Fasciola hepatica: motility response to metabolic inhibitors in vitro

The effects of metabolic inhibitors on the in vitro motility of Fasciola hepatica have been determined by means of an isometric transducer system. Sodium fluoride, an inhibitor of glycolysis, causes a long-term suppression of motility; this is also the effect of sodium iodoacetate (another glycolysis inhibitor) at low concentrations (1 X 10(-5) M and below). However, higher concentrations of iodoacetate induce a rapid inhibition of activity leading to a spastic paralysis. Both rotenone and oligomycin, which act as inhibitors of oxidative phosphorylation, produce a long-term suppression of movement. Carbonylcyanide-p-trifluoromethoxyphenylhydrazone and carbonylcyanide-m-chlorophenylhydrazone, which are uncouplers of oxidative phosphorylation, induce a spastic paralysis of the fluke; this is rapid at high concentrations (1 X 10(-4) and 1 X 10(-5) M). A brief stimulation of activity is evident at 1 X 10(-5) M and lasts longer at 1 X 10(-6) and 1 X 10(-7) M, before inhibition sets in. There is no stimulation at low concentrations of carbonyl cyanide-p-trifluoromethoxyphenylhydrazone (1 X 10(-8) and 1 X 10(-9) M), only inhibition leading to a medium-term spastic paralysis. In contrast, a third uncoupler, 2,4-dinitrophenol, causes a flaccid paralysis and the effect is rapid only at high concentrations, being accompanied by an initial increase in muscle tone at 1 X 10(-2) M and a brief stimulation of motility at 1 X 10(-3) M. Stimulation lasts longer at 1 X 10(-4) and 1 X 10(-5) M, but is not evident at concentrations below this. The effects on motility at these lower concentrations are essentially long term in nature. That the rapid effects of the uncouplers on muscle tone and motility are not due primarily to uncoupling is shown by 2,4,6-trinitrophenol and hydroquinone, compounds structurally related to 2,4-dinitrophenol. 2,4,6-Trinitrophenol is a membrane-impermeable compound devoid of uncoupling activity; at 1 X 10(-3) M, it causes an immediate inhibition of activity and increase in muscle tone. The antioxidant hydroquinone produces an initial stimulation of motility with some increase in tone, but this is followed by a sharp decline and a short-term flaccid paralysis. The results are discussed in relation to the postulated effects of certain fasciolicides on the energy metabolism of the liver fluke.     

Enteric opioid neurons modulate the basal tone of the isolated puppy ileum

We studied the role of enteric opioid neurons in the spontaneous motility of the longitudinal muscle in the isolated puppy ileum. Regular fluctuations in tone that rose above and returned to the basal level occurred at an interval of 4.7 +/- 0.3 min. Naloxone (10(-8) and 10(-7) M) reduced the spontaneous tonic contraction by 42.6 +/- 11.6% (p less than 0.02) and 77.0 +/- 3.6% (p less than 0.001), respectively. Tetrodotoxin (3.1 X 10(-7) M) and atropine (10(-7) M) terminated the fluctuations. Met- and Leu-enkephalins (10(-9)-10(-8) M) caused tonic contraction which was abolished by tetrodotoxin and atropine. The contractile response produced by transmural electrical stimulation was reduced by naloxone (10(-7) M). This response was also abolished by atropine and tetrodotoxin. These results suggest that enteric opioid neurons are spontaneously active and might operate, at least in part, to raise the basal tone of the longitudinal muscle in the puppy ileum through a cholinergic excitatory mechanism.     

Fasciola hepatica: motility response to fasciolicides in vitro

The effects of a wide range of fasciolicides on the in vitro motility of Fasciola hepatica have been determined by means of an isometric transducer system. Carbon tetrachloride and diamphenethide do not affect movement at concentrations up to 500 and 100 micrograms/ml, respectively; at 1000 micrograms/ml, however, carbon tetrachloride induces a rapid tonic paralysis. Brotianide and the deacetylated metabolite of diamphenethide cause a rapid flaccid paralysis of the fluke at concentrations of 1.0 micrograms/ml and above. In contrast, the effect of MK-401 is a long-term one, a flaccid paralysis occurring after 20 hr only at 200 micrograms/ml. Praziquantel also produces a flaccid paralysis of the fluke, but this follows an initial increase, then decrease in muscle tone. The effect is rapid at 500 micrograms/ml, but long-term at 100 and 200 micrograms/ml; at these lower concentrations there is also a stimulation of activity. Oxyclozanide , rafoxanide, niclofolan , bithionol, and hexacholorophene induce a rapid spastic paralysis of the fluke at concentrations of 1.0 micrograms/ml and above. Both phasic and tonic components are evident in the response at concentrations of 1.0 micrograms/ml and below; the phasic component disappears at higher concentrations. Nitroxynil produces a similar effect, evident at higher concentrations. Among the benzimidazoles, mebendazole, oxfendazole, and albendazole sulphoxide cause a suppression of motility, whilst thiabendazole and albendazole produce a stimulation of movement. The effects are not rapid, however, for only mebendazole at 500 micrograms/ml causes total inactivity of the fluke within a 12-hr period. Possible explanations for these effects on fluke motility are discussed.     

