Metabolism of endogenous and exogenous noradrenaline in the rabbit perfused heart

Summary The outflow of noradrenaline, 3,4-dihydroxyphenylglycol (DOPEG) and 3,4-dihydroxymandelic acid (DOMA) from rabbit perfused hearts was studied by chromatography on alumina followed by high pressure liquid chromatography with electrochemical detection. In the absence of drugs and without nerve stimulation, the outflow of endogenous noradrenaline over a period of 108 min averaged 0.17 pmol×g^–1×min^–1 and the outflow of DOPEG 2.1 pmol×g^–1×min^–1. The outflow of DOMA was below the detection limit (<0.13 pmol×g^–1×min^–1). The effect of perfusion with (–)-noradrenaline 0.1, 1 or 10 mol/l for 18 min was then investigated. As the concentration of noradrenaline increased so did the outflow of DOPEG. Moreover, DOMA was found in the venous effluent during and after perfusion with noradrenaline 1 or 10 mol/l. The increase in the outflow of DOPEG and DOMA was almost abolished when cocaine 10 mol/l was present during the perfusion with noradrenaline 1 mol/l. The release of endogenous noradrenaline by sympathetic nerve stimulation or tyramine 10 mol/l, but not the release evoked by nicotine 30 mol/l, was accompanied by an increase in the outflow of DOPEG; an outflow of DOMA was not observed.It is concluded that, in the rabbit perfused heart, DOPEG is an important metabolite of endogenous noradrenaline. DOMA is at best a minor product, either when the neurones are at rest or when noradrenaline is released by sympathetic nerve stimulation, nicotine or tyramine. DOMA is formed in detectable amounts when the tissue is exposed to a high concentration of exogenous noradrenaline. Like DOPEG, it is formed intraneuronally. The results confirm and extend those obtained previously on guinea-pig incubated atria. They make it unlikely that, in these tissues at least, DOMA formation is one of the physiological pathways of noradrenaline catabolism.     

Presynaptic dopamine DA2-receptors in rabbit jejunal arteries

Summary Excitatory junction potentials (e.j.ps) evoked by nerve stimulation with 15 pulses at 1 Hz were recorded from muscle cells of rabbit isolated jejunal arteries. LY 171555 1 mol/l, SKF 38393 10 mol/l, dopamine 10 ol/l and clonidine 0.1 mol/l depressed all e j.ps in the train. The percentage inhibition was inversely related to the number of pulses. S- and R-sulpiride, 10 mol/l, domperidone 1 mol/l, SCH 23390 1 mol/l and rauwolscine 1 mol/l did not change, or even depressed the first e j.ps. Of these compounds only S- and R-sulpiride, 10 mol/l and rauwolscine 1 mol/l facilitated the late e.j.ps. The percentage facilitation increased with the number of pulses until a maximum was reached; rauwolscine 1 ol/l had the largest effect. S- and R-sulpiride, 10 mol/l, as well as domperidone 1 ol/l antagonized the action of LY 171555 1 mol/l. S-Sulpiride was more potent than its R-isomer. SCH 23390 1 mol/l and rauwolscine 1 mol/l blunted the effect of SKF 38393 10 mol/l. Rauwolscine 1 mol/l slightly reduced the inhibition by dopamine 10 mol/l; S-sulpiride 10 mol/l was antagonistic only in the presence of rauwolscine 1 mol/l. When rauwolscine 1 mol/l, prazosin 0.1 mol/l, propranolol 1 mol/l and cocaine 10 mol/l was added to the medium, dopamine 10 mol/l continued to produce the same depression of e j.ps, as in the absence of these compounds. Under such conditions S-sulpiride 10 mol/l also counteracted dopamine 10 gmol/l. Rauwolscine 1 mol/l prevented the effect of clonidine 0.1 mol/l. The antagonists were not absolutely selective against only one type of agonist. We suggest that both presynaptic DA₂- and postsynaptic DA₁-receptors are present in rabbit jejunal arteries. The activation of either receptor-type may depress the e j.ps. Dopamine interferes with neuroeffector transmission due to ₂-adrenoceptor agonist properties; its DA₂-effect is unmasked only after ₂-adrenoceptor blockade. There was no evidence for a co-transmitter function of dopamine. Send offprint requests to P. Illes 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     

