DrugBank:EXPT02427 - FACTA Search

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Query: DrugBank:EXPT02427 (Atropine)
3,300 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The isolated cremaster muscle preparation and spermatic nerve-cremaster muscle preparation of the guinea-pig were studied in vitro to determine their suitability as pharmacological test models. The preparation was contracted by acetylcholine, carbachol, succinylcholine and decamethonium (pD2 values, 4-2, 5-3, 7-3 and 7-4, respectively) through an action on a curare-sensitive cholinoceptor. Lobeline and DMPP were ineffective. Nicotine contracted the muscle, but there was tachyphylaxis. Tubocurarine and hexamethonium presumably competitively antagonized acetylcholine (pA2 values, 7-3 and 5-8); lobeline was a non-competitive antagonist (pD'2 value, 6-4). Atropine and mecamylamine exerted a dualistic action against acetylcholine (final pD'2 values, 5-3 and 6-7, respectively). Tubocurarine, succinylcholine and decamethonium exhibited their typical action when tested with spermatic nerve-cremaster muscle preparation; the latter two drugs also produced muscle spasm. Hexamethonium was a weak blocker of neuromuscular transmission. Atropine, mecamylamine, lobeline and DMPP exhibited neuromuscular blocking activity; however, directly evoked muscle twitches were also notably affected. The cremaster muscle preparations seem to add usefully to the list of currently used in vitro tests, with the added advantage that a mammalian skeletal muscle model is used for simultaneous quantitative studies.
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PMID:The isolated cremaster muscle preparation and (external) spermatic nerve-cremaster muscle preparation of the guinea-pig. 0 17

1. In unanaesthetized pigeons the effect on cloacal temperature was studied of acetylcholine (ACh), carbachol, atropine and (+)-tubocurarine injected into a cannulated lateral cerebral ventricle. The experiments were carried out at an ambient temperature of 19-25 degrees C. 2. ACh or carbachol injected intraventricularly produced hyperthermia, and in larger doses hyperthermia followed by hypothermia. These were central effects because they were not obtained when these drugs were injected in the same doses intravenously. 3. Atropine injected intraventricularly produced hypothermia which was greater and longer lasting than the hypothermia produced with the same dose of atropine injected intravenously. After the intraventricular injection of atropine the hyperthermic effects of ACh and of carbachol were abolished. 4. (+)-Tubocurarine injected intraventricularly produced a long-lasting hyperthermia in doses which had no effect on temperature when injected intravenously. After the intraventricular injection of tubocurarine the hypothermic effects of ACh and of carbachol were abolished. 5. It is concluded that the effects of ACh had carbachol imitate the effects of ACh released from cholinergic neurones in the central pathway involved in temperature regulation. The hypothermic effect of atropine is attributed to unmasking the activity of continuously released ACh acting on nicotinic receptors, and the hyperthermic effect of tubocurarine to unmasking the activity of continuously released ACh acting on muscarinic receptors.
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PMID:Cholinergic mechanisms in central thermoregulation in pigeons. 113 26

Isolated adrenal glands of dogs were perfused through the adrenolumbar vein with Krebs-Ringer phosphate solution. Nicotine or acetylcholine (Ach) significantly increased the proportion of norepinephrine in the effluent whereas muscarine did not alter the relative proportions of epinephrine and norepinephrine. d-Tubocurarine and hexamethonium (C6) inhibited the response to nicotine completely but scarcely affected the response to Ach and significantly potentiated the response to muscarine. Atropine inhibited the response to muscarine completely, that to Ach partially and that to nicotine slightly. Preinfusion of physostigmine potentiated the secretory response to Ach but not that to nicotine and muscarine. When nicotine and muscarine were infused simultaneously, catecholamine (CA) release was greater than the sum of the responses to nicotine and muscarine separately. Continuous infusion of nicotine for 60 min caused block of the adrenal medulla but potentiated CA release in response to Ach and more especially to muscarine. This potentiated release of CA was completely blocked by preinfusion of atropine. Continuous infusion of muscarine for 60 min also blocked CA release and significantly potentiated the response to nicotine, but slightly inhibited the response to Ach. These potentiated and inhibited responses were also completely blocked by preinfusion of d-tubocurarine of C6. On the contrary, during the blockade phase caused by Ach (in combination with physostigmine), nicotine of muscarine did not cause release of CA. In addition, the continuous infusion of nicotine plus muscarinic receptors for acetylcholine in the adrenal medulla and that cholinergic transmission is possible via both mechanisms in isolated adrenal glands. When one type of receptors is blocked by continuous contact with an agonist or by d-tubocurarine or C6, the sensitivity of the other type is increased; inactivation of the one is thus compensated by the increased response due to potentiation of the other.
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PMID:Further evidence for nicotinic and muscarinic receptors and their interaction in dog adrenal medulla. 123 52

