrenoceptor blockade enhances noradrenaline release in kidney cortex of young SHR and WKY. This ₂-adrenoceptor mediated effect may possibly be dependent on cAMP formation. The greater facilitatory effects of isoprenaline (0.1 mol/l) and adrenaline (0.1 mol/l) in SHR as compared to WKY are in accord with receptor binding studies which show a higher density of ₂-adrenoceptors in SHR than in WKY kidney cortex.Abbreviations SHR Spontaneously hypertensive rats - WKY WistarKyoto rats - cAMP 3-5-cyclic adenosine monophosphate - S-I stimulation induced Send offprint requests to: L. C. Rump     

Effects of the novel dopamine DA2-receptor agonist carmoxirole (EMD 45609) on noradrenergic and purinergic neurotransmission in rat isolated kidney

Summary The effects of the classical dopamine DA₂-receptor agonist quinpirole (LY 171555) and the recently characterized DA₂-receptor agonist, carmoxirole (EMD 45609), on neurotransmission in rat isolated kidney were investigated. After preincubation with ³H-noradrenaline, the renal nerves were electrically stimulated. The stimulation induced (S-I) outflow of radioactivity was taken as an index of noradrenaline release. Quinpirole (0.3 mol/l) inhibited S-I outflow of radioactivity and pressor responses to renal nerve stimulation (RNS) at 1 Hz. Both effects of quinpirole were blocked by the DA₂-receptor antagonist S(–)-sulpiride (10 mol/l). The ₁, ₂-adrenoceptor antagonist phentolamine (1 mol/l) did not block the inhibitory effect of quinpirole. Carmoxirole (0.003 and 0.03 mol/l) did not alter and carmoxirole (0.3 mol/l) even enhanced S-I outflow of radioactivity, however, pressor responses to RNS were markedly reduced by carmoxirole (0.003–0.3 mol/l). Pressor responses to RNS were also markedly reduced by the ₁-adrenoceptor antagonist prazosin (0.1 mol/l). Carmoxirole (0.3 mol/l), prazosin (0.1 mol/l) and phentolamine (1 mol/l) totally abolished pressor responses to exogenous noradrenaline (0.05 mol/l). In contrast, quinpirole (0.3 mol/l) did not alter pressor responses to exogenous noradrenaline (0.05 mol/l). Furthermore, carmoxirole (0.003–0.3 mol/l) markedly reduced pressor responses induced by the ₁-adrenoceptor agonist methoxamine (1 mol/l) but even the highest concentration of carmoxirole (0.3 mol/l) had no effect on pressor responses induced by bolus injections of either neuropeptide Y (1.5 ng) or angiotensin II (1 ng). Phentolamine (1 mol/l) by itself markedly enhanced S-1 outflow of radioactivity and pressor responses to RNS were virtually unchanged. In the presence of phentolamine carmoxirole (0.03 and 0.3 mol/l) and quinpirole inhibited S-I outflow of radioactivity and pressor responses to RNS. Phentolamine resistant pressor responses to RNS were also inhibited by the P_2X-receptor desensitizing agent , -methylene adenosine triphosphate (mATP, 1 mol/l), which by itself in the presence of phentolamine did not alter S-I outflow of radioactivity. The inhibitory effects of carmoxirole (0.3 mol/l) in the presence of phentolame (1mol/l) were antagonized by S(–)-sulpiride (10 mol/l). The data suggest that activation of prejunctional DA₂-receptors by quinpirole inhibits noradrenaline release and thereby reduces pressor response to RNS at 1 Hz in rat isolated kidney. Carmoxirole activates prejunctional inhibitory DA₂-receptors, but this effect is masked by simultaneous blockade of inhibitory prejunctional -adrenoceptors. Pressor responses to RNS at 1 Hz in rat isolated kidney are largely due to neuronally released noradrenaline whereas phentolamine resistant pressor responses to RNS at 1 Hz are most likely due to ATP, which is co-released with noradrenaline. Carmoxirole inhibits pressor responses to RNS at 1 Hz as well as pressor responses induced by either exogenous noradrenaline or methoxamine by blocking postjunctional ₁-adrenoceptors. In addition carmoxirole and quinpirole seem to block phentolamine resistant pressor responses by inhibiting ATP release through activation of prejunctional DA₂-receptors. Send offprint requests to L. C. Rump at the above address     

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     

Evidence for a vasoconstriction-mediating receptor for UTP,distinct from the P2 purinoceptor,in rabbit ear artery