The modulatory effects of noradrenaline on vagal control of heart rate in the dogfish,Squalus acanthias

The possible interactions between inhibitory vagal control of the heart and circulating levels of catecholamines in dogfish (Squalus acanthias) were studied using an in situ preparation of the heart, which retained intact its innervation from centrally cut vagus nerves. The response to peripheral vagal stimulation typically consisted of an initial cardiac arrest, followed by an escape beat, leading to renewed beating at a mean heart rate lower than the prestimulation rate (partial recovery). Cessation of vagal stimulation led to a transient increase in heart rate, above the prestimulation rate. This whole response was completely abolished by 10(-4) M atropine (a muscarinic cholinergic antagonist). The degree of vagal inhibition was evaluated in terms of both the initial, maximal cardiac interval and the mean heart rate during partial recovery, both expressed as a percentage of the prestimulation heart rate. The mean prestimulation heart rate of this preparation (36+/-4 beats min(-1)) was not affected by noradrenaline but was significantly reduced by 10(-4) M nadolol (a beta-adrenergic receptor antagonist), suggesting the existence of a resting adrenergic tone arising from endogenous catecholamines. The degree of vagal inhibition of heart rate varied with the rate of stimulation and was increased by the presence of 10(-8) M noradrenaline (the normal in vivo level in routinely active fish), while 10(-7) M noradrenaline (the in vivo level measured in disturbed or deeply hypoxic fish) reduced the cardiac response to vagal stimulation. In the presence of 10(-7) M noradrenaline, 10(-4) M nadolol further reduced the vagal response, while 10(-4) M nadolol + 10(-4) M phentolamine had no effect, indicating a complex interaction between adrenoreceptors, possibly involving presynaptic modulation of vagal inhibition.     

Studies of the innervation of rabbit myometrium and cervix

We characterized the innervation of isolated circular and longitudinal-oriented muscle strips from the nulliparous rabbit uterus and cervix by field stimulation (FS). FS with increasing frequency (2.5-50 pps) and voltage (2.5-70 V) caused graded increases in isometric contraction with no relaxation or inhibition of spontaneous activity. Tetrodotoxin (TTX, 3.1 X 10(-6) M) significantly reduced the FS response by 75% in all strips at higher stimulus frequencies. Contractile responses to FS were also significantly inhibited by atropine (3.5 X 10(-6) M) in circular uterus and in longitudinal cervix. Guanethidine (5 X 10(-6) M) reduced the response in all strips, as did phentolamine (3.6 X 10(-6) M) in longitudinal uterus and circular cervix. Propranolol (3.9 X 10(-6) M) did not significantly change the response in longitudinal uterus or circular cervix. In longitudinal uterus, combined guanethidine and atropine produced significant inhibition, but not statistically different from either drug alone. Similar results were seen in circular uterus. Electron microscopy and glyoxylic acid histofluorescence indicate that both blood vessels and smooth muscle in rabbit uterus are supplied with adrenergic nerves. The results suggest the presence of TTX-sensitive adrenergic and cholinergic excitatory innervation of rabbit uterus and cervix.     

Effect of prostaglandin F2 alpha on propulsive activity of the isolated segmental colon of the guinea-pig.

The effects of prostaglandin F2alpha (PGF 2alpha) on propulsive activity in segments of isolated colon and on isolated strips of guinea-pig colon were investigated. Using experimental conditions under which spontaneous propulsive activity was negligible, PGF2alpha (5X10(-8)X1X10(-6)M), added to the bathing medium increased propulsive activity in a concentration dependent manner. This increase of propulsive activity was abolished in the presence of atropine or tetrodotoxin (1X10(-7)g/ml). The contractions produced by PGF2alpha (5X10(-7) -1X10(-5)M) in isolated longitudinal and circular smooth muscle strips of guinea-pig colon were unaffected in the presence of atropine or tetrodotoxin (1X10(-7) g/ml). From these results it is concluded that under the conditions employed in this study propulsive activity stimulated by PGF2alpha may depend on the contractions of both muscle layers and stimulation of the peristalic reflex.     