1. Purine compounds were examined for pharmacological activity in the rectum and oesophagus of the garden snail Helix aspersa. 2. In the rectum, adenosine, AMP, ADP and ATP (above 10 microM) and acetylcholine (above 1 nM) consistently caused concentration-dependent contractions. The slope of the dose-response curve for ADP in the rectum was significantly steeper than for the other purine compounds. The contractile responses to the nucleotides and acetylcholine, but not adenosine, were selectively potentiated by physostigmine (1 microM). Atropine (1 microM) and tubocurarine (30 microM) failed to block the responses to the purines or acetylcholine. 3. In the oesophagus, adenosine, AMP, ADP and ATP (above 10 microM) and acetylcholine (above 1 nM) caused concentration-dependent contractions that were antagonised by atropine (1 microM). Tubocurarine (30 microM) failed to block the responses to the purine compounds or acetylcholine. Physostigmine (1 microM) potentiated the responses to ADP and acetylcholine but not ATP, AMP or adenosine. 4. In both the rectum and the oesophagus, the synthetic analogues of purine compounds including 2-chloroadenosine, alpha,beta-methylene ATP and 2-methylthio ATP were inactive up to a concentration of 100 microM. 5. Electrical field stimulation of the rectum and oesophagus produced consistent contractions which were unaffected by atropine (1 microM), tubocurarine (30 microM) or physostigmine (1 microM). These responses were not modulated by any of the purine compounds or their stable analogues. 6. The responses obtained appear novel even within known invertebrate purinergic systems, suggesting a differentiation of purinoceptor subtypes in this species.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Responses of the rectum and oesophagus of the snail Helix aspersa to purine nucleotides and nucleosides. 136 1

Nicotinic agonists stimulate 22Na flux in rat pheochromocytoma PC12 cells. The stimulatory effect of carbamylcholine is maximal at 1 mM, while the stimulatory effect of nicotine and anatoxin maximize at the same level at 100 microM and 10 microM, respectively. The tertiary amines arecolone and isoarecolone have no effect on flux at 100 microM, while the methiodides at 100 microM stimulate flux to an extent similar to 1 mM carbamylcholine. Dihydro and alcohol analogues of isoarecolone methiodide have markedly smaller effects on flux. A preincubation for 2 to 20 min with carbamylcholine (2 mM), nicotine (300 microM), anatoxin (30 microM) or isoarecolone methiodide (100 microM) causes marked desensitization to a subsequent carbamylcholine-elicited stimulation of flux. d-Tubocurarine, mecamylamine, hexamethonium, and chlorisondamine inhibit carbamylcholine-elicited flux with IC50 values of 1.0, 0.8, 43, and 0.020 microM, respectively. Atropine has no effect at 1 microM, but reduces the response to carbamylcholine by 50% at 8.6 microM, presumably as a noncompetitive blocker. Other noncompetitive blockers of nicotinic acetylcholine-receptors, such as histrionicotoxins, gephyrotoxin, pumiliotoxin C, phencyclidine, bupivacaine and piperocaine, inhibit carbamylcholine-elicited stimulation of 22Na flux with IC50 values from 0.3 to 1.8 microM. In contrast to d-tubocurarine, which inhibits carbamylcholine-elicited desensitization, and mecamylamine, which has no apparent effect on desensitization, chlorisondamine and certain noncompetitive blockers appear to enhance desensitization. The effects of agonists, antagonists and noncompetitive blockers at the neuronal nicotinic acetylcholine receptor-channel of PC12 cells are compared to their effects on binding of [125I]alpha-bungarotoxin to agonist-recognition sites and of [3H]perhydrohistrionicotoxin to noncompetitive blocker sites of the nicotinic acetylcholine receptor-channel of electric ray (Torpedo) electroplax membranes. There are marked differences in relative potencies for the two types of nicotinic acetylcholine receptor-channel.
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PMID:Nicotinic receptor-elicited sodium flux in rat pheochromocytoma PC12 cells: effects of agonists, antagonists, and noncompetitive blockers. 192 60