Summary 1. The mechanism of uridine 5-triphosphate-(UTP-)induced vasoconstriction was studied in the rabbit ear artery. The arteries were incubated and perfused at a constant rate of flow. Vasoconstriction was measured as an increase in perfusion pressure. 2. Noradrenaline, adenosine 5'-triphosphate (ATP) and UTP caused concentration-dependent vasoconstriction. ATP and UTP were approximately equipotent. 3. The vasoconstrictor effect of UTP 300 mol/l was enhanced by a mixture of atropine, diphenhydramine and methysergide (1 mol/l each) and not affected by indometacin 10 mol/l. 4. Prazosin (0.01 –1 mol/l) and phentolamine (1–10 mol/l) reduced the vasoconstrictor effect of UTP 300 mol/l by up to 34%. Prazosin 1 mol/l failed to diminish the vasoconstrictor effect of UTP 300 mol/l after the sympathetic nerves had been destroyed with 6-hydroxydopamine. 5. , -Methylene-ATP (10–50 ol/l) elicited transient vasoconstriction. Subsequently, vasoconstrictor responses to ATP 100 or 300 pmol/1 were reduced by 88%, whereas responses to UTP 100 gmol/1 were enhanced, responses to UTP 300 mol/l decreased by only 32% and responses to UTP 1000 gmol/1 reduced by 74%. After in vitro-denervation with 6-hydroxydopamine or in the presence of phentolamine 1 mol/l throughout, a, -methylene-ATP (10–50 mol/l) reduced the vasoconstrictor effect of UTP 300 mol/l by 44% and 43%, respectively. 6. We suggest that, in the rabbit ear artery, the non-adrenergic and , -methylene-ATP-resistant vasoconstrictor response to UTP is mediated by a separate receptor mechanism, distinct from the P₂ purinoceptor. Send offprint requests to K. Starke     

Trifluoperazine and calmidazolium have multiple actions on the release of noradrenaline from sympathetic nerves of mouse atria

The aim of this study was to determine whether the calmodulin inhibitors trifluoperazine (TFP) and calmidazolium (CMZ) could decrease the action-potential-evoked release of noradrenaline from mouse isolated atria incubated with [³H]-noradrenaline in support of the hypothesis that calmodulin is involved in neurotransmitter release.TFP (10 M and 30 M) significantly enhanced stimulation-induced (S-1) outflow of radioactivity from mouse atria but had no effect at 1.0 M or 70 M. TFP (70 M) also significantly increased the spontaneous outflow of radioactivity. The facilitatory effect of TFP (10 M) on S-I outflow of radioactivity persisted in either the presence of 3-isobutyl-1-methylxanthine (100 M) or atropine (0.3 M) indicating that this effect of TFP was not mediated through either inhibition of phosphodiesterases or through interference with presynaptic muscarinic receptors, respectively. In the presence of phentolamine, the facilitatory effect of TFP (10 M) on S-I outflow was reduced but there was no effect on S-I outflow at 70 M. However, in the presence of a combination of both phentolamine (l.0 M) and the neuronal uptake blocker desipramine (1.0 M) a significant inhibitory effect of TFP (70 M) on the S-I outflow of radioactivity was observed, indicating that effects of TFP on presynaptic a-adrenoceptors and neuronal uptake had disguised an inhibitory effect on S-1 noradrenaline release. Another inhibitor of the Ca²⁺-calmodulin complex, calmidazolium (CMZ, 10 M) inhibited the S-1 outflow of radioactivity but had no effect at 1.0 M. However, CMZ (10 M) also induced a concomitant increase in the spontaneous outflow of radioactivity. In the presence of both phentolamine (1.0 M) and desipramine (1.0 M), CMZ (10 M) also decreased S-1 outflow of radioactivity. The spontaneous outflow of radioactivity by calmidazolium (10 M) was mainly attributable to a rise in unmetabolized noradrenaline.Since concentrations of both TFP and CMZ, which inhibited S-1 noradrenaline release, also caused an increase in the spontaneous outflow of radioactivity, it is possible that the inhibitory effects on S-1 noradrenaline release may be secondary to changes in spontaneous outflow. This suggests that these drugs have complex effects on transmitter release dynamics which are perhaps due to multiple roles for calmodulin within the sympathetic nerve terminal. Correspondence to: M. Barrington at the above address     

Blockade of α2-adrenoceptors increases opioid μ-receptor-mediated inhibition of the firing rate of rat locus coeruleus neurones