N-[(3S)-Pyrrolidin-3-yl]benzamides as novel dual serotonin and noradrenaline reuptake inhibitors: Impact of small structural modifications on P-gp recognition and CNS penetration

The structure–activity relationship and the synthesis of novel N-[(3S)-pyrrolidin-3-yl]benzamides as dual serotonin and noradrenaline monoamine reuptake inhibitors (SNRI) is described. Preferred compound 9 aka PF-184,298 is a potent SNRI with good selectivity over dopamine reuptake inhibition (DRI), good in vitro metabolic stability, weak CYP inhibition and drug-like physicochemical properties consistent with CNS target space. Evaluation in an in vivo preclinical model of stress urinary incontinence showed 9 significantly increased urethral tone at free plasma concentrations consistent with its in vitro primary pharmacology.     

Characterization of the muscarinic and serotoninergic receptors of the intestine of the rainbow trout (Salmo gairdneri)

The ability of carbachol and 5-hydroxytryptamine (5-HT) to contract isolated segments of rainbow trout intestine in a concentration-dependent manner indicates the presence of muscarinic and serotoninergic receptors in this tissue. The activity of these agonists appears to be directly on the smooth muscle, since ganglionic blockers and inhibitors of neurotransmission did not inhibit contractions. The carbachol-induced contractions were selectively inhibited by atropine and (+-)-3-quinuclidinyl xanthene-9-carboxylate hemioxalate hydrate, an M-2 muscarinic receptor antagonist. However, the inhibition was not competitive. McN-A-343, an M-1 muscarinic agonist had no effect on intrinsic tone. The 5-HT-induced contractions were selectively inhibited by methysergide and the 5-HT2 receptor blockers, ketanserin and 1-(1-naphthyl)piperazine. Again, the inhibition by these agents was not competitive. 5-HT1 and 5-HT3 receptor antagonists did not inhibit contractions. The results thus suggest that the smooth muscle of the rainbow trout intestine contains M-2 muscarinic and 5-HT2 receptors.     

Feline lower esophageal sphincter sling and circular muscles have different functional inhibitory neuronal responses

The lower esophageal sphincter (LES) has a circular muscle component exhibiting spontaneous tone that is relaxed by nitric oxide (NO) and a low-tone sling muscle that contracts vigorously to cholinergic stimulation but with little or no evidence of NO responsiveness. This study dissected the responses of the sling muscle to nitrergic innervation in relationship to its cholinergic innervation and circular muscle responses. Motor responses were induced by electrical field stimulation (EFS; 1-30 Hz) of muscle strips from sling and circular regions of the feline LES in the presence of cholinergic receptor inhibition (atropine) or NO synthase inhibition [NG-nitro-L-arginine (L-NNA)+/-atropine]. This study showed the following. First, sling muscle developed less intrinsic resting tone compared with circular muscle. Second, with EFS, sling muscle contracted (most at 50% by 5 Hz. Third, on neural blockade with atropine or L-NNA+/-atropine, 1) sling muscle, although predominantly influenced by excitatory cholinergic stimulation, had a small neural NO-mediated inhibition, with no significant non-NO-mediated inhibition and 2) circular muscle, although little affected by cholinergic influence, underwent relaxation predominantly by neural release of NO and some non-NO inhibitory influence (at higher EFS frequency). Fourth, the sling, precontracted with bethanecol, could relax with NO and some non-NO inhibition. Finally, the tension range of both muscles is similar. In conclusion, sling muscle has limited NO-mediated inhibition to potentially augment or replace sling relaxation effected by switching off its cholinergic excitation. Differences within the LES sling and circular muscles could provide new directions for therapy of LES disorders.     

Cholinoreceptors of the dentis retractor muscle of the sea urchin Strongylocentrotus intermedius

Neostigmine increases and cholinergic blocking agents block contractions of Strongylocentrotus intermedius dentis retractor muscle caused by either acetylcholine or indirect stimulation. Both innervated and non-innervated parts of the muscle are sensitive to low acetylcholine concentration suggesting that there are both synaptic and extra-synaptic cholinoreceptors. Nicotinomimetics are more potent than muscarinomimetics. Both d-tubocurarine and atropine are weak blocking agents as compared to pentadecamethylene-bis-trimethylammonium or hexadecamethylene-bis-trimethylammonium, Kd being 1 X 10(-4) to 5 X 10(-5) and 5 X 10(-7) to 4 X 10(-7) M respectively. Disulphide bonds and carboxylic (or phosphate) groups were revealed in dentis retractor muscle cholinoreceptors using drugs modifying receptor structure. Cholinoreceptors of both nicotinic and muscarinic type were revealed in oesophagus longitudinal muscles of Strongylocentrotus intermedius.     