Adenosine but not an adenine nucleotide mediates tonic purinergic inhibition,as well as inhibition by glutamate,of noradrenaline release in rabbit brain cortex slices

Summary A possible contribution of adenine nucleotides to the endogenous purinergic, A₁-receptor-mediated inhibition of noradrenaline release was studied in rabbit occipito-parietal cortex slices. The slices were preincubated with [³H]-noradrenaline and then superfused and stimulated electrically, in most experiments by trains of 6 pulses/100 Hz. A few experiments were carried out in rat occipito-parietal cortex slices. The A₁-purinoceptor antagonist 8-cyclopentyl-1,3-dipropylxanthine (DPCPX; 1–100 nmol/l) as well as the enzyme adenosine deaminase (0.1–10 U/ml) increased the electrically evoked overflow of tritiated compounds. The maximal increase was by about 85% for both DPCPX and adenosine deaminase. The increases obtained with maximally effective concentrations of DPCPX and adenosine deaminase were not additive. The ₁-adrenoceptor-selective agonist methoxamine (10 but not 1 mol/l) reduced the evoked overflow. Its effect was antagonized by yohimbine 1 mol/l but then not attenuated further by DPCPX100 nmol/l.L-Glutamate (300 mol/l–2.3 mmol/l) also reduced the evoked overflow of tritium. Its effect was not changed by yohimbine 1 mol/l but greatly, and to the same extent, attenuated by DPCPX 100 mol/l and adenosine deaminase 3 U/ml. Neither the N-methyl-D-aspartate (NMDA) receptor antagonist dizocilpine nor omission of Mg⁺⁺ changed the inhibition by glutamate. Glutamate did not alter the basal efflux of tritium from rabbit cortex slices under any experimental condition. In contrast, glutamate (100 mol/l and 1 mol/l) caused an immediate, marked and transient acceleration of tritium outflow from rat occipitoparietal cortex slices (medium without Mg⁺⁺). It is concluded that adenosine but not an adenine nucleotide mediates the tonic purinergic presynaptic inhibition of noradrenaline release in rabbit brain cortex. The marked degree of disinhibition by DPCPX and adenosine deaminase underscores the potential physiological role of this inhibition. The purinergic inhibitory tone is reinforced by glutamate, indicating that glutamate releases adenyl compounds in rabbit brain cortex. Again adenosine but not an adenine nucleotide mediates the indirect inhibition by glutamate of the release of noradrenaline. The noradrenaline-releasing effect that glutamate exerts in rat occipito-parietal cortex does not occur in rabbit occipito-parietal cortex. Methoxamine depresses the release of noradrenaline in rabbit brain cortex directly at presynaptic ₂-adrenoceptors rather than by release of purines.Correspondence to I. von Kügelgen at the above address     

Interaction of adenine nucleotides,UTP and suramin in mouse vas deferens: suramin-sensitive and suramin-insensitive components in the contractile effect of ATP

Summary Effects of various nucleotides, nucleosides and noradrenaline on smooth muscle tension were studied in the isolated mouse vas deferens. ,-Methylene-ATP, ATPS, noradrenaline, ATP and UTP elicited contraction, with potency decreasing in that order; there was no contractile response to adenosine or uridine (up to 100 mol/l). Prolonged incubation with ,-methylene-ATP (concentration increased stepwise from 0 to 15 mol/l) selectively reduced contractions induced by ATP and UTP but not those induced by noradrenaline, and there was cross-tachyphylaxis between ATP and UTP. Suramin (10–300 mol/l) did not alter the response to noradrenaline but shifted the concentration-response curves for ,-methylene-ATP, ATPS, UTP and lower concentrations of ATP (0.1–1 ol/l) to the right. The pA₂-values of suramin were 5.2 against ,-methylene-ATP, 4.8 against ATPyS, 5.1 against UTP and 5.4 against lower concentrations of ATP. The effects of higher concentrations of ATP were largely resistant to suramin. The results indicate that the mouse vas deferens possesses contraction-mediating smooth muscle P_2X-receptors. UTP also acts at this receptor, and there is no evidence for a separate UTP receptor. The selective inhibition of nucleotide- but not noradrenaline-induced contractions by suramin confirms the view that suramin is a selective P₂-antagonist. The resistance against suramin of part of the effect of ATP suggests that ATP activates a suramin-insensitive site in addition to the P_2X-receptor.Send offprint requests to I. von Kügelgen 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.     

