EC:3.1.1.7 - FACTA Search

Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: EC:3.1.1.7 (acetylcholinesterase)
28,390 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

1. The interaction of hexafluorenium with acetylcholine, carbachol and suxamethonium with regard to the depolarization of the end-plate of rat diaphragm was studied. The depolarization was measured with the moving meniscus technique of Fatt. The competitive antagonist d-tubocurarine was included in the studies. 2. Hexafluorenium inhibited acetylcholinesterase in the end-plate. 3. The receptors in the end-plate were desensitized by carbachol and suxamethonium. Hexafluorenium enhanced the desensitization by suxamethonium. d-Tubocurarine had no direct influence on desensitization 4. The desensitization of the receptors in rat diaphragm is compatible with a cyclic model of desensitization. 5. The desensitizing interaction of hexafluorenium with the receptors may explain the non-competitive antagonism with depolarizing drugs with regard to the depolarization of the end-plate and the synergism with these drugs with regard to the paralysis of the indirectly stimulated muscle reported earlier. 6. The affinities of carbachol, suxamethonium and d-tubocurarine to the sensitive receptors are 4.9, 5.2 and 6.8, respectively.
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PMID:The desensitizing interaction of hexafluorenium with the cholinergic receptor in the diaphragm of the rat. 84 69

Intracellular Ca2+ mobilization in neuro-skeletal muscle synapse was studied by measuring Ca2(+)-aequorin luminescence transients (Ca2+ transients). Ca2+ transients were categorized into three groups as follows: (1) The 1st phase of rapid Ca2+ mobilization was accompanied with twitch tension, (2) the 2nd phase of slow Ca2+ mobilization was not accompanied with twitch tension, and only observed in the presence of cholinesterase inhibitors, and (3) the 3rd phase was spontaneous Ca2+ mobilization which was rather related to contracture. The caffeine effects were composed of 1st phase-potentiation (cyclic AMP increase?), 2nd phase-inhibition (n-acetylcholine receptor (AChR) closely related), and the increase of 3rd phase (Ca2+ release from salcoplasmic reticulum). d-Tubocurarine showed much higher potency for the inhibition of the 2nd phase than for that of the 1st phase. These results suggest that the 1st phase Ca2+ transients are related to T-type n-AChR channel, whereas the 2nd phase Ca2+ transients are related to S-type n-AChR channel and its mediated signal transduction.
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PMID:[Intracellular calcium ion mobilization and nicotinic acetylcholine receptor-mediated signal transduction in neuro-skeletal muscle synapse]. 219 1

The role of presynaptic acetylcholine receptors and Ca2+ channels in the regenerative acetylcholine release was studied in the cut muscle preparation of mouse phrenic nerve hemidiaphragm. The regenerative release shown as a prolonged endplate depolarization was evoked by stimulation of the nerve with a train of pulse at 75-300 Hz when acetylcholinesterase activity was depressed with neostigmine or by lowering temperature. Tubocurarine, cobratoxin, verapamil, diltiazem and nifedipine at low concentrations, which had a negligible effect on the endplate potential, shortened the duration of regenerative depolarization while leaving the amplitude unaffected. In contrast, Mn2+ at concentrations that markedly reduced the amplitude of single endplate potentials caused little suppression of the regenerative depolarization though intensive stimulation was needed to trigger the response. On the other hand, atropine inhibited the regenerative depolarization only at high concentrations which also depressed endplate potentials. These results indicate that the mechanism for evoking the regenerative release involves the activation of acetylcholine receptors and Ca2+ channels which are sensitive to tubocurarine and Ca2+ channel blockers. The Ca2+ channel concerned, however, appears to differ from that involved in the normal quantal release of acetylcholine.
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PMID:Antagonism by tubocurarine and verapamil of the regenerative acetylcholine release from mouse motor nerve. 272 60