Motor effects of gastrin releasing peptide (GRP) and bombesin in the canine stomach and small intestine

Close intraarterial injections of synthetic porcine gastrin releasing peptide (GRP) or bombesin stimulated contractions in the stomach and inhibited ongoing contractile activity in the small intestine of anaesthetized dogs. Contractile activity of the circular muscle was recorded by serosal strain gauges and phasic activity when desired was elicited by local field stimulation or intraarterial motilin injections. In the stomach (corpus and antrum) following tetrodotoxin blockade of field-stimulated contractions, the contractile response to either peptide was not present, suggesting that stimulation of receptors on nerves initiated contractions in the stomach. Similarly, in the small intestine, the inhibitory response was eliminated by tetrodotoxin suggesting a neural receptor. Pre-treatment with reserpine did not alter the inhibitory response, either in the presence or absence of atropine, therefore, adrenergic inhibitory mechanisms did not appear to be involved. The concentration of bombesin producing 50% inhibition of field stimulation (ED50) was increased following treatment with the putative M1 muscarinic antagonist, pirenzipine suggesting activation of M1 cholinergic inhibitory receptors by bombesin. After blockade by atropine of field-stimulated contractions and the contractile response to intraarterial acetylcholine, the ED50 for bombesin inhibition of motilin contractions was increased. After muscarinic blockade, the residual inhibitory response of GRP/bombesin may involve activation of a neural non-cholinergic non-adrenergic inhibitory mechanism. These results suggest that GRP and bombesin act to alter motility in the dog in vivo by affecting neural activity.     

Comparative effect of atropine on the adrenergic and muscarinic stimulation of phospholipid 32P labelling in isolated parotid cells: atropine, a possible blocker of alpha-adrenergic receptors

The inhibitory effect of atropine on phospholipid 32P labelling stimulated by muscarinic or alpha-adrenergic agonists was studied in isolated parotid cells. Atropine (10(-11) to 10(-4) M) had no effect on phospholipid 32P labelling in unstimulated cells. In contrast, 10(-8) to 10(-7) M atropine provoked a competitive inhibition of the cholinergic stimulation (i.e. this effect was completely wiped out at high agonist concentration). The atropine app. KD for the muscarinic receptor was 5 X 10(-9) M. Moreover, atropine inhibits the adrenergic stimulation of phospholipid 32P labelling by decreasing the efficacity and potency of the adrenergic agonists. The atropine app. KD for the alpha-adrenergic receptor can be estimated at 10(-5) M. This inhibition of alpha-adrenergic stimulation appears to be specific since atropine was without effect on the substance P or beta-adrenergic stimulation. At very low concentration (10(-10) - 10(-9) M) atropine seems to be a modulator (activator) of the muscarinic or adrenergic agonist-receptor complex. From the present data, it is suggested that atropine, besides its classical blocker effect at the muscarinic receptor, at high concentration is a specific alpha-adrenergic antagonist.     

Immediate x-radiation induced contractions of the isolated guinea pig terminal ileum: The localization of the effect by drugs

Summary Tone and motility of the isolated guinea pig ileum were increased by irradiation with a dose of 10 krd. The maximal effect corresponds to that induced by 0.001 µg/ml acetylcholine or 0.3 µg/ml nicotine. The pharmacological analysis of this effect performed with acetylcholine and nicotine and several blocking agents including hexamethonium, atropine, tetrodotoxin, diphenhydramine, and verapamil suggests that radiation acts on the postganglionic parasympathetic neuron and the neuromuscular synapse. The mechanism of radiation is likely to consist of both an increased release of acetylcholine from the postganglionic neuron and a sensibilization of the cholinergic receptor site at the smooth muscle cell. The latter effect is thought to result from an increased contractile action induced by acetylcholine or nicotine in the irradiated ileal smooth muscle.     

Potentiation by cocaine of relaxations of the guinea-pig colon caused by noradrenaline and by stimulation of adrenergic nerves.