Summary In pontine slices of the rat brain, the frequency of spontaneous action potentials of locus coeruleus (LC) neurones was recorded extracellularly. Noradrenaline 0.1–100 mol/l, UK 14,304 0.01–100 nmol/l, [Met⁵]-enkephalin 1–10,000 nmol/l and [D-Ala², D-Leu⁵]enkephalin 0.1–1,000 nmol/l, all depressed the firing rate. Rauwolscine 1 mol/l antagonized the effects of both noradrenaline and UK 14,304, but potentiated the effects of [Met']enkephalin and [D-Ala², D-Leu⁵]enkephalin. Idazoxan 1 mol/l acted in a similar manner. Prazosin 1 mol/l did not change the effects of either noradrenaline or [Met⁵]enkephalin. Naloxone 0.1 mol/l antagonized both [Met']enkephalin and [D-Ala², D-Leu⁵]enkephalin, but failed to alter the effects of either noradrenaline or UK 14,304. Rauwolscine, idazoxan and prazosin, all 1 mol/l, as well as naloxone 0.1 mol/l, did not influence the firing rate when given alone. Desipramine 1 mol/l inhibited the discharge of action potentials in a rauwolscine-antagonizable manner. Noradrenaline 10 mol/l produced the same depression of firing, both in the presence of noradrenaline 1 mol/l and [Met⁵]enkephalin 0.03 mol/l. Likewise, the effect of [Met⁵]enkephalin 0.3 mol/l was the same, irrespective of whether it was added to a medium containing [Met⁵]enkephalin 0.03 mol/l or noradrenaline 1 mol/l. The spontaneous activity of LC neurones is inhibited by somatic ₂-adrenoceptors and opioid -receptors. We suggest that the two receptors interact with each other at a site located between themselves and not in the subsequent common signal transduction system.Send offprint requests to: P. Illes at the above address     

Dopaminergic modulation of hippocampal noradrenaline release

Summary ³H-Noradrenaline release in the rabbit hippocampus and its possible modulation via presynaptic dopamine receptors was studied. Hippocampal slices were preincubated with ³H-noradrenaline, continuously superfused in the presence of cocaine (30 mol/l) and subjected to electrical field stimulation. The electrically evoked tritium over-flow from the slices was reduced by 0.1 and 1 mol/l dopamine and apomorphine, but significantly enhanced by 10 mol/l apomorphine or by 0.1 and 1 mol/l bromocriptine. If the ₂-adrenoceptor antagonist yohimbine (0.1 mol/l) was present throughout superfusion, the inhibitory effects of dopamine and apomorphine were more pronounced and even 10 mol/l apomorphine and 1 mol/l bromocriptine inhibited noradrenaline release. Qualitatively similar observations were made in the presence of another ₂-antagonist, idazoxane (0.1 mol/l). In the presence of the D2-receptor antagonist domperidone (0.1 mol/l) the inhibitory effects of dopamine were almost abolished, whereas both apomorphine (>1 mol/l) and bromocriptine (>0.01 mol/l) greatly facilitated noradrenaline release. The D2-receptor agonist LY 171555 (0.1 and 1 mol/l) significantly reduced the evoked noradrenaline release whereas the D1-selective agonist SK & F 38393 was ineffective at similar concentrations. The effects of LY 171555 were abolished in the presence of domperidone (0.1 mol/l) but remained unchanged in the presence of yohimbine or idazoxane (0.1 mol/l, each).At 1 mol/l the D2-receptor antagonists domperidone and (-)sulpiride significantly increased the evoked noradrenaline release by about 10%. However, at this concentration, domperidone (but not (-)sulpiride) affected also basal tritium outflow. Bulbocapnine and the preferential D1-receptor antagonists SCH 23390 enhanced the evoked noradrenaline release already at 0.1 mol/l. Their marked facilitatory effects (50 to 60% increase at 1 mol/l) were reduced in the presence of idazoxane (0.1 mol/l) and almost abolished in the presence of 0.1 mol/l yohimbine, whereas the increase due to 1 mol/l (-)sulpiride persisted under these conditions.The evoked tritium efflux from rabbit hippocampal slices preincubated with ³H-serotonin was not affected by dopamine receptor agonists.From our results we conclude that hippocampal noradrenaline, but not serotonin release, is modulated via D2-dopamine receptors. In addition, our results provide evidence for more or less pronounced ₂-adrenoceptor agonistic properties of dopamine and ₂-adrenoceptor antagonistic properties of apomorphine, bromocriptine, SCH 23390 and bulbocapnine in this noradrenaline release model from CNS tissue.     

