Release of [3H]acetylcholine from the isolated rat or guinea-pig trachea evoked by preganglionic nerve stimulation; a comparison with transmural stimulation

Summary Basal and stimulated outflow of radioactive acetylcholine, phosphorylcholine and choline from rat and guinea-pig isolated tracheae were measured by reverse phase HPLC followed by liquid-scintillation-spectrometry. Tracheae were stimulated either by an electrical field (transmural stimulation) or by a local stimulation of the innervating parasympathetic nerves (preganglionic stimulation). Epithelium was removed in most experiments, as the epithelium inhibits acetylcholine release.The basal tritium efflux (1,600 dpm/3min) from rat isolated tracheae incubated with [³H]choline consisted of 56% [³H]phosphorylcholine and 38% [³H]choline. Preganglionic stimulation (15 Hz, 1,200 pulses) caused a 2-fold increase in tritium outflow that was abolished by the removal of extracellular calcium or by the addition of tetrodotoxin. The stimulated outflow of tritium induced by preganglionic nerve stimulation was caused by an exclusive release of [³H]acetylcholine, whereas the efflux of [³H]phosphorylcholine and [³H]choline remained unaffected by this stimulation mode. Transmural stimulation of the rat or guinea-pig trachea, however, caused, in addition to the release of [³H]acetylcholine, the outflow of [³H]phosphorylcholine. Hexamethonium (300 mol/l) or tubocurarine (100 mol/l) inhibited (80%) the increase in tritium outflow evoked by preganglionic stimulation, but did not affect tritium outflow evoked by transmural stimulation. Oxotremorine reduced [³H]acetylcholine release evoked by both stimulation modes, but oxotremorine was less potent with transmural stimulation. Scopolamine (0.3 mol/l) enhanced (120%) the release of [³H]acetylcholine evoked by preganglionic nerve stimulation indicating the blockade of an endogenous negative muscarinic feedback mechanism. Epithelium-dependent inhibition of [³H]acetylcholine release was evident with both preganglionic and transmural stimulation.The present experiments demonstrate the release of [³H]acetylcholine evoked from the isolated trachea by stimulation of the preganglionic trunk of the parasympathetic cholinergic nerves. Qualitative and quantitative differences were observed in comparison to transmural stimulation. Preganglionic nerve stimulation allows a selective excitation of pulmonary, parasympathetic nerve fibres, mimics the physiological excitation of intramural neurones and is not followed by the liberation of phosphorylcholine from non-neuronal cells. Send offprint requests to I. Wessler at the above address     

Evaluation by reverse phase HPLC of [3H]acetylcholine release evoked from the myenteric plexus of the rat

Summary Myenteric plexus-longitudinal muscle strips isolated from the small intestine of rats were incubated with [³H]choline to measure the synthesis and the release of [³H]acetylcholine. To separate different radioactive compounds (acetylcholine, choline, phosphorylcholine) from both the tissue and the overflow a new method, the reverse phase HPLC, was used.The radiochromatogram following the injection of a [³H]choline-standard and a [¹⁴C]acetylcholine-standard onto the HPLC showed a clear separation of both isotopes with a recovery rate of roughly 100%. Incubation of the muscle strips with [³H]choline caused the synthesis of [³H]acetylcholine (30,000 dpm/preparation) that increased 2-fold, when the electrical field stimulation during labelling was increased from 0.2 Hz to 1 Hz. Electrical field stimulation (3 Hz, 2 min) caused an increase in tritium efflux that was abolished by the removal of extracellular calcium or by the addition of tetrodotoxin. Analysis by reverse phase HPLC of the overflow showed that the stimulated increase in tritium overflow was balanced by the enhanced release of [³H]acetylcholine, whereas the overflow of [³H]choline was not affected by the electrical field stimulation. Oxotremorine (1 mol/l) suppressed the release of [³H]acetylcholine by 60%. Scopolamine (0.1 mol/l) prevented this inhibition and, given alone, enhanced the release of [³H]acetylcholine by 43%. The release of [³H]acetylcholine evoked at 0.2, 2 or 20 Hz did not consistently decline at increasing frequencies.The present experiments show the synthesis and the calcium-dependent release of [³H]acetylcholine from the myenteric plexus-longitudinal muscle preparation of rats correspondingly to the same in-vitro preparation isolated from guinea-pigs. Muscarinic autoinhibition operates also in the small intestine of rats. However, some differences (frequency-dependency of [³H]acetylcholine release, spontaneous neuronal activity) are evident between both species. Reverse phase HPLC is a useful method to separate radioactive choline and acetylcholine with a high recovery rate.Send offprint requests to I. Wessler at the above address     