The distal colon of the guinea-pig is relaxed by noradrenaline, by isoprenaline and by the stimulation of fibres running with the colonic nerves or intramurally. The relaxations in response to stimulation of the colonic nerves have a guanethidine-sensitive (adrenergic) and a guanethidine-insensitive (non-adrenergic) component. Cocaine causes a three-fold sensitization of the muscle to noradrenaline but no sensitization to isoprenaline. Cocaine increases the duration, but does not affect the amplitude, of the relaxation observed when adrenergic nerves are stimulated, and affects neither duration nor amplitude of the non-adrenergic response. The adrenergic nerve terminals lie in Auerbach's plexus, not in the longitudinal muscle. It is concluded that the sensitization to noradrenaline and the increases in durations of responses to adrenergic nerve stimulation are due to inhibition of catecholamine uptake into adrenergic nerves by cocaine. It appears that, even where the neuromuscular separation is large as it is in the colon, the concentration of exogenous noradrenaline at the receptors can be decreased by neuronal uptake, and the uptake mechanism can modify responses to nerve stimulation in vitro.     

Effects of indomethacin and PGE1 on the vasoconstrictor responses of the rabbit ear artery to nerve stimulation.

Actions of PGE1 and indomethacin on electrically induced vasoconstriction in isolated ear arteries of rabbits were studied. PGE1 (8.5 X 10(-9) M) reduced the vasoconstriction; this inhibition was inversely related to the rate of stimulation. Indomethacin (1.5 X 10(-6) M) potentiated the constrictor responses to nerve stimulation. The degree of this potentiation was also frequency-dependent being greater at low (1 - 2 HZ) than at high (8 - 16 HZ) rate of stimulation. These findings support the view that prostaglandins, in addition to their action on vascular smooth muscle cells, play a functional role in the regulation of tone of the rabbit ear artery by a negative feed-back control of adrenergic neurotransmission.     

Cholinergic stimulation of skeletal muscle alanine and glutamine formation and release. Evidence for mediation by a nicotinic cholinergic receptor and guanosine 3':5'-monophosphate.

The mechanism of cholinergic stimulation of alanine and glutamine formation and release from skeletal muscle was studied using rat epitrochlaris preparations. The increased alanine and glutamine release produced by carbamylcholine (10(-6) M) was reproduced by tetramethylammonium (10(-6) M) but not by pilocarpine (10(-6) M) and was blocked by hexamethonium (10(-4) M) but not by atropine (10(-7) M). This increased alanine and glutamine release was not associated with altered muscle cAMP levels. However, carbamylcholine (10(-6) M) and tetramethylammonium (10(-6) M) did not increase levels of cGMP, 134% and 101%, respectively, and these increments in cGMP were blocked by hexamethonium but not by atropine. Carbamylcholine produced a concentration-dependent increase in cGMP levels. Methylisobutylxanthine and theophylline augmented the increased amino acid release and increased cGMP levels produced by carbamylcholine. Neither xanthine derivative alone altered alanine and glutamine release or cyclic nucleotide levels. Added cGMP increased amino acid release and the uptake of [U-14C]alanine and alpha-amino[14C]isobutyric acid. Carbamylcholine did not alter muscle phosphorylase a activity, glycogen levels, or basal adenylate cyclase activity. These data indicate that cholinergic stimulation of muscle alanine and glutamine formation and release involves a nicotinic cholinergic receptor and may be mediated by increased levels of cGMP, which in turn may result from a cholinergic stimulation of muscle guanylyl cyclase.     

Pharmacological identification of acetylcholine receptor subtypes in echinoderm smooth muscle (Sclerodactyla briareus)

Contractions of an echinoderm (sp. Sclerodactyla briareus) smooth muscle, the longitudinal muscle of the body wall (LMBW), were evoked by acetylcholine (ACh) and agonists: epibatidine, muscarine and nicotine (in order of force generation: ACh>muscarine=epibatidine>nicotine). ACh-induced contractions were blocked by atropine by 50%, and methoctramine, by 30%. ACh responses were also blocked by 25% by methyllycaconitine (MLA) but not by d-tubocurarine (dTC). Muscarine initiated large contractions that were completely blocked by atropine. To elucidate possible muscarinic ACh receptor (mAChR) subtypes, muscarinic agonists (oxotremorine, pilocarpine) and antagonists (methoctramine, pirenzepine) were tested. Oxotremorine, pilocarpine, and pirenzepine each enhanced resting tonus and potentiated ACh-induced contractions (order of potency: pilocarpine>oxotremorine=pirenzepine). Muscarine, oxotremorine or pirenzepine generated phasic, rhythmic contractions. Nicotine-induced contractions were almost completely blocked by dTC but were not altered by atropine. Large contractions evoked by epibatidine were potentiated by dTC whereas atropine had no effect on them. MLA blocked spontaneous rhythmicity. Cholinesterase inhibitors, neostigmine or physostigmine, caused marked potentiation of ACh-induced contractions and initiated rhythmic slow wave contractions in previously quiescent muscles. The present pharmacological evidence points to the co-existence of excitatory nicotinic ACh receptor (nAChRs) and mAChRs where nAChRs possibly modulate tone, and the mAChRs initiate and enhance rhythmicity.     

