EC:3.1.1.7 - FACTA Search

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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)

Cultures of spinal cord neurons and cocultures of rat embryo neurons and muscle cells have been studied in the presence of tetanus toxin (TT) at a concentration of 40 micrograms/ml of medium. TT strongly stimulated neurite outgrowth, notably branching from the cell bodies. In addition it induced a marked, overall increase in acetylcholine receptor (AChR), but inhibited focalisation of AChR and acetylcholinesterase (AChE) at the synaptic sites. TT seems to act on neurite emergence, on the neuronal factor(s) controlling AChE and AChR concentrations, and on the factor(s) modulating degradation and/or synthesis of AChR.
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PMID:The effect of tetanus toxin on in vitro synaptogenesis. 202 Mar 76

Recent studies suggest that the nature of events leading to the formation, maintenance, and elimination of synapses may be regulated by cascade-type, locally expressed proteases and protease inhibitors acting on adhesive extracellular matrix components. We have identified a molecule in conditioned medium of murine skeletal muscle cells that in molecular weight, target protease inhibition, heparin-binding and cross-reactivity with authenic antisera is similar to the human serine proteinase inhibitor, protease nexin I. Protease nexin I is a 43-50 kDa glycoprotein of the serpin superfamily (arg-serpin class). Purified anti-protease nexin I antibody (anti-47 kDa) stains adult mouse skeletal muscle in discrete foci that precisely superimpose on synaptic neuromuscular junctions. Protease nexin I appears in patches on surfaces of cultured mouse skeletal myotubes, but not on myoblasts. These patches co-localize with acetylcholine receptor clusters and acetylcholinesterase staining during cellular maturation in culture. Evidence that protease nexin I is a synaptic, extracellular antigen is particularly intriguing since it has been shown to be identical, in structure and activity, with a factor released by glial cells, called glia-derived nexin that stimulates mouse neuroblastoma cell neurite outgrowth and inhibits granule cell migration. Protease nexin I inhibits both tumor cell and myoblast plasminogen activator-mediated destruction of extracellular matrix. Thus, such observations as presented in this report provide further evidence for involvement of cascade proteolytic systems, and their post-translational regulation by specific serpins, in the remodeling that occurs in synapse formation and elimination.
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PMID:Plasminogen activators and inhibitors in the neuromuscular system: III. The serpin protease nexin I is synthesized by muscle and localized at neuromuscular synapses. 203 25

Cultures of rat myotubes from 18-day-old embryos produce both globular (G) and asymmetric (A) forms of acetylcholinesterase (AChE; EC 3.1.1.7), mostly G1, G4, and A12 and a small proportion of A8. We show that all forms are partly intracellular and partly exposed to the extracellular medium; the A forms and their intra- and extracellular distribution are not modified when myotubes are grown in the presence of spinal cord neurons. In these cocultures, however, AChE patches may be detected immunohistochemically at sites of neuromuscular contacts. These patches represent a very minor proportion of AChE activity. We found that collagenase removes AChE patches but not the acetylcholine receptor clusters with which they coincide. This digestion specifically decreases the level of the A12 form. cis-Hydroxyproline, an inhibitor of collagen synthesis, reduces the level of G1 and blocks the synthesis of A forms.
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PMID:Acetylcholinesterase in cocultures of rat myotubes and spinal cord neurons: effects of collagenase and cis-hydroxyproline on molecular forms, intra- and extracellular distribution, and formation of patches at neuromuscular contacts. 215 53

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

Fourteen Jewish patients from 10 families of either Iraqi or Iranian origin with congenital myasthenia had associated facial malformations which included an elongated face, mandibular prognathism with class III malocclusion and a high-arched palate. Other common features were muscle weakness restricted predominantly to ptosis, weakness of facial and masticatory muscles, and fatigable speech; mild and nonprogressive course; response to cholinesterase inhibitors; absence of antibodies to acetylcholine receptor; decremental response on repetitive stimulation at 3 Hz but no repetitive compound muscle action potential in response to a single nerve stimulus. This newly recognized form of congenital myasthenia with distinctive ethnic clustering and associated facial malformations is transmitted as an autosomal recessive disorder. The facial abnormalities may be secondary to the neuromuscular defect or may be primary and unrelated. Further studies are needed to elucidate the defect in neuromuscular transmission responsible for the pathogenesis of this syndrome.
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PMID:Congenital myasthenia associated with facial malformations in Iraqi and Iranian Jews. A new genetic syndrome. 224 97