Glycine-evoked release of [3H]acetylcholine from rat striatal slices is independent of the NMDA receptor

Summary KCl-, NMDA-, and glycine-evoked release of [³H]acetylcholine was studied in superfused rat striatal slices. KCl-evoked release of [³H]acetylcholine was inhibited by 1.2 mM MgC12 and 100 M lidocaine. Similarly, NMDA-evoked release was inhibited by MgCl₂ and lidocaine as well as 10 M CGS 19755, a competitive antagonist at NMDA receptors, and 10 nM MK-801, a noncompetitive antagonist of NMDA-induced responses. Glycine-evoked release was calcium-dependent and was inhibited by 0.1 M strychnine whereas KCl- and NMDA-evoked release were resistant to strychnine. In addition, lidocaine inhibited the glycine-induced response. Cross-tachyphylaxis was not observed between NMDA- and glycine-evoked release. These results indicate that the strychnine-sensitive, glycine-evoked release of [³H]acetylcholine is independent of the NMDA receptor.     

Epithelium-derived inhibition of [3H]acetylcholine release from the isolated guinea-pig trachea

Summary To investigate presynaptic, regulatory mechanisms on parasympathetic nerve fibres innervating the airways, the release of newly-synthesized [³H]acetylcholine from the isolated trachea was studied. Reverse phase HPLC followed by liquid scintillation spectrometry was used to separate and quantify the radioactive compounds choline, phosphorylcholine and acetylcholine in the incubation medium and the tissue.During the incubation of the tracheae with [³H]choline a significant synthesis of [³H]acetylcholine (35,000 dpm/preparation) and [³H]phosphorylcholine (500,000 dpm/preparation) occurred. In epithelium-deficient tracheae the formation of [³H]phosphorylcholine was enhanced, whereas the content of [³H]acetylcholine remained unchanged. The spontaneous outflow of tritium consisted mainly of [³H]phosphorylcholine (900 dpm/3 min) and [³H]choline (800 dpm/3 min); [³H]acetylcholine was only a minor fraction (50 dpm/3 min). Electrical stimulation of tracheae with intact epithelium caused only a small release of [³H]acetylcholine (460 dpm in the sample obtained during stimulation), but a considerable outflow of [³H]phosphorylcholine (1,900 dpm) without affecting the outflow of [³H]choline. Electrical stimulation of epithelium-deficient tracheae, however, induced a substantial release of [³H]acetylcholine (2,400 dpm), but only a small outflow of [³H]phosphorylcholine. Chemical stimulation (30 mol/1 veratridine) also caused a large release of [³H]acetylcholine (1,700 dpm) without affecting the outflow of [³H]phosphorylcholine or [³H]choline. Indomethacin (3 mol/1) enhanced the electrically-evoked release of [³H]acetylcholine from tracheae with intact epithelium by 89%.The present experiments demonstrate a strong inhibition by the epithelium of the electrically-evoked release of [³H]acetylcholine from the isolated guinea-pig trachea. Cyclooxygenase products of arachidonic acid do not appear as the main mediators of the epithelium-derived inhibition of acetylcholine release. Send offprint requests to I. Wessler at the above address     

Stimulus-evoked release of tritiated monoamines from rat periaqueductal gray slices in vitro and its receptor-mediated modulation