The acetylcholinesterase phospho-organic inhibitor armine (4.10(-7) M) reduces the muscle response to a single nerve stimulus (up to 50%) and the nerve-induced tetanic tension in the rat phrenic-diaphragm muscle preparation. Tubocurarine exerts a similar effect. Substitution of armine by 0.5.10(-7) or 1.10(-7) M tubocurarine for 60-90 min leads to almost complete restoration of neuromuscular transmission. In the presence of armine, tubocurarine exerts a considerably lesser effect. Possible pre- and post-synaptic mechanisms of the tubocurarine action, are discussed.
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PMID:[Restoration of neuromuscular transmission in the rat diaphragm after the action of an organophosphorus inhibitor of acetylcholinesterase by using curare]. 285 78

The effects of 1,1-dimethyl-4-phenylpiperazinium (DMPP) and of nicotine receptor antagonists on [3H]acetylcholine release from the rat phrenic nerve preincubated with [3H]choline were investigated in the absence and presence of cholinesterase inhibitors (presynaptic effects). Additionally, the effects of hexamethonium and tubocurarine on the muscle contraction of the indirectly stimulated diaphragm were examined (postsynaptic effects). DMPP (1-30 microM) increased (76-92%), whereas hexamethonium (0.001-1 mM) and tubocurarine (1-10 microM) decreased (52-60%) the release of [3H]acetylcholine following a train of 100 pulses at 5 Hz. The release caused by a longer train (750 pulses at 5 Hz) was only slightly affected by DMPP and tubocurarine. In the presence of neostigmine (10 microM) neither tubocurarine nor DMPP significantly modulated the evoked [3H]acetylcholine release. High DMPP concentrations (10 and 30 microM) enhanced the evoked release only when the pretreatment interval was reduced from 15 min to 20 s. Tubocurarine and hexamethonium concentration-dependently inhibited the end-organ response. Hexamethonium was 250-fold more potent on presynaptic than on postsynaptic nicotine receptors. It is concluded that the motor nerve terminals are endowed with presynaptic nicotine receptors. These autoreceptors mediate a positive feed-back mechanism that can be triggered by previously released endogenous acetylcholine. Receptor desensitization can be produced by high agonist concentrations (endogenous or exogenous agonists) and is probably one mechanism to limit the autofacilitatory process. The presynaptic receptors appear to differ in their pharmacological properties from the postsynaptic receptors.
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PMID:Presynaptic nicotine receptors mediating a positive feed-back on transmitter release from the rat phrenic nerve. 288 Dec 16

It was found by intracellular recording with glass microelectrodes that train stimulation (50-200 Hz) of the phrenic nerve of intact or cut mouse diaphragm induced an accumulative depolarization of the endplate and triggered after a few pulses an 'all-or-none' regenerative depolarization lasting for 300-900 ms when acetylcholinesterase was inhibited by neostigmine or diisopropylfluorophosphate. This depolarization was associated with a noise of the membrane potential and a failure of the end plate potential. Low Ca2+ prolonged whereas high Ca2+ shortened the duration of regenerative depolarization which needed no further stimulation once triggered. d-Tubocurarine abolished the depolarization while restoring the end plate potential. A regenerative release of acetylcholine due to an activation of presynaptic cholinoceptors is speculated.
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PMID:A regenerating release of acetylcholine from mouse motor nerve terminals treated with anticholinesterase agents. 376 48

1. In mouse diaphragm, with intact cholinesterase (ChE), the mean value of the resting membrane potential was significantly higher (-84.8 +/- 0.3 mV; mean +/- S.E.M.) at the endplate zone than in the extrajunctional area of the muscle fibres (-82.5 +/- 0.3 mV) at 22 degrees C. 2. This hyperpolarization of about 2-3 mV at the endplate zone was abolished within 5 min by 1 x 10(-6) M ouabain, indicating that it might be caused by an electrogenic Na(+)-K+ pump. (+)-Tubocurarine (TC; 1 x 10(-5) M) had no effect on this hyperpolarization after bath application for 10-20 min. 3. Short-term denervation (4 h), a slight increase of Mg2+ in the bath of from 1 to 4 mM and application of a Ca(2+)-free solution for 60 min also led to the disappearance of the surplus polarization. All of these factors are known to eliminate TC-induced hyperpolarization in anti-ChE-treated muscles (H-effect), which is considered to be a correlate of non-quantal acetylcholine (ACh) leakage. 4. The time courses of the decline of the H-effect and surplus polarization after denervation were identical. 5. In short-term denervated muscles with intact ChE, the surplus polarization was restored by 5 x 10(-8) M ACh, which simulates the H-effect in anti-ChE-treated muscles. The presence of 1 x 10(-6) M ouabain either prevented or abolished the effect of the bath-applied ACh.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Role of non-quantal acetylcholine release in surplus polarization of mouse diaphragm fibres at the endplate zone. 793 37