Structure--activity relations for the acceleration of efflux of noradrenaline from adrenergic nerves in rabbit atria by sympathomimetic amines.

Atria from reserpine-pretreated rabbits were exposed to pargyline to inhibit monoamine oxidase (amine oxidase (flavin-containing) EC 1.4.3.4) and subsequently incubated in (-)-[3H]noradrenaline to allow the cytoplasmic accumulation of amine in adrenergic nerves. The structure-activity relations for acceleration of efflux of cytoplasmic amine were examined. The most potent agents studied were (+)- and (-)-amphetamine, beta-phenethylamine, phentermine, and mephentermine. Ability to accelerate efflux was reduced by addition of phenolic hydroxyl groups, by phenolic methylation, by beta-hydroxylation, and by N-substitution. The structure-activity relations for acceleration of efflux differ notably from those for uptake, inhibition of uptake, or release of noradrenaline from adrenergic nerves, reported in previous studies. The ability and potency of a given phenethylamine derivative to accelerate the efflux of cytoplasmic noradrenaline is probably determined by such factors as the lipid solubility of the amine, the affinity of the amine for the uptake and efflux site(s) for noradrenaline, and competition for any reserpine-resistant intraneuronal binding sites.     

Strychnine, morphine and monamine depression

Strychnine has been applied by microiontophoresis to cells in the cerebral cortex of rats. On pyramidal tract cells no blockade of the suspected neurotransmitters noradrenaline, acetylcholine or 5-hydroxytryptamine was seen, but on nonpyramidal tract cells 25% of depressant responses to 5-hydroxytryptamine were reversibly antagonised by strychnine.Morphine has been tested similarly and has been shown not to interact with 5-hydroxytryptamine of noradrenaline.Strychnine has long been known as a convulsant alkaloid. Early neurophysiologists discovered that strychnine would cause high amplitude ‘spike’ discharges from the central nervous system (1), this being taken as the neural counterpart of strychnine seizures.Interest was therefore aroused by the report of Phillis &; York (2) that in the cerebral cortex strychnine, applied by microiontophoresis, could antagonise depressant responses to suspected monoamine transmitters. Doubt is cast on this finding by the results of several groups of workers (3, 4, 5, 6, 7), who have failed to demonstrate any reduction by strychnine of either neural or noradrenaline-induced inhibition.The present study was therefore undertaken to reinvestigate the effects of strychnine on depressant responses to acetylcholine, noradrenaline and 5-hydroxytryptamine when these agents were applied by microiontophoresis to spontaneously active cells in the rat cerebral cortex.The study also investigates the possibility of an interaction between morphine and monoamine depressions. Each of the three putative transmitters tested here has been implicated in morphine's analgesic and possibly addictive properties (8, 9, 10, 11) and morphine antagonism of 5-hydroxytryptamine in the periphery is well known (12).     

Effect of quinidine and tetrodotoxin on the activation of non-adrenergic nerves in guinea-pig trachealis muscle

Activation of non-adrenergic neurones in guinea-pig trachealis muscle was accomplished by electrical field stimulation and by the neurotoxin aconitine, in the presence of atropine and propranolol. Aconitine (10(-5) M) activated non-adrenergic neurones more slowly, but was as efficacious as supramaximal field stimulation (70 V, 1 msec, 1-100 Hz), producing 70-80% of the maximal relaxation to forskolin or theophylline. Quinidine (3 X 10(-5) M-3 X 10(-4) M) and tetrodotoxin (5 X 10(-9) M-3 X 10(-6) M) blocked relaxations to aconitine and field stimulation, without affecting smooth muscle relaxant responses to forskolin. The results suggest that the non-adrenergic inhibitory effects of quinidine are related to its presynaptic local anaesthetic actions, rather than to postsynaptic receptor blockade of the non-adrenergic inhibitory neurotransmitter.