Summary The periaqueductal gray is a brain region of considerable interest. It is innervated by monoamine-containing neurons as well as by a variety of peptidergic fiber systems, and it participates in the regulation of various functions. Virtually nothing is known about monoamine release in the periaqueductal gray and its receptor-mediated modulation. We therefore studied the release of radioactivity from periaqueductal gray slices preloaded with tritriated monoamines, using an in vitro superfusion method.The release of radioactivity from superfused periaqueductal gray slices after preloading of the tissue with [³H]noradrenaline increased upon electrical stimulation in a frequency-dependent manner. The stimulus-evoked release of radioactivity was Ca²⁺-dependent. Clonidine reduced and yohimbine enhanced the release. The inhibition curve for the effect of clonidine was shifted to the right in the presence of 10^–6 M yohimbine. While phenylephrine, isoprenaline, SK&F 38393, quinpirole, carbachol, [Arg⁸]vasopressin, -MSH and ACTH-(1-24), at a concentration of 10^–6 M, did not influence the electrically evoked release of radioactivity, [Leu⁵]enkephalin reduced it. The selective -opioid receptor agonists [d-Ala²,NMePhe⁴,Gly-ol⁵]enkephalin and [d-Arg²,Lys⁴]-dermorphin-(1–4)-amide reduced the release of radioactivity, whereas the selective opioid receptor agonist [d-Pen²,d-Pen⁵]enkephalin and the selective K opioid receptor agonist U-69593 had no effect. In the presence of naloxone, which by itself had no effect on the release of radioactivity, the effect of [d-Arg²,Lys⁴]dermorphin-(1–4)-amide was abolished. These results show that the release of noradrenaline from periaqueductal gray slices is via a Ca²⁺-dependent. exocytotic process, and that it is modulated through ₂-adrenoceptors as well as via -opioid receptors. Though the overflow of radioactivity from slices preloaded with [3H]dopamine in the presence of desipramine was measurable, there are reasons to assume that we are dealing here with the release of tritiated catecholamines from a population of nerve endings consisting of noradrenergic and dopaminergic terminals.The release of radioactivity from periaqueductal gray slices preloaded with [³H]5-hydroxytryptamine upon elevation of the K⁺ concentration in the superfusion medium was much more pronounced than that induced by electrical stimulation. The K⁺-evoked release of radioactivity was almost completely abolished in the absence of Cat²⁺; showing that the release is via a Ca²⁺-dependent process. 5-Hydrotryptamine reduced the K⁺-evoked release of radioactivity in a concentration-dependent manner.Some of these data were presented at the XIth International Congress of Pharmacology, 1–6 July 1990, Amsterdam, The Netherlands (Eur J Pharmacol 183:408) Send offprint requests to D. H. G. Versteeg at the above address     

CGP 25454A,a novel and selective presynaptic dopamine autoreceptor antagonist

N-(diethylamino-ethyl)-4-chloro-5-cyano-2-methoxy-benzamide-hydrochloride (CGP 25454A) is a new benzamide derivative now in clinical trials in patients with major depression. Here we describe some basic neurochemical and behavioural properties in animal experiments. In vitro, CGP 25454A increased the field-stimulated [³H]- and [¹⁴C]-overflow from rat striatal slices preloaded with [³H]dopamine and [¹⁴C] choline, indicating that CGP 25454A was able to enhance the release of both dopamine (DA) and acetylcholine (ACh). However, CGP 25454A was 12.9 times more potent in increasing, by 1/6 of the apparent maximal increase, the release of [³H]DA than that of [¹⁴C]ACh. In vivo, CGP 25454A increased [³H]spiperone binding to receptors of the D₂ family in rat striatum by 90–110% (ED₅₀: 13 mg/kg i.p.). As a similar increase in [³H]spiperone binding was found with a variety of agents which increase the synaptic concentration of endogenous DA, the effect of CGP 25454A most probably reflects an enhanced release of DA under in vivo conditions. At 30–100 mg/kg, CGP 25454A inhibited [³H]spiperone binding in the pituitary of the same animals as a result of a blockade of postsynaptic DA receptors. This dual mode of action was also apparent in terms of behavioral changes. At doses as low as 5–10 mg/kg, CGP 25454A produced a weak stimulation, suggested by a trend of increased spontaneous rearing and corroborated by a significant potentiation of the elevated rearing induced by (+)-amphetamine. By contrast, at doses of 30–100 mg/kg, it exerted clear-cut sedative and neuroleptic-like properties. These data obtained from three different experimental approaches suggest that CGP 25454A selectively blocks presynaptic DA autoreceptors in the lower dose range whereas at higher doses it also blocks the postsynaptic receptors. Correspondence to: S. Bischoff at the above address     

Muscarine receptors on the rat phrenic nerve,evidence for positive and negative muscarinic feedback mechanisms