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     

Differential effects of α-β-methylene ATP on responses to nerve stimulation in SHR and WKY tail arteries

Summary The effects of ,-methylene-adenosine triphosphate, (,-methylene ATP, a P₂-receptor desensitising agent) have been evaluated on vasoconstrictor responses elicited by exogenous agonists or electrical field stimulation in isolated perfused SHR or WKY tail arteries and on tritium release elicited by electrical field stimulation in SHR-tail arteries pre-labeled with ³H-noradrenaline.Exposure to ,-methylene ATP (0.1 mol/l) significantly inhibited vasoconstrictor responses to electrical field stimulation in SHR tail arteries. These inhibitory effects were not further increased at a higher concentration of ,-methylene ATP (1 mol/l). In WKY tail arteries, ,-methylene ATP (1 mol/l) failed to significantly inhibit vasoconstrictor responses to electrical stimulation.In SHR tail arteries prelabelled with ³H-noradrenaline, ,-methyleneATP (1 mol/l) did not inhibit the stimulation evoked release of tritium. However, at this concentration, ,-methylene ATP significantly antagonized the vasoconstrictor responses of SHR tail arteries induced by exogenous ATP (1 mol/l), ,-methylene ATP (30 mol/l), a stable agonist at P₂-receptors, or 60 mmol/l KCl. These effects of ,-methylene ATP on contractile responses to KCl were not observed in WKY-tail arteries.In tail arteries obtained from reserpine pretreated SHR, despite a 85–95% decrease in endogenous noradrenaline tissue content, the vasoconstrictor responses induced by periarterial field stimulation were greatly diminished, but not abolished. These residual responses to periarterial field stimulation were not antagonized by prazosin (0.1 mol/l), but were practically abolished by the addition of ,-methylene ATP (1 mol/l).In tail arteries from WKY rats pretreated with reserpine, exposure to prazosin (0.1 mol/l) further reduced the residual responses elicited by electrical field stimulation. In these WKY-tail arteries, addition of ,-methylene ATP (1 mol/l) did not further inhibit the remaining vasoconstrictor response obtained in the presence of prazosin.While our results suggest a significantly greater cotransmitter role for ATP with noradrenaline in tail arteries of SHR compared with control normotensive WKY rats, additional effects of ,-methylene ATP not involving P₂ receptors cannot be entirely excluded.     

P2-purinoceptor antagonists discriminate three contraction-mediating receptors for ATP in rat vas deferens

The sites of action at which ATP elicits contraction of the rat vas deferens were studied by means of the P₂-purinoceptor antagonists pyridoxalphosphate-6-azophenyl-2,4-disulfonic acid (PPADS), suramin and reactive blue 2.Increasing concentrations of PPADS (up to 1 mM), suramin (up to 1 mM) and reactive blue 2 (up to 320 M) reduced and eventually abolished contractions elicited by the P_2X-purinoceptor-selective agonist ,-methylene ATP 3 M with IC₅₀ values of 2.1, 10.1 and 27.0 M, respectively. In contrast, PPADS and suramin caused only a partial inhibition of contractions elicited by ATP 1 mM, maximal reduction by about 40%, IC₅₀ values 1.3 and 5.0 M, respectively; reactive blue 2 did not change ATP-induced contractions. In tissues exposed to PPADS 320 M throughout, increasing concentrations of reactive blue 2 or suramin decreased contractions elicited by ATP 1 MM, IC₅₀ values 2.6 and 14.5 M, respectively. In tissues exposed to suramin 320 M throughout, increasing concentrations of PPADS decreased contractions elicited by ATP 1 mM, IC₅₀ 37.9 M, whereas reactive blue 2 slightly enhanced these contractions. In tissues exposed to reactive blue 2 100 M throughout, increasing concentrations of PPADS reduced contractions elicited by ATP 1 MM, IC₅₀ 26.6 M, whereas suramin caused no change. Pre-exposure to ,-methylene ATP 1 M to desensitize P_2X-purinoceptors reduced the response to ATP 1 mM by 91% in otherwise untreated tissues, but did not reduce the response to ATP 1 mM in tissues exposed throughout to PPADS 320 M, suramin 320 M or reactive blue 2 100 M. Neither PPADS nor suramin nor reactive blue 2 altered contractions elicited by KCl 35 mM. The P₁-purinoceptor antagonist 8-(p-sulfophenyl) theophylline 100 M did not change contractions elicited by ,-methylene ATP 3 M or ATP 1 mM.It is concluded that ATP 1 mM elicits contraction of the rat vas deferens through three sites: P_2X-purinoceptors which are blocked by PPADS, suramin and reactive blue 2; P_2Y-purinoceptors blocked by reactive blue 2 and suramin but resistant to PPADS; and non-P_2X-non-P_2Y-purinoceptors blocked by PPADS but resistant to inhibition by suramin and reactive blue 2. Correspondence to: R. Bültmann at the above address     