The present experiments were undertaken to investigate the effects of atropine and d-tubocurarine on acetylcholine (ACh) release and ganglionic synaptic transmission in the isolated cat stellate ganglion. Ganglionic release of picomole amounts of ACh was measured by radioenzymatic assay, and ganglionic transmission was estimated on the basis of the compound action potential recorded from the postganglionic stellate cardiac nerve. Atropine (5 microM) produced a significant increase in both spontaneous and evoked ACh release from the ganglion while depressing synaptic transmission. d-Tubocurarine (20 microM) also caused a significant, though smaller, increase in spontaneous release of ACh but had little effect on evoked release of ACh. These results suggest that ACh release and synaptic transmission in the cat stellate ganglion are subject to cholinergic feedback regulation, which appears to be mediated predominantly via muscarinic presynaptic receptors.
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PMID:Presynaptic modulation of ganglionic ACh release by muscarinic and nicotinic receptors. 238 39

The body wall muscle of the ascidian, Halocynthia aurantium, is sensitive to both nicotinomimetics and muscarinomimetics. Atropine (4 X 10(-11 M) and benzilylcholine mustard (1 X 10(-5) M for 15 min) selectively block responses to muscarinomimetics. d-Tubocurarine (2 X 10(-6) M) and hexadecamethylene-bis-trimethylammonium (2 X 10(-7) M) prevent contractions induced by both nicotinomimetics and muscarinomimetics. In the cold season of the year the sensitivity of the muscle to muscarinomimetics disappears while responses to nicotinomimetics do not change throughout the year. The cooling of the water in the experimental bath results in an increase in the muscle contractions caused by muscarinomimetics while the responses to nicotinomimetic propionylcholine do not change. Catecholamines induce a decrease of the ascidian muscle responses to acetylcholine, cGMP and papaverine produce a similar effect.
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PMID:The muscle chemoreceptors of the ascidian Halocynthia aurantium. 286 Oct 27

We have studied the roles of nicotinic and muscarinic receptors in the acetylcholine-evoked secretion of catecholamine from guinea-pig chromaffin cells. Isolated guinea-pig chromaffin cells secrete catecholamine in response to acetylcholine, nicotine, and a variety of muscarinic agonists. Optimal concentrations of acetylcholine (50-200 microM) induce the release of 10-25% of the catecholamine content of the cells in 10 min. Maximal secretion evoked by nicotine or by muscarinic agonists is 5-12% of the catecholamine content of the cells. Secretion evoked by optimal concentrations of nicotine (50 microM) and muscarine (200 microM) are additive, and together these agonists cause catecholamine release equivalent to that produced by optimal concentrations of acetylcholine. Atropine causes a biphasic inhibition of acetylcholine-induced catecholamine secretion; low concentrations of atropine (0.02-0.01 microM) inhibit by 35-45% the catecholamine secretion evoked by 100 microM acetylcholine. Increasing the atropine concentration from 0.1 to 5 microM causes no further decrease in acetylcholine-evoked release, but at concentrations above 5 microM, a second distinct phase of inhibition appears. At 100 microM, atropine reduces acetylcholine-evoked secretion by 85%. At 0.1 microM, atropine significantly inhibits secretion induced by muscarinic, but not nicotinic, agonists. Tubocurarine (50 microM) does not block muscarinic stimulation of release, but inhibits acetylcholine- and nicotine-evoked release by 70 and 80%, respectively. Our experiments indicate that nicotinic and muscarinic stimulation represent distinct mechanisms for the activation of catecholamine release from guinea-pig chromaffin cells.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Both nicotinic and muscarinic receptors mediate catecholamine secretion by isolated guinea-pig chromaffin cells. 664 40