Summary Neuronal transmitter stores of the rat phrenic nerve were labelled by incubation with [³H]choline. Release of [³H]acetylcholine was elicited by electrical nerve stimulation (100 or 1500 pulses, 5 or 25 Hz) or by high potassium (27 mmol/l) and the effects of the muscarine receptor agonist oxotremorine and the antagonist scopolamine were investigated. Neither oxotremorine nor scopolamine affected the basal tritium efflux. A low concentration of oxotremorine (10 nmol/l) enhanced and a high concentration of oxotremorine (1 ol/l) reduced the electrically evoked [³H]acetylcholine release. Likewise, the high potassium-evoked [³H]acetylcholine release was reduced by a high concentration of oxotremorine. Both effects of oxotremorine, increase and decrease, were abolished by a pretreatment (30 min before the first stimulation period) with 0.1 mol/l scopolamine. Scopolamine (0.1 ol/l) alone, enhanced [³H]acetylcholine release evoked by 100 pulses (5 Hz) or by high potassium. Scopolamine, however, reduced [³H]acetylcholine release evoked by 1500 pulses (5 Hz or 25 Hz). The concentration-response curves obtained for scopolamine under these latter stimulation conditions were flat-running and biphasic which might indicate the involvement of two opposite effects (increase and decrease) of scopolamine under the present stimulation conditions. Both effects of scopolamine were reduced in the presence of 10 gmol/l neostigmine. It is concluded that muscarine receptors are present within the endplate region of motor nerves. Transmitter release from motor nerves appears to be regulated by two muscarinic feedback mechanisms. The negatively operating system is activated during short stimulation periods and the positively operating system becomes additionally apparent during long stimulation periods. Blockade of cholinesterase can hide presynaptic muscarinic mechanisms on motor nerves. Send offprint requests to I. Wessler at the above address     

Choline increases endogenous GABA release in rat hippocampus by a mechanism sensitive to hemicholinium-3

Summary The effects of choline (Ch) on the spontaneous release of endogenous 7-aminobutyric acid (GABA) and of ³H-GABA were studied in superfused rat hippocampal synaptosomes. Choline enhanced in a concentration-dependent way the release of endogenous GABA but did not affect that of the radioactive aminoacid. The effect of Ch was not antagonized by atropine or mecamylamine; moreover, it was not mimicked by acetylcholine, oxotremorine or carbachol. The Ch-induced GABA release was counteracted by hemicholinium-3. Thus the release of endogenously synthesized GABA (but not that of the aminoacid taken up) may be regulated by Ch through a mechanism involving penetration into the releasing terminal through a Ch uptake system. Send offprint requests to M. Raiteri     

Effects of (+)-tubocurarine on [3H]acetylcholine release from the rat phrenic nerve at different stimulation frequencies and train lengths

Summary The effect of (+)-tubocurarine (TC) on the release of [³H]acetylcholine from the rat phrenic nerve-hemidiaphragm preincubated with [3H]choline was investigated at different stimulation frequencies and train lengths.At 0.5 Hz (100 pulses) TC failed to modulate the evoked acetylcholine release. A slight (30%) inhibition was observed at 1 Hz (100 pulses). Release of acetylcholine evoked at 5, 25 and 50 Hz (100 pulses) or 100 Hz (200 pulses) was markedly reduced by TC. The degree of inhibition (60%) was similar between 5 Hz and 100 Hz. A concentration of 1 mol/l TC was a maximal effective concentration at 5 Hz whilst at all higher stimulation frequencies a 10-fold higher concentration was necessary for the maximal effect. When 300 pulses were continuously applied at 5 Hz or 50 Hz TC caused only a slight inhibition (20%). Additionally, the phrenic nerve was stimulated intermittently. Trains of 15 pulses were repeated 10 times with an interval of 3 s between each train. Under this latter stimulation condition TC failed to reduce acetylcholine release.It is concluded that nicotinic autofacilitation of acetylcholine release from the motor nerve operates at frequencies and stimulation conditions similar to the pattern of nerve activity under in vivo conditions. At least more than 15 pulses are required before the nicotinic autofacilitation becomes apparent. It appears unlikely that the TC induced fading of end-organ responses can only be attributed to a blockade of the presynaptic nicotine receptors. Send offprint requests to I. Wessler at the above address     

A presynaptic excitatory M1 muscarine receptor at postganglionic cardiac noradrenergic nerve fibres that is activated by endogenous acetylcholine