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

Repetitive discharges recorded from the ventral root and from the gastrocnemius muscle in response to single motor nerve shocks applied close to the muscle after injection of edrophonium, neostigmine or ambenonium were studied in cats anaesthetized with chloralose. Two closely spaced volleys with an interval of 1 to 5 msec between them produced more repetitive firing than did a single shock. With longer intervals, the repetitive firing was not potentiated by the second volley. All frequencies of tetanic stimulation depressed the repetitive firing and, for successive stimuli to produce a degree of repetitive firing equivalent to the first, it was necessary to stimulate at frequencies below 2 shocks/sec. With stimulation frequencies higher than 100 shocks/sec, repetitive firing did not occur unless the duration of the tetanus was shorter than about 30 msec when slight repetition followed the last stimulus of the train. With stimulation frequencies of 100 down to 20 shocks/sec, repetitive firing was produced only by the first volley of the tetanus. Subsequent nerve action potentials of the tetanus occurring during the repetitive firing in the nerve following the first volley were partially extinguished by collision with the back discharge. This effect contributed to the waning tetanus, which is characteristic of treatment with an anticholinesterase, but the main depression of tetanic contractions appeared to be a consequence of depolarization block through accumulating acetylcholine. Tubocurarine and benzoquinonium reversed the initial "extinction" phase of the depressed tetani by abolishing the repetitive discharge in the nerve and in larger doses reversed the secondary depressant phase presumably by reducing the excessive end-plate depolarization. The results are discussed in relation to the hypothesis that anticholinesterases may effect transmission by acting at three sites at the neuromuscular junction-on acetylcholinesterase, at the motor nerve ending and at the motor end-plate-and that reaction at any one site may be augmented by the production of reverberating activity across the junction.
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PMID:Studies on the repetitive discharges evoked in motor nerve and skeletal muscle after injection of anticholinesterase drugs. 1397 50

Gallamine and tubocurarine increased the rate of decarbamylation of carbamylated Triton-solubilized rabbit brain acetylcholinesterase and interacted synergistically with 3,3-dimethyl-1-butanol in the acceleration of decarbamylation at low ionic strength. Gallamine and tubocurarine also accelerated decarbamylation at a physiological ionic strength, but in this case the interaction with 3,3-dimethyl-1-butanol was not synergistic. Tubocurarine decreased the rate of ageing of isopropylmethyl-phosphonyl-acetylcholinesterase at low ionic strength, but gallamine and tubocurarine had no effect on ageing at a physiological ionic strength, nor did gallamine at low ionic strength. However reductions in the rate of ageing were observed for gallamine/3,3-dimethyl-1-butanol and tubocurarine/3,3-dimethyl-1-butanol mixtures at low ionic strength. Gallamine increased the maximum velocity of hydrolysis of acetylthiocholine at low ionic strength, but not at physiological ionic strength. Gallamine increased the rate of carbamylation of acetylcholinesterase by physostigmine and neostigmine at low ionic strength; however the data were not consistent with a simple model of complexing inhibition by these carbamates. Overall, the kinetic properties of Triton-solubilized rabbit brain acetylcholinesterase were less sensitive to modification by proposed allosteric effectors than bovine erythrocyte acetylcholinesterase, the allosteric properties of which have been reported previously, and millimolar concentrations of gallamine and tubocurarine were required to produce observable effects at physiological ionic strength. Further experiments are required to determine whether acetylcholinesterase is similarly insensitive to allosteric regulation in vivo.
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PMID:Modification of the kinetic properties of Triton-solubilized rabbit brain acetylcholinesterase by allosteric effectors at low ionic strength. 2050 64

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