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.     

The heterogeneity of the neuronal distribution of exogenous noradrenaline in the rat vas deferens

Summary After loading of the incubated rat vas deferens with 0.2 mol/l ³H-noradrenaline (followed by 100 min of wash-out with amine-free solution), the efflux of endogenous and exogenous compounds was determined by HPLC with electrochemical detection and by column chromatography with scintillation counting. Two different types of heterogeneity of labelling were found. The first one is due to the preferential labelling of varicosities close to the surface of the tissue, the second one to the preferential labelling of vesicles close to the surface of loaded varicosities. As diffusion distances within the tissue and within varicosities are then longer for endogenous than for exogenous amine and metabolites, the composition of spontaneous efflux of exogenous compounds differed from that for endogenous compounds. Because of preferential neuronal and vesicular re-uptake of endogenous noradrenaline, the percentage contribution by noradrenaline to overall efflux was: endogenous < exogenous. While ³H-DOPEG was the predominant exogenous metabolite, DOPEG and MOPEG equally contributed to the endogenous efflux.Desipramine abolished the consequences of the first heterogeneity of labelling, i.e., it increased the efflux more for endogenous than for exogenous noradrenaline; moreover it decreased the efflux of ³H-DOPEG, but increased that of ³H-MOPEG. The reserpine-like compound Ro 41284, on the other hand, abolished the consequences of the second type of heterogeneity; it reduced the specific activity of total efflux (i.e., of the sum of noradrenaline + DOPEG + MOPEG) to the specific activity of the tissue noradrenaline. The degree of heterogeneity of labelling was reduced after inhibition of monoamine oxidase and also when the tissues were loaded with 2 or 20 mol/l ³H-noradrenaline.It is proposed that the various compartments and pools of noradrenaline described in the literature reflect the two heterogeneities described here.Abbreviations COMT catechol-O-methyl transferase - DOMA dihydroxymandelic acid - DOPEG dihydroxyphenylglycol - FRL fractional rate of loss (= rate of efflux/tritium content of tissue measured at onset of collection period) - HPLC high performance liquid chromatography - MAO monoamine oxidase - MOPEG methoxyhydroxyphenylglycol - NMN normetanephrine - VMA vanillylmandelic acid Send offprint requests to E. Schömig at the above addressThis study was supported by the Deutsche Forschungsgemeinschaft (SFB 176, Gr 490/5 and Scho 383/1). Some of the results were presented to the German Pharmacological Society (Schönfeld 1990; Trendelenburg 1990)     

Evidence for uptake2-mediated O-methylation of noradrenaline in the human amnion FL cell-line