Summary Rabbit atria were isolated with the extrinsic right vagus and sympathetic nerves intact and perfused with Tyrode solution. Noradrenaline overflow evoked by sympathetic nerve stimulation (SNS) at 3 Hz for 3 min was determined before, during, and after vagus nerve stimulation (VNS), also at 3 Hz and for 3 min. The VNS pulses preceded the SNS pulses by 3, 100 and 233 ms. Acetylcholine overflow was determined after labelling of the transmitter stores with [¹⁴C]choline.Pirenzepine 80 nmol/l failed to alter the muscarinic inhibition of noradrenaline overflow when the vago-sympathetic impulse intervals were 3 and 233 ms. At an interval of 100 ms VNS did not significantly inhibit noradrenaline overflow in the absence of pirenzepine but produced an inhibition in the presence of the drug. When the pirenzepine concentration was varied (0.4–300 nmol/l) the largest inhibition of noradrenaline overflow was observed at 5.7 nmol/l whereas 300 nmol/l fully antagonized the inhibition. Acetylcholine overflow evoked by VNS was not altered by pirenzepine 0.4–300 nmol/l.AF-DX 116 (11-[{2[oi(diethylamino)methyl]-1-piperidinyl}-acetyl]-5,11-dihydro-6H-pyrido-[2,3-b]-[1,4]benzodiazepine-6-one), an M₂ receptor selective antagonist, concentration-dependently (100–800 nmol/l) inhibited the decrease of tension development elicited by VNS. At the 100 ms vago-sympathetic impulse interval noradrenaline overflow was enhanced in the presence of AF-DX 116 400 and 800 nmol/l. However, already 100 nmol/l of the drug caused a maximum (fourfold) increase of acetylcholine overflow.It is concluded that acetylcholine released onto noradrenergic nerve fibres causes a small facilitation of noradrenaline overflow at a vago-sympathetic impulse interval of 100 ms. This response is mediated by an M₁ receptor and is superimposed on the well-known M₂ receptor mediated inhibition of noradrenaline release which is obtained at vago-sympathetic impulse intervals ranging between 3 and 233 ms. The M₂ autoreceptor regulating acetylcholine release is activated by lower synaptic concentrations of the transmitter than the M₂ heteroreceptor regulating noradrenaline release.Abbreviations SNS sympathetic nerve stimulation - VNS vagus nerve stimulation Send offprint requests to: E. Muscholl at the above address     

Effect of 3-PPP,a putative dopamine autoreceptor agonist,on [3H]ligand binding to dopamine receptors of calf and rat striatum

3-(3-Hydroxyphenyl)-N-n-propyliperidine (3-PPP) is most effective in inhibiting [³H]apomorphine binding in rat striatal membranes, with Ki values of 63 nM. 3-PPP was six to 27 times less effective when it competed with the binding of [³H]dopamine or [³H]spiperone in calf and rat striatal membranes. At concentrations up to 10 μM, 3-PPP failed to substitute for dopamine in the activation of adenylate cyclase in rat striatal membranes. 3-PPP at 4.8-5 μM caused 50% inhibition of catecholamine uptake in synaptosomes of corpus striatum and hypothalamus, therefore appearing to be a relatively weak uptake inhibitor. The higher affinity of 3-PPP for [³H]apomorphine binding sites is consistent with its binding to a subset of dopamine receptors which are characterized by a high affinity for both the agonist and antagonist of dopamine.     

Dopamine D2 receptors selectively labeled by a benzamide neuroleptic: [3H]-YM-09151-2

Summary In order to label dopamine D₂ receptors selectively we tritiated the potent benzamide neuroleptic, YM-09151-2 (26.7 Ci/mmol). The binding of [³H]-YM-09151-2 to canine striatal membranes was saturable and specific with a K _D of 57 pmol/l and B _max of 36 pmol/g tissue as determined by Scatchard analysis. The K _D, but not the B _max, of [³H]-YM-09151-2 increased 6-fold in the absence of sodium chloride. [³H]-YM-09151-2 labeled 40% more sites than [³H]-spiperone in the same tissue homogenate. [³H]-YM-09151-2 binding was inhibited by dopaminergic drugs in a concentration and stereoselective manner with the appropriate dopamine D₂ receptor profile. Thus, dopamine agonists inhibited [³H]-YM-09151-2 binding to canine striatal membranes with the following rank order of potency: (–)-N-n-propylnorapomorphine > apomorphine > (±)-6,7-dihydroxy-2-aminotetralin > (+)-N-n-propylnorapomorphine > dopamine > (–)-noradrenaline > serotonin > (–)-isoprenaline. Dopaminergic antagonists competed for [³H]-YM-09151-2 binding with the following order of potency: spiperone > (+)-butaclamol > haloperidol > clebopride > (–)-sulpiride > SCH-23390 > (–)-butaclamol. Furthermore, dopamine agonists recognized 2 states of the receptor labeled by [³H]-YM-09151-2, D ₂ ^high and D ₂ ^low . The D ₂ ^high state of the receptor could be converted to D ₂ ^low by guanine nucleotides and sodium ions as is the case for [³H]-spiperone binding to D₂ receptors. [³H]-YM-09151-2 appears to be a more selective ligand for dopamine D₂ receptors than [³H]-spiperone, since YM-09151-2 displays approximately 9-fold lower affinity than spiperone for cortical serotonergic (S₂) receptors. [³H]-YM-09151-2 may become a useful tool for the selective characterization of dopamine D₂ receptors.Abbreviations used (±)ADTN (±)-2-amino-6,7-dihydroxy-1,2,3,4-tetrahydronaphthalene - NPA N-n-propylnorapomorphine - Gpp(NH)p 5-guanylylimidodiphosphate     