Cutaneous pectoris muscles of Rana pipiens were transected distal to the innervated region. Within 10 min, membrane potentials (Em's) of -33 +/- 2.5 mV and end-plate potentials (3-15 mV) were recorded unaccompanied by muscle action potentials or twitch. The fall in Em was associated with a net loss of [K+]i and a net gain of [Na+]i. Although input resistance fell by 50% and the space constant was slightly reduced in the transected muscle fibers, end-plates could be adequately voltage-clamped with two microelectrodes. End-plate currents (e.p.c.s) with rise times of 350 to 700 musec were recorded as a function of holding potential (Vm). The current-voltage relationship of peak e.p.c.s over the range of -70 to +20 mV was linear and the reversal potential (-6.6 +/- 2.2 mV) was the same as that found for intact muscle fibers. The decay phase of e.p.c.s could be described as a single exponential at all Vm's and had a voltage and temperature dependence similar to that described for e.p.c.s of glycerol-treated muscles. Tubocurarine (0.3 microM) caused a significant decrease in the time constant (tau) of e.p.c. decay and e.p.c. amplitude. The depression of e.p.c. amplitude by tubocurarine was reversed by 4-aminopyridine while the decrease of tau was not. Atropine (10(-4) M) caused a monotonic shortening of e.p.c.s at a Vm of -90 mV but e.p.c.s recorded at +50 mV were biphasic. Lidocaine, a quaternary nitrogen analog of lidocaine (QX314), lobeline and hexafluorenium were studied also in transected muscle and their effects on the parameters of e.p.c. are described. Both lobeline (50 microM) and hexafluorenium caused a decrease of tau and eliminated the voltage dependence of tau at negative Vm's. The transected muscle can be used for the study of conductance kinetics of end-plate and for the study of drug action uncomplicated by the presence of other drugs of Mg++ to eliminate contraction.
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PMID:Characterization of end-plate conductance in transected frog muscle: modification by drugs. 696 98

1. This paper describes the effects of several cholinergic agonists and antagonists, and of beta-phenylethylamine (PEA) and some of its derivatives, on the articular capsule, or ligament, of the primary spines of Eucidaris tribuloides. 2. Carbamylcholine (CCh), methacholine (MeACh), nicotine, and muscarine exert a stiffening effect similar to that of acetylcholine (ACh), although the time course of their actions varies widely. 3. Atropine induced stiffening and blocked and responses to muscarine and MeACh. The responses to MeACh were blocked also by 4-diphenylacetoxy-N-methylpiperidine, suggesting the presence in the ligament of type M3 muscarinic receptors, in addition to nicotinic ones. d-Tubocurarine induced stiffness of the ligament and failed to block the responses to ACh and nicotine. 4. While ACh induced only a slight desensitization, CCh caused a long-lasting blockade of the stiffening effects of the cholinergic agonists. This shows that the receptors for ACh have a site or sites that recognize the ester moieties of these molecules. 5. Eserine and neostigmine potentiate the responses to acetylcholine, indicating the presence of acetylcholinesterase in the ligament. 6. beta-Phenylethylamine, epinephrine, norepinephrine, and dopamine induce diphasic responses; usually a brief softening followed by a slow and irreversible stiffening of the ligament. 7. In contrast to the above, tyramine and octopamine elicit a simple softening of ligaments which are stiff as a result of handling or by exposure to cholinergic agonists. However, tyramine and octopamine do not soften ligaments which become stiff as a result of exposure to adrenergic agonists.
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PMID:Pharmacological sensitivity of the articular capsule of the primary spines of Eucidaris tribuloides. 810 90

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