Summary The uptake and metabolism of ³H-noradrenaline has been examined in the FL cell-line derived originally from human amnion. Cell cultures metabolised ³H-noradrenaline (1.0 mol/l) to ³H-normetanephrine and, to a lesser extent, to metabolites (not distinguished) of the O-methylated deaminated fraction; primary deaminated metabolites were not detected. ³(H-normetanephrine formation a) was not saturable in the noradrenaline concentration range 0.2–150 mol/l, b was decreased to 20%–30% of control levels by uptake₂ inhibitors (O-methylisoprenaline, 20 and 100 mol/l; cimetidine, 10 mol/l; hydrocortisone, 200 mol/l) and c, was almost insensitive to uptake₁ inhibitors (cocaine, 30 mol/l; desipramine, 3 mol/l).Uptake of noradrenaline was manifested after 30 minutes as a 6-fold increase in the cell content of the amine following inhibition of catechol-O-methyl transferase, either alone or in conjunction with inhibition of monoamine oxidase. Uptake was decreased maximally to 40% of control levels by O-methylisoprenaline. IC₅₀ values for inhibition of the O-methylisoprenaline-sensitive component of uptake were (in mol/l): corticosterone (0.3), papaverine (1.1), O-methylisoprenaline (3.0), cimetidine (6.0), (–)noradrenaline (460), and tetraethylammonium (2230). Except for the last agent, for which a comparative value is not available, the IC₅₀'s are in good agreement with those for inhibition of uptake₂ in the Caki-1 cell-line reported by other investigators.The component of uptake resistant to O-methylisoprenaline was depressed by papaverine (a 50% decrease at 50 mol/l), but was not affected by the other uptake₂ inhibitors or by cocaine (30 mol/l).It is concluded that the FL cell possesses an extraneuronal metabolising system very similar to the system in tissues such as heart and smooth muscle where transport of noradrenaline into the cell by uptake₂ is followed by rapid O-methylation via catechol-O-methyl transferase. The only difference appears to be the absence of saturation of ³H-normetanephrine formation in the FL cell at low micromolar concentrations of ³H-noradrenaline. The presence of a second uptake process is suggested by the inhibitory effect of papaverine on uptake resistant to O-methylisoprenaline; lack of effect of cocaine implies that this second process is not uptake,.Abbreviations COMT catechol-O-methyl transferase - DOMA dihydroxymandelic acid - DOPEG dihydroxyphenylethylene glycol - MAO monoamine oxidase - NMN normetanephrine - OMDA O-methylated and deaminated metabolite fraction - OMI 3-O-methylisoprenaline - TEA tetraethylammonium Correspondence to I. S. de la Lande at the above address     

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     

Further studies on the action of 5-hydroxytryptamine on lumbar motoneurones in the rat isolated spinal cord

Summary Using the hemisected spinal cord of the neonate rat, the effects of altered external Ca, thyrotrophin-releasing hormone (TRH) and a number of antagonists were tested on depolarizations evoked by 5-hydroxytryptamine (5-HT). Responses of populations of motoneurones were recorded via a ventral root. 5-Hydroxytryptamine depolarizations were not Ca-dependent but were enhanced in amplitude in Ca-free solutions. Raised Mg reversed this enhancement. 5-Hydroxytryptamine depolarizations persisted in the presence of Mn (1.53 mmol/l). TRH depolarized motoneurones; there was no evidence of modulation of 5-HT responses on concurrent application of TRH. Ritanserin (0.1 mol/l) had a modest blocking action on 5-hydroxytryptamine depolarizations reducing the maximum; 1mol/l ritanserin caused a greater antagonism which was unsurmountable (pIC₅₀ 5.2). Ritanserin (0.1 or 1 mol/l) did not depress responses to noradrenaline (NA). Ketanserin (0.1 mol/l) caused a blockade of slow onset, equilibrium with the receptors requiring 1 h. Blockade by 0.01, 0.1 and 1 mol/l ketanserin was concentration-dependent (pIC₅₀ 6.2). Ketanserin 1 mol/l, but not at lower concentrations, depressed noradrenaline responses. Mianserin (0.1 mol/l) also caused a blockade of slow onset; 0.1 or 1 mol/l produced a flattening of the 5-hydroxytryptamine concentration-response curve but did not depress noradrenaline responses (pIC₅₀ 4.7). The pIC₅₀ for spiperone was 8.0. DOI (10–100 mol/l) had no detectable agonist action but at concentrations of 0.01 and 0.1 mol/l it acted as an antagonist. Equilibration with the receptors occurred over 2 h. DOI (0.01 mol/l) depressed 5-hydroxytryptamine but not noradrenaline responses; higher concentrations of DOI also depressed noradrenaline responses. The pharmacological profile of the 5-hydroxytryptamine receptor mediating depolarization of spinal and facial motoneurones suggests that it belongs to the 5-HT_1C-5-HT₂, group of 5-hydroxytryptamine receptors but is not identical to 5-HT_1C or the 5-HT₂ CNS binding sites. Alternatively, the response might arise from a mixed population of 5-HT₁-like and 5-HT₂ receptors. Send offprint requests to D. I. Wallis at the above address     