Effect of nicotine and tacrine on acetylcholine release from rat cerebral cortical slices

Summary The effect of nicotine (1–10 M) and tacrine (9-amino-1,2,3,4-tetrahydroacridine; THA) on stimulation evoked release of [³H]acetylcholine from the rat brain slice preparation preincubated with [³H]choline was investigated.In these preparations, nicotine enhanced while tacrine inhibited evoked [³H]acetylcholine release. These effects were blocked by (+)tubocurarine (1 M) and atropine (0.1 M) respectively. In the presence of idazoxan (0.3 M) plus atropine (0.1 M), nicotine (3 M) continued to enhance evoked [³H]acetylcholine release while the inhibitory effect of tacrine (1 M) on evoked [³H]acetylcholine release was reversed to an enhancement. Under these circumstances the effects of both nicotine and tacrine were blocked by (+)tubocurarine (1 M).These findings demonstrate that tacrine can both inhibit or enhance [³H]acetylcholine release, most likely through its activity as a cholinesterase inhibitor. Under normal circumstances following tacrine the predominant effect of the elevated levels of acetylcholine will be activation of inhibitory presynaptic muscarine receptors on cholinergic nerves and an inhibition of evoked [³H]acetylcholine release. Under conditions where both presynaptic inhibitory muscarine and ₂-adrenoceptors are blocked, the elevated levels of acetylcholine produced by tacrine will lead to the activation of facilitatory presynaptic nicotine cholinoceptors on cholinergic nerves and an enhancement of evoked [³H]acetylcholine release. Send offprint requests to R. Loiacono at the above address     

Differential effects of calcium channel antagonists (ω-conotoxin GVIA,nifedipine, verapamil) on the electrically-evoked release of [3H]acetylcholine from the myenteric plexus,phrenic nerve and neocortex of rats

Summary Electrically-evoked release of [³H]acetylcholine from autonomic neurons (myenteric plexus), motoneurons (phrenic nerve) and the central nevous system (neocortex) was investigated in the presence and absence of the calcium channel antagonists -conotoxin GVIA, nifedipine and verapamil, whereby the same species (rat) was used in all experiments. Release of [³H]acetylcholine was measured after incubation of the tissue with [³H]choline.-Conotoxin GVIA markedly reduced (70%) the evoked release of [³H]acetylcholine from the myenteric plexus of the small intestine (IC₅₀: 0.7 nmol/l) with a similar potency at 3 and 10 Hz stimulation. An increase in the extracellular calcium concentration attenuated the inhibitory effect of -conotoxin GVIA. Release of [³H]acetylcholine from the rat neocortex was also inhibited (90%) by -conotoxin GVIA, but the potency was 19-fold lower (IC₅₀: 13 nmol/l). However, the release of [³H]acetylcholine from the phrenic nerve was not reduced by -conotoxin GVIA (100 nmol/l) at 1.8 mmol/l calcium (normal concentration), whereas -conotoxin GVIA inhibited evoked [³H]acetylcholine release by 47% at 0.9 mmol/l calcium. Neither nifedipine (0.1 and 1 mol/l) nor verapamil (0.1, 1 and 10 mol/l) modified the evoked release of [3H]acetylcholine from the myenteric plexus and the phrenic nerve.Acetylcholine release from different neurons appears to be regulated by different types of calcium channels. N-type channels play the dominant role in regulating acetylcholine release from both the myenteric plexus and the neocortex, whereas acetylcholine release from motor nerves is regulated by calcium channel(s) not yet characterized. Send offprint requests to I. Wessler at the above address     