Alterations in the physical structure of vesicles and monolayers of phospholipids and soybean lecithin were monitored by measurement on the average fluorescence intensity changes from N-(7-nitrobenz-2-oxa-1,3-diazol-4-yl)dipalmitoyl-L-a-phosphatidyl ethanolamine (NBD-PE) located in the lipid matrices. This probe was intimately dispersed at a concentration of 1-2 mol-% in lipid membranes and had an emission sensitive to local environmental structure. Alterations in the structure of soybean lecithin vesicles were induced by the selective interaction of acetylcholine receptor with the agonist carbamylcholine and the antagonist alpha-bungarotoxin. Structural changes in vesicles with a 7:3 mole ratio of dipalmitoylphosphatidyl choline to dipalmitoylphosphatidic acid were observed for selective interactions between acetylcholinesterase and acetylcholine. Enhancement of fluorescence emission from the lipid membranes provided transduction of the selective binding events of the receptor and enzyme. A maximum sensitivity of about a 30% enhancement per micromole of carbamylcholine and a detection limit for the toxin of 10 nM were observed for the receptor. Fluorescence microscopy was used to establish that protein could be incorporated in monolayer lipid membranes and to provide information about potential mechanisms of fluorescence enhancement. These studies show that lipid membranes containing NBD-PE can be used as generic transducers of protein-ligand interactions.
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PMID:Chemical transduction with fluorescent lipid membranes using selective interactions of acetylcholine receptor with agonist/antagonist and acetylcholine with substrate. 232 68

The conformations of acetylcholine receptor from Torpedo californica in the absence and presence of agonists, antagonists, and local anesthetics were studied by circular dichroism (CD). Without ligands, the receptor had about 40% helix, 20% beta-sheets, and 10% beta-turns as analyzed from its far-UV CD spectrum. Its near-UV CD spectrum resembled that of acetylcholinesterase from the same source. None of the ligands studied altered the far-UV spectrum of the receptor. However, in the near-UV region, carbamylcholine and acetylcholine shifted the Phe and Tyr bands of AChR to less negative, whereas hexamethonium changed the Tyr bands to more negative, indicating that the site of binding of agonists and antagonists and their effect on the conformation of the receptor may be different. Decamethonium, procaine, and lidocaine had no effect on both the far- and near-UV CD spectra of acetylcholine receptor.
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PMID:Conformation of acetylcholine receptor in the presence of agonists and antagonists. 234 71

The actions of the carbamate cholinesterase inhibitors, physostigmine (Phy) and physostigmine methiodide (MetPhy), were studied on the acetylcholine receptor-ion channel complex (AChR) of skeletal muscles. Low concentrations of these agents produced cholinesterase inhibition which resulted in potentiation of nerve-elicited muscle twitches and an increased peak amplitude and prolongation of the decay time constant (tau EPC) of endplate currents (EPCs) elicited in frog (Rana pipiens) sartorius muscles. However, increasing concentrations of Phy depressed the peak amplitude and shortened the decay phase of the EPC with an apparent loss in the voltage dependence of tau EPC. At higher concentrations and depolarized potentials, EPC decays were double exponential. The effects of both Phy and MetPhy on the postsynaptic AChR complex were also evident in preparations pretreated with diisopropylfluorophosphate. Under these conditions, a linear relationship between the reciprocal of tau EPC and the concentration of these agents was observed. Single channel studies revealed that Phy (20-600 microM) shortened channel lifetime and decreased channel conductance at very high concentrations. In addition, Phy (0.5 microM) induced the appearance of channel openings with conductance similar to that of acetylcholine. High concentrations (greater than 50 microM) of this agent activated channel openings with decreased conductance. Similar results were obtained with MetPhy. Thus, the reversible cholinesterase inhibitors Phy and MetPhy altered the properties of the AChR by interacting as agonists capable of inducing desensitization and blockade.
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PMID:The reversible cholinesterase inhibitor physostigmine has channel-blocking and agonist effects on the acetylcholine receptor-ion channel complex. 241 99

The properties of acetylcholine receptor (AChR) channels on chick ciliary ganglion neurons in culture were examined using patch-clamp recording techniques. Acetylcholine (ACh) was applied by rapid microperfusion. Whole-cell current noise analysis revealed a single class of functional receptors on the neurons. Dose-response studies indicated a Kd of about 36 microM and a Hill coefficient of 1.5-1.7, predicting 2 