Pre- and postjunctional adrenoceptor types in the circular muscle of the guinea-pig caecum

Summary The sucrose gap technique was used to study the effects of applied adrenoceptor agonists on membrane potential and non-adrenergic, non-cholinergic inhibitory junction potentials (IJPs), in the smooth muscle of the circular coat of guinea-pig caecum. Noradrenaline (10 nmol/1–100 mol/l), phenylephrine (1–100 mol/l) and isoprenaline (0.1–100 mol/l) caused hyperpolarisations of the smooth muscle membrane which were rapid in onset and effect. The magnitudes of hyperpolarisations elicited by noradrenaline were significantly reduced by the non-specific -adrenoceptor antagonist phentolamine (10 gmol/l), the₁-adrenoceptor antagonist prazosin (1 mol/l) and the -adrenoceptor antagonist propranolol (5 gmol/1). The ₂-antagonist yohimbine (10 gmol/l) did not significantly reduce the magnitude of the hyperpolarisations induced by noradrenaline. Noradrenaline application caused a reduction in UP amplitude, during hyperpolarisation, by up to 50%. The reduction of the UP amplitude elicited by noradrenaline was significantly antagonised by yohimbine and phentolamine, but not by prazosin or propranolol. Clonidine caused a reduction of UP amplitude by up to 20%, but neither phenylephrine nor isoprenaline caused any significant reduction in UP amplitude. It is concluded that the hyperpolarising responses to exogenous noradrenaline in the circular muscle of guinea-pig caecum are mediated by postjunctional ₁- and -adrenoceptors, and that the inhibition of UP amplitude is mediated by prejunctional ₂-adrenoceptors. Send offprint requests to G. Burnstock at the above address     

Stimulation of DNA repair synthesis of rat thymocytes by novobiocin and nalidixic acid in vitro without detectable DNA damage

Scheduled (SDS) and unscheduled (UDS) DNA synthesis as well as nucleoid sedimentation was investigated in vitro under the influence of novobiocin (NB) and nalidixic acid (NA) using intact thymic (T-cells) and splenic (S-cells) rat cells and cells which were exposed to X-rays, UV irradiation, methyl methanesulfonate (MMS), and DNA polymerase inhibitors. At concentrations of 56.25 (S-cells) and 225 g/ml (T-cells), respectively, NB inhibited SDS in a dose-dependent manner. Within a concentration range of 225–900 g NB/ml, UDS of S-cells decreased to values far below the tracer ([³H-methyl]-thymidine) incorporation of control cells, whereas UDS of T-cells increased by at least 200%. Within a concentration range of 450–1800 g/ml, NA enhanced SDS and UDS by about 30% in S-cells and by 100% in T-cells. The stimulating activity of NB and/or NA could be eliminated specifically by the DNA polymerase inhibitor 2',3'-dideoxythymidine. Enhanced nucleoid sedimentation was observed at NB concentrations 750 g/ml; S-cells revealed a higher sedimentation rate than T-cells. It is suggested that NB (and NA) influence DNA topology in a rather cell specific manner, stimulating UDS of T-cells by a DNA polymerase — dependent repair-like mechanism.     

Effects of suramin and α,β-methylene ATP indicate noradrenaline-ATP co-transmission in the response of the mouse vas deferens to single and low frequency pulses