Effect of prostaglandin E2 on ACTH and β-endorphin release from rat adenohypophysis in vitro after secretagogues which can mimic various first or second messengers

Summary The modulation of the depolarization induced release of [³H]-acetylcholine by agonists acting on -adrenoceptors was studied in superfused rat atrial slices. In this model, noradrenaline and methoxamine, but not UK 14304 reduced the potassium evoked release of [³H]-acetylcholine. The inhibitory action of these drugs was antagonized by the ₁ selective adrenoceptor antagonist prazosin. Propranolol, idazoxan and sulpiride did not antagonize the inhibition by noradrenaline of the potassium-evoked release of [³H]-acetylcholine. Exposure to amphetamine, -phenylethylamine, m- or p-tyramine, increased in a concentration-dependent manner the spontaneous outflow of [³H]-noradrenaline from atrial slices. Yet, these concentrations of the indirectly acting sympathomimetic amines, tested in the presence of an inhibitor of monoamine oxidase (MAO), failed to modify the potassium evoked release of [³H]-acetylcholine. Desipramine 3 mol/l or cocaine 10 mol/l did not affect the release of [³H]-acetylcholine evoked by potassium stimulation. Under similar experimental conditions, -phenylethylamine facilitated the spontaneous outflow of [³H]-noradrenaline, and inhibited the electrically-evoked release of [³H]-serotonin from the hippocampus by activation of ₂-adrenoceptors. It is concluded that the release of acetylcholine from atrial cholinergic neurons can be modulated through inhibitory ₁-adrenoceptors, which are not activated when the release of noradrenaline is induced by indirectly acting sympathomimetic amines. In addition, amphetamine or structurally related amines do not activate directly recognition sites in the cholinergic postganglionic parasympathetic neuron to modify the release of [³H-acetylcholine.     

Release of [3H]acetylcholine from a modified rat phrenic nerve-hemidiaphragm preparation

Summary Two different preparations of the rat phrenic nerve-hemidiaphragm (whole nerve-muscle preparation, end-plate preparation) were used for studying synthesis and release of radioactive acetylcholine in the absence and presence of cholinesterase inhibitors.When the whole nerve-muscle preparation (110–180 mg) was incubated with [³H]choline, only small amounts of radioactive acetylcholine were synthesized within the tissue. Electrical nerve stimulation of the whole nerve-muscle preparation produced no increase in tritium outflow.Incubation of the end-plate preparation (16–29 mg) which was obtained after removal of most of the muscle mass led to the formation of large amounts of [³H]acetylcholine. Synthesis depended on nerve activity and increased 13-fold during a high loading stimulation (50 Hz), as compared to the synthesis at rest. In a denervated end-plate preparation the formation of [³H]acetylcholine was reduced to 4% of the control preparation. Electrical nerve stimulation of the end-plate preparation produced a release of tritium that could be attributed entirely to the release of [³H]acetylcholine. The stimulated tritium efflux was completely suppressed in a calcium-free medium or in the presence of tetrodotoxin (300 nM). Release could even be detected during a short train of 50 pulses (5 Hz) with a fractional release of about 0.04% of the [³H]acetylcholine tissue content per pulse.It is concluded that the large muscle mass interferes with nerve labelling by a reduction of the [³H]choline supply to the nerve terminals when the whole nerve-muscle preparation is used. Removal of most of the muscle fibres reduces the possibility for [³H]choline to be captured by them and then more radioactive choline can enter the end-plate region. From this end-plate preparation a calcium-dependent release of radioactive transmitter can be measured in the absence of cholinesterase inhibitors.     

Platelet 5-HT uptake sites in depression: three concurrent measures using [3H] imipramine and [3H] paroxetine

Platelet 5-HT uptake sites were measured in 40 depressed patients and 40 controls using [³H] imipramine binding, defined with desmethylimipramine (DMI) and Na⁺ dependence, and [³H] paroxetine binding. In control subjects the B_max of DMI defined [³H] imipramine binding was significantly higher than both Na⁺ dependent [³H] imipramine (by 30%) and [³H] paroxetine binding (by 22%). The B_max of Na⁺ dependent [³H] imipramine and [³H] paroxetine binding did not differ significantly. The K_d of Na⁺ dependent [³H] imipramine binding was significantly lower than the K_d of DMI defined [³H] imipramine binding. The binding of DMI defined and Na⁺ dependent [³H] imipramine and [³H] paroxetine did not differ significantly between depressed patients and controls in the total group, in those depressed patients who had never taken antidepressants or in those depressed patients who had been recently with-drawn from antidepressants. This study provides no support for the view that the number of platelet 5-HT uptake sites are reduced in depression.     