SK&F 104078, a post-functionally selective α2-adrenoceptor antagonist in the human saphenous vein in vitro

Summary The present study investigated the effects of SK&F 104078 (6-chloro-9-[(3-methyl-2-butenyl)oxy]-3methyl-1H,2,3,4,-tetrahydro-3-benzazapine) at pre- and post functional ₂-adrenoceptors in the human isolated saphenous vein. Noradrenaline (0.001–100 mol/l) produced concentration-dependent contractions of the human saphenous vein which were competitively antagonised by the ₁-adrenoceptor antagonist prazosin (0.01–1.0 mol/l) and the ₂-adrenoceptor antagonist, rauwolscine (0.01–1.0 mol/l), indicating the presence of both post functional ₁- and ₂-adrenoceptors in this preparation. The selective ₂-adrenoceptor agonist, UK-14,304 (0.01–100 mol/l) also produced concentration-dependent contractions of the human saphenous vein which were antagonised by both rauwolscine (0.1 mol/l) and prazosin (0.1 mol/l). In the presence of angiotensin II (0.05 mol/l), which itself produced a transient contraction, rauwolscine (0.1 mol/l) produced a rightward shift of the UK-14,304 concentration-response curve while prazosin (0.1 mol/l) had no effect. SK&F 104078 (10.0 mol/l) under these conditions also produced a rightward shift of the concentration-response curve to UK-14,304, but was at least 100-fold less potent than rauwolscine. At pre functional ₂-adrenoceptors, exogenous noradrenaline (0.01 and 0.1 gmol/l) induced a concentration-dependent inhibition of stimulation-evoked [7-³H]-noradrenaline release from the human saphenous vein in vitro, which was antagonised by rauwolscine (0:1 mol/l) and tolazoline (10.0 mol/l) but not by SK&F 104078 (10.0 gmol/l).Rauwolscine (0.1 mol/l) produced a small increase in stimulation-evoked [7-³H]-noradrenaline release while both tolazoline and SK&F 104078 failed to produce any enhancement in release in the absence of exogenous agonist atconcentrationsupto10 gmol/l.Insummary, noradrenaline and UK-14,304 contracted the human isolated saphenous vein by an action at both postfunctional ₁- and ₂-adrenoceptors. These data demonstrate that SK&F 104078 discriminates between post- and pre-junctional ₂-adrenoceptors in the human isolated saphenous vein. Send offprint requests to M. V. Sennitt at the above address     

Mechanisms of the contractile effects of flosequinoxan

In guinea-pig papillary muscles the positive inotropic effect of flosequinoxan (BTS) starting at 100 mol/1 amounted to 287.6 ± 34.2% at 300 mol/l without any effects on time to peak tension (103.9 ± 2%) and relaxation time (107.1 ± 6.7% of predrug value, respectively). 10 mol/l carbachol attenuated the positive inotropic effect of 300 mol/l to 166.5 ± 11.6% (n = 10). The phosphorylation state of the inhibitory subunit of troponin (TnI) and phospholamban(PLB) in [³²P]-labeled guinea-pig ventricular myocytes was increased starting at 100 mol/l amounting to 142.5 ± 12.6% and 130.9 ± 2.2% at 300 mol/l, respectively (n = 5). Furthermore, BTS (300 mol/l) decreased phosphorylase phosphatase activity by 23.1%. It is concluded that the contractile effects of BTS are accompanied by enhanced phosphorylation of regulatory proteins which could in part be due to inhibition of phosphorylase phosphatase activity.     

Dopamine inhibits prostaglandin F2α-induced depolarization of rabbit jejunal arteries via activation of DA1-receptors

Summary In rabbit jejunal arteries, the membrane potential of single smooth muscle cells decreased on the application of noradrenaline 3 mol/1. LY 171555 1 mol/1 did not change, whereas SKF 38393 10 mol/1 reversed the effect of noradrenaline. When prostaglandin F₂ (PGF₂) was used to evoke depolarization in the presence of prazosin 0.1 mol/1, rauwolscine 1 mol/1 and propranolol 1 mol/1, both SKF 38393 10 mol/1 and dopamine 10 mol/1 repolarized the membrane. SCH 23390 1 mol/1 antagonized the effects of SKF 38393 10 mol/1 and dopamine 10 mol/1. Thus, the change in membrane potential is mediated by a DA₁-recep-tor.     

Methoxamine inhibits noradrenaline release through activation of α1- and α2-adrenoceptors in rat isolated kidney: involvement of purines and prostaglandins

Summary The effects of the at-adrenoceptor agonist methoxamine and the ₂-adrenoceptor agonist bromoxidine (UK 14034) on the stimulation induced (S-1) outflow of radioactivity at 100 Hz/6 pulses from rat isolated kidney preincubated with ³H-noradrenaline were investigated. Methoxamine (0.3 – 30 mol/l) inhibited S-1 outflow of radioactivity to a maximum of 83% with a pEC₅₀ of 5.85 (5.71–5.94). UK 14304 (0.0003-0.3 mol/l) inhibited S-I outflow of radioactivity to a maximum of 99% with a pEC₅₀ of 8.35 (8.26–8.47). a Adrenoceptor antagonist affinities (pK_D) against methoxamine and UK 14304 at prejunctional -adrenoceptors were determined. The concentration response curve of methoxamine was shifted to the right by the 1/_2B-adrenoceptor antagonist prazosin (0.1 mol/l) with a pK_D of 7.41 and that of UK 14304 by prazosin (0.3 mol/l) with a pK_D of 6.24. The ₂-adrenoceptor antagonist rauwolscine (0.1 mol/l) shifted the concentration response curve of UK 14304 potently to the right with a p_KD of 8.34. The concentration response curve of methoxamine was shifted also to the right by rauwolscine (0.1 mol/l) and the ₂-adrenoceptor antagonist idazoxan (0.1 mol/l), however, both antagonists suppressed the maximum response of methoxamine to 466% and 56%, respectively. A ten times lower concentration of rauwolscine (0.01 mol/l) did not shift the concentration response curve of methoxamine but the inhibitory effect of methoxamine still reached only a maximum of 59%. The concentration response curve of methoxamine obtained in the presence of rauwolscine (0.01 mol/l) was shifted to the right by further addition of prazosin (0.1 mol/l) with a pK_D of 8.80 but was also shifted to the right by either the purinoceptor antagonist 8-(p-sulfophenyl) theophylline (8-SPT; 100 mol/l) or the prostaglandin synthesis inhibitor indomethacin (20 mol/l). These results suggest that methoxamine inhibits S-1 outflow of radioactivity in rat isolated kidney probably through three different mechanisms. 1. Activation of postjunctional 1-adrenoceptors and prostaglandin mediated transjunctional inhibition. 2. Activation of postjunctional ₂-adrenoceptors and purine mediated transjunctional inhibition. 3. Activation of prejunctional inhibitory ₂-adrenoceptors at which methoxamine seems to be a partial agonist. Correspondence to L. C. Rump at the above address     

β-endorphin-sensitive opioid receptors in the rat tail artery

Summary Isolated tail arteries of rats were perfused and field-stimulated every 2 min with 2 pulses at 1 Hz. Different opioid peptides depressed the contractile responses to stimulation; their concentration-response curves showed a maximum at about 40% inhibition. The rank order of potency of the peptides was -endorphin (IC₅₀ = 97 nmol/1) BAM-22P > FK-33824 > DAGO > [d-Ala²,d-Leu⁵]-enkephalin metorphamide > dynorphin A-(1-13) [Met⁵]enkephalin. All these substances have in common a certain activity at opioid -receptors, although the enkephalins are preferential -, and the dynorphins preferential -agonists. However, the selective -agonist [d-Pen²,l-Pen⁵]enkephalin was ineffective at up to 10 mol/l, and the -agonists ethylketocyclazocine and U-50488 acted only at concentrations higher than 3 mol/l. Whereas the effects of -endorphin, DAGO and [d-Ala²,d-Leu⁵]enkephalin could be reduced by the -preferential antagonist naloxone, the effects of ethylketocyclazocine and U-50488 were not changed. The -selective antagonist ICI 174864 did not influence the action of [d-Ala²,d-Leu⁵]enkephalin. Naloxone in a concentration (1 mol/l) which nearly abolished the effect of DAGO 3 mol/l, slightly enhanced responses to stimulation. Neither -endorphin nor DAGO influenced vasoconstriction evoked by the application of noradrenaline or adenosine triphosphate; U-50488 reduced it. In arteries preincubated with [³H]noradrenaline DAGO depressed, whereas naloxone enhanced the tritium overflow and vasoconstriction evoked by field stimulation (0.4 Hz, 24 pulses every 14 min). In addition, naloxone antagonized the effect of DAGO. We suggest that the axon terminals of postganglionic sympathetic neurones in the rat tail artery possess -endorphin-sensitive opioid receptors of the -type. The activation of these receptors by exogenous or endogenous opioids inhibits the release of the neuroeffector transmitter.This work was supported by the Deutsche Forschungsgemeinschaft (SFB 325) Send offprint requests to P. Illes at the above address     

Release of ATP in rat vas deferens: origin and role of calcium

Release of endogenous ATP elicited by electrical (neural) stimulation and exogenous agonists was studied in the rat isolated vas deferens. The aims were to dissect neural and postjunctional contributions to the nerve activity-evoked overflow of ATP and to clarify the role of transmitter receptors and calcium in postjunctional ATP release.In tissues preincubated with [³H]-noradrenaline, electrical stimulation (100 pulses/10 Hz) elicited contraction and an overflow of tritium and ATP. Contractions as well as ATP overflow were reduced by prazosin 0.3 M and even more so by prazosin 0.3 M combined with suramin 300 M. They were also reduced by nifedipine 10 M and even more so by nifedipine 10 M combined with ryanodine 20 M (the additional effect of ryanodine on ATP overflow was not significant). In tissues not pretreated with [³H]-noradrenaline, exogenous noradrenaline 10 M and ,-methylene ATP 10 M elicited contraction and an overflow of ATP. Responses to noradrenaline were blocked by prazosin 0.3 M but not suramin 300 M and were greatly reduced by nifedipine 10 M and in Ca²⁺-free medium. Responses to ,-methylene ATP were blocked by suramin 300 M but not prazosin 0.3 M were reduced by nifedipine 10 M (effect on ATP overflow not significant) and were reduced even more in Ca²⁺-free medium. Neuropeptide Y 0.3 M caused only very small contraction and ATP overflow. The electrically as well as the agonist-evoked ATP overflow correlated well with the contraction responses except in experiments with suramin which retarded the removal, by vas deferens tissue, of ATP from the medium.Itsis concluded that the overflow of ATP from rat vas deferens elicited by electrical (neural) stimulation is at least 90% postjunctional, presumably smooth muscle, in origin. ATP is released from postjunctional cells as a consequence of both ₁-adrenoceptor and P₂-purinoceptor activation. Ca²⁺ is a second messenger in the postjunctional ATP release response; its major part enters through L-type channels. A purely neural overflow of ATP was not isolated under the conditions of the experiments. Correspondence to: R. Bültmann at the above address     

Identification of the neuroeffector transmitter in jejunal branches of the rabbit mesenteric artery

Summary Vasoconstriction or excitatory junction potentials (e.j.ps) evoked by nerve stimulation (15 field pulses at 2 Hz every 3 min) were recorded in rabbit isolated jejunal arteries. The resting diameter of the arteries and its decrease in response to stimulation was measured by a photoelectric method. Vasoconstriction was insensitive to prazosin 0.1 or 1 mol/l. Yohimbine 1 mol/l considerably enhanced, whereas ,-methylene ATP (,-meATP) 1 mol/l abolished the contractile response. In order to test the effect of exogenously applied transmitter candidates, noradrenaline (0.1–1 mol/l) and ATP (10–30 mol/l) were added in concentrations which evoked a vasoconstriction comparable to that induced by electrical stimulation. The action of noradrenaline was prevented by prazosin 0.1 mol/l, but was unaffected by both yohimbine 1 mol/l and ,-meATP 1 mol/l. ,-meATP 1 mol/l depressed the effect of ATP. The e.j.ps evoked by a train of 15 pulses showed facilitation up to the third response and thereafter depression; a partial summation was also observed. Prazosin 0.1 mol/l did not change the e j.p. amplitudes. By contrast, when yohimbine 0.1 or 1 mol/l was added to the prazosin-containing medium, both the late e j.ps in the train and the summation were enhanced in a concentration-dependent manner. ,-meATP 1 mol/l almost abolished the e.j.ps. In conclusion, in rabbit jejunal arteries, stimulation of postganglionic sympathetic nerves may release noradrenaline together with ATP which is probably the sole neuroeffector transmitter under our conditions. Transmitter release seems to be modulated by the activation of presynaptic ₂-adrenoceptors. Under the stimulation conditions of the present experiments the released transmitter does not activate postsynaptic ₁-adrenoceptors. Send offprint requests to P. Illes     

Infusion of γ2-MSH produce a conditioned taste aversion in morphine-dependent rats

A two flavour, unbiased, taste preference conditioning procedure was used to test for possible motivating effects of ₂-MSH. Three training trials failed to produce any significant effect with doses ranging from 2.4 to 40 g/ ICV infusion in drug-naive, non-operated or placebo-implanted rats. However, in rats made dependent by SC implantation of a morphine pellet 4 days earlier 15 g ₂-MSH/infusion produced a taste aversion that was comparable to that produced by infusion of a low dose of the competitive opioid receptor antagonist naloxone (0.32 g). The findings confirm with a conditioning procedure and with opiate-dependent animals the naloxone-like effects of ₂-MSH. They also suggest that this endogenously-located peptide may acquire an aversive property as a result of chronic morphine treatment.     

Methoxamine enhances the release of endogenous noradrenaline from rabbit ear artery: possible involvement of ATP

Summary The effect of methoxamine, an ₁-adrenoceptor agonist, on the electrically-evoked release of endogenous noradrenaline was examined in the isolated rabbit ear artery. Noradrenaline was quantified by high performance liquid chromatography-electrochemical detection. The release of adenine nucleotides and nucleosides by methoxamine was examined using high performance liquid chromatography-fluorescence detection.The release of noradrenaline evoked by electrical field stimulation (EFS) at 4 Hz was reduced by tetrodotoxin 0.3 mol/l and clonidine 1 mol/l by approximately 80% and 50%, respectively. On the other hand, methoxamine at 10 but not 1 mol/l enhanced the release of noradrenaline to approximately twice the control, and the enhancement was prevented by prazosin 1 mol/l. The facilitatory action of methoxamine was also abolished after desensitization of P₂-purinoceptors by ,-methylene ATP 30 mol/l as well as by the presumed P₂-purinoceptor antagonist suramin given at 10 mol/l. Exogenous ATP 10 mol/l significantly enhanced the EFS-evoked release of noradrenaline, and the enhancement was abolished by ,-methylene ATP and suramin. None of the drugs changed the spontaneous outflow of noradrenaline. These results indicate that endogenous ATP, acting at prejunctional purinoceptors, may participate in the facilitatory effect of methoxamine. Indeed, methoxamine 10 mol/l significantly enhanced the spontaneous outflow of ATP and, less so, ADP. The methoxamine evoked release of ATP and ADP was antagonized by prazosin 1 mol/l.It is concluded that methoxamine releases endogenous ATP from postjunctional sites which then, via prejunctional purinoceptors, facilitates action potential-evoked release of noradrenaline in rabbit ear artery.Supported by grants from the Mita Research Foundation, Matsue, Japan and Kanae Research Foundation, Osaka, JapanCorrespondence to K. Takeuchi at the above address     

Protection of presynaptic α-adrenoceptors against irreversible blockade by phenoxybenzamine: preservation of the modulatory effects of exogenous noradrenaline and yohimbine

Summary 1. Receptor protection experiments were carried out in order to study the site of action of -adrenoceptor agonists and antagonists on the release of noradrenaline. Cerebrocortical slices from rabbits were preincubated with ³H-noradrenaline. They were then superfused with medium containing cocaine 30 mol/l and stimulated electrically (3 Hz) three times, after 60, 250 and 295 min of superfusion (S₁, S₂, S₃). Phenoxybenzamine 10 mol/1 when used, was added between S₁ and S₂ for 30 min; putative protecting drugs (clonidine 100 mol/1 or yohimbine 10 mol/1) were present 5 min before and during the exposure to phenoxybenzamine and then washed out together with the latter. Either the voltage drop between the electrodes at S₂ and S₃ or the Ca²⁺-concentration of the superfusion medium at S₂ and S₃ was diminished, if necessary, in order to bring the overflow evoked by S₂ close to the overflow at S₁. Blockade by phenoxybenzamine, or protection against the blockade, was examined by addition of the test compounds noradrenaline 0.1 mol/1 or yohimbine 1 mol/1 before S₃. 2. In slices not exposed previously to -adrenoceptor ligands, noradrenaline 0.1mol/1 greatly reduced, whereas yohimbine 1 mol/1 greatly increased the evoked overflow of tritium. Both effects were abolished in slices treated with phenoxybenzamine 10 pmol/1 alone between S₁ and S₂. 3. In contrast to phenoxybenzamine alone, exposure to phenoxybenzamine 10 mol/1 in the presence of either clonidine 100 pmol/1 or yohimbine 10 mol/1 failed to abolish the effects of the test compounds noradrenaline 0.1 mol/1 and yohimbine 1 mol/1, although the effects were reduced. 4. It is concluded that the irreversible antagonist phenoxybenzamine, the protecting agents clonidine and yohimbine, the test compounds noradrenaline and yohimbine, and by inference endogenous noradrenaline as well, all act at the same site, namely the presynaptic -autoreceptor. Send offprint requests to K. Starke at the above address