Summary Vasa deferentia from mice were field-stimulated by trains of 10 pulses delivered at 0.5 Hz. The pulses elicited separate twitches, the first of which (corresponding to a single pulse) exceeded the following ones in height and width and often was clearly biphasic. , -Methylene-ATP 1 mol/1 and suramin 100 mol/1 caused almost identical changes. They reduced the height of the first twitch in the train by about one half and also reduced its width in a manner indicating that only the second, slow phase remained, but reduced much more markedly the following twitches in which now a small second, slow phase also became detectable. Idazoxan 0.1 mol/1 or yohimbine 0.1 mol/l, when added in the presence of a, -methylene-ATP or suramin, further decreased the first twitch but enhanced twitches No. 2 to 10. These responses were then almost abolished by prazosin 0.1 mol/l. Successive addition of prazosin 0.1 mol/l and idazoxan 0.1 mol/1 to previously untreated vasa deferentia depressed the response to the first pulse by about one half in a manner indicating that only the first, rapid phase remained, but had comparatively little effect on the responses to the subsequent pulses. Suramin 100 mol/l almost abolished the contractions remaining in the presence of prazosin and idazoxan. The results indicate that the first, rapid phase of the neurogenic contractions elicited by single or low frequency pulses is mediated by ATP which substantially contributes to all responses in a train. The second, slow phase is mediated by noradrenaline which substantially contributes to the response to the first pulse only. The adrenergic contribution seems to be mediated by postjunctional ₁- as well as a ₂-adrenoceptors. Prejunctional ₂-adrenergic autoinhibition depresses the release of both ATP and noradrenaline. Send offprint request to I. v. Kügelgen at the above address     

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     

Selective inhibition by amezinium of intraneuronal monoamine oxidase

Summary Intra- and extraneuronal compartments of rat hearts were selectively labelled by perfusion with ³H-noradrenaline in the presence of corticosterone 87 M or cocaine 30 M, respectively. The subsequent outflow of ³H-compounds was examined. As little as 1 nM amezinium diminished the outflow of intraneuronally formed ³H-DOPEG. This effect was antagonized by cocaine. Amezinium 1 M was necessary to diminish the outflow of extraneuronally formed ³H-DOPEG. This effect was not counteracted by corticosterone. The results indicate that amezinium is both a potent and, at low concentrations, selective inhibitor of intraneuronal MAO.Abbreviations used DOMA 3,4-dihydroxymandelic acid - DOPEG 3,4-dihydroxyphenylglycol - MAO monoamine oxidase (EC 1.4.3.4) - NA noradrenaline - NMN normetanephrine - OMDA O-methylated deaminated metabolites     

The involvement of central cholinergic system in the pressor effect of intracerebroventricularly injected U-46619, a thromboxane A2 analog, in conscious normotensive rats

The aim of this study was to determine the involvement of the central cholinergic system in the rise in blood pressure evoked by the thromboxane A2 (TxA2) analog, U-46619, given centrally. Intracerebroventricular (i.c.v.) injections of U-46619 (0.5, 1.0 and 2.0 g) caused dose- and time-related increases in blood pressure and decreased heart rate in awake rats. U-46619 (1 g; i.c.v.) also produced an approximately 65% increase in posterior hypothalamic extracellular acetylcholine and choline levels. Pretreatment with SQ-29548 (8 g; i.c.v.), selective TxA2 receptor antagonist, completely inhibited both the cardiovascular responses and the increase in acetylcholine and choline levels to subsequent injection of U-46619 (1 g; i.c.v.). Atropine (10 g; i.c.v.), nonselective muscarinic receptor antagonist, pretreatment did not affect the cardiovascular responses observed after U-46619 (1 g; i.c.v.). Pretreatment with the nonselective nicotinic receptor antagonist, mecamylamine (50 g; i.c.v.) attenuated the pressor effect of U-46619 (1 g; i.c.v.). Higher doses of mecamylamine (75 and 100 g; i.c.v.) pretreatments did not change the magnitude of the blockade of pressor response to U-46619; however, they abolished the bradycardic effect of U-46619 dose-dependently. Interestingly, pretreatment of rats with methyllycaconitine (10 g; i.c.v.) or -bungarotoxin (10 g; i.c.v.), selective antagonists of 7 subtype of nicotinic acetylcholine receptors (7nAChRs), partially abolished the pressor response to i.c.v. injection of U-46619 (1 g). Similar to the mecamylamine data, the use of higher doses of methyllycaconitine (25 and 50 g; i.c.v.) produced the same magnitude of blockade that was observed after the 10 g methyllycaconitine pretreatment, but it completely abolished the bradycardic effect of U-46619 (1 g; i.c.v.) at the dose of 25 g. The present results show that central administration of U-46619 produces pressor and bradycardic effect and increase in hypothalamic acetylcholine and choline levels by activating central TxA2 receptors. The activation of central nicotinic receptors, predominantly 7nAChRs, partially mediates the cardiovascular responses to i.c.v. injection of U-46619.     

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     

Inhibitory adenosine A1-receptors on rat locus coeruleus neurones

Summary Intracellular recordings were performed in ₁-pontine slice preparation of the rat brain containing the locus coeruleus (LC). Adenosine (100, 300 mol/l) and its structural analogues, namely (–)-N⁶-(R-phenyliso-propyl)-adenosine (R-PIA; 3 – 30 mol/l) and S-PIA (10, 30 mol/l), as well as 5-N-ethylcarboxamido-adenosine (NECA; 3–30 mol/l) inhibited the firing rate of spontaneous action potentials and produced hyperpolarization; their rank order of potency was RPIA - NECA > S-PIA > adenosine. When applied by superfusion, all agonists strongly desensitized the LC cells; the hyperpolarization never surmounted 6 mV. Upon pressure ejection of adenosine 10 mmol/l from ₁- micropipette positioned close to an LC neurone, the membrane potential was raised by 14 mV and the apparent input resistance decreased by 20%. When the membrane potential was hyperpolarized by current injection to ₁- similar extent as adenosine did, the fall in input resistance was only 7%. The adenosine uptake inhibitor S-(p-nitrobenzyl)-6-thioguanosine (NBTG) 30 mol/l decreased the frequency of action potentials alone; on simultaneous bath-application with adenosine 300 mol/l it potentiated the hyperpolarization caused by the purine derivative. 8-Cyclopentyl-1,3-dipropylxanthine (CPDPX) 0.1 mol/l had no effect on its own, but it antagonized both R-PIA 30 mol/l and NBTG 30 mol/l. A higher concentration of CPDPX (1 mol/l) facilitated the spontaneous firing. In conclusion, both exogenous and endogenous adenosine activates somatic and/or dendritic A₁-receptors of LC neurones leading to an enhancement of potassium conductance and thereby to ₁- decreased firing rate and ₁- hyperpolarization. Send offprint requests to P. Illes at the above address     

The relaxant action of osthole isolated from Angelica pubescens in guinea-pig trachea

The effect of osthole, isolated from Angelica pubescens, on the contraction of guinea-pig trachea was studied. Osthole (25–100 mol/l), theophylline (10–1000 mol/l) and higher concentrations of nifedipine (0.1–100 mol/l) suppressed the contraction response curves of tracheal smooth muscle caused by carbachol, prostaglandin F₂ (PGF₂), U46619 (thromboxane A₂ analogue) and leukotriene C₄ (LTC₄) in a concentration-dependent manner. The contraction caused by high K⁺ (120 mmol/1) and cumulative concentrations of CaCl₂ (0.03–3 mmol/1) was also inhibited concentration-dependently by osthole (25–100 mol/l), theophyl line(10–1000 mol/l) and lower concentrations of nifedipine (0.01–0.1 mol/l). The relaxant actions of osthole were not affected by propranolol (1 mol/l), glibenclamide (10 mol/l) or removal of tracheal epithelium. Osthole (100 mol/l) was still effective in causing tracheal relaxation in the presence of nifedipine (1 mol/l). In Ca²⁺-free- and EGTA (0.2 mmol/1)-containing medium, the relaxing effect of osthole was more potent than in normal Krebs solution. Osthole (25 and 50 mol/l) caused 2.9 and 6.5, or 3.0 and 5.6 fold, respectively, increase in potency of forskolin or sodium nitroprusside in causing tracheal relaxation but did not affect that by cromakalim. Osthole (50 mol/l) enhanced the increase in tissue cAMP and cGMP levels induced by forskolin and sodium nitroprusside, respectively, and in higher concentrations (100 and 250 mol/l), itself increased markedly tissue cAMP and cGMP contents. Osthole (10–250 mol/l) inhibited the activity of cAMP and cGMP phosphodiesterases in a concentration-dependent manner. It is concluded that osthole exerts a nonspecific relaxant effect on the trachealis by inhibiting the cAMP and cGMP phosphodiesterases. Correspondence to: C. M. Teng at the above address