Dopamine receptors modulating [H]acetylcholine release in slices of the cat caudate: Effects of (−)-N-(2-chloroethyl)-norapomorphine

(−)-N-(2-Chloroethyl)-norapomorphine ((−)-NCA) inhibited in a concentration-dependent manner the electrically evoked [³H]acetylcholine release in slices of cat caudate. The inhibition by (−)-NCA was reversible and antagonized by the benzamide neuroleptic S-sulpiride. Although (−)-NCA is an irreversible antagonist at some behaviorally relevant postsynaptic dopamine receptors, its effect as an agonist on dopamine receptors modulating [³H]acetylcholine release strongly resembles its action on presynaptic dopamine autoreceptors modulating [³H]dopamine release. Our results suggest that the dopamine receptor modulating [³H]acetylcholine release may not be an appropriate in vitro model for those behaviorally relevant postsynaptic dopamine receptors which are antagonized by (−)-NCA. It is more likely that it conforms to the characteristics of presynaptic release-modulating dopamine autoreceptors. The agonistic action of (−)-NCA at presynaptic dopamine receptors, in contrast to the irreversible antagonism of some postsynaptic dopamine receptors by (−)-NCA, should be interpreted with caution. Evidence is presented which suggests that (−)-NCA breaks down in solution into (−)-N-(2-hydroxylethyl)-norapomorphine ((−)-NHA). Since (−)-NHA is an agonist at presynaptic dopamine receptors, this physicochemical breakdown product may be partly responsible for the apparent agonistic properties of (−)-NCA under our in vitro conditions.     

5-HT1B receptors modulate release of [3H]dopamine from rat striatal synaptosomes

The effect of the selective r5-HT_1B agonist 3-(1,2,5,6-tetrahydro)-4-pyridil-5-pyrrolo [3,2-b] pyril-5-one (CP93,129) on the K⁺-evoked overflow of [³H]dopamine was studied in rat striatal synaptosomes loaded with [³H]dopamine. The aim of the study was to investigate the participation of 5-HT_1B receptors in the serotonergic modulation of striatal dopaminergic transmission. The Ca²⁺-dependent, tetrodotoxin-resistant K⁺-evoked overflow of [³H]dopamine was inhibited by CP93,129 (0.01–100 μM) in a concentration-dependent manner (IC₅₀=1.8 μM; maximal inhibition by 35.5% of control). [±]8-OH-DPAT, a 5-HT_1A receptor agonist, [+/–]DOI, a 5-HT₂ receptor agonist, and 2-methyl-5-hydroxytryptamine, a 5-HT₃ receptor agonist, at concentrations ranging from 0.01 μM to 100 μM did not show any significant effect. Neither ketanserin (1 μM and 5 μM), a selective 5-HT₂/5-HT_1D receptor antagonist, nor ondansetron (1 μM), a 5-HT₃ receptor antagonist, changed the inhibitory effect of CP93,129. SB224289, GR55562, GR127935, isamoltane and metergoline, selective and non-selective 5-HT_1B receptor antagonists, in contrast, used at a concentration of 1 μM, antagonized the inhibitory effect of CP93,129 (3 μM and 10 μM). SB224289, a selective 5-HT_1B receptor antagonist, inhibited the effect of CP93,129 in a concentration-dependent manner; the calculated K _i value was 1.8 nM. Our results indicate that in rat striatal axon terminals the K⁺-evoked release of dopamine is regulated by the presynaptic 5-HT_1B heteroreceptors. Received: 7 September 1998 / Accepted: 2 November 1998     

[3H]-Domperidone labels only a single population of receptors which convert from high to low affinity for dopamine in rat brain

Summary Dopamine recognized and competed for a single population of [³H]-domperidone-binding sites in rat striatum and olfactory tubercle when tested in the presence of sodium ions and guanine nucleotide [Gpp(NH)p]. In the absence of Na⁺ and Gpp(NH)p, however, dopamine recognized two components of [³H]-domperidone binding. Thus, [³H]-domperidone labelled only a single population of dopamine receptors (type D₂) which fully converted from high to low affinity for dopamine. These results agree with those found previously using [³H]-spiperone and [³H]-YM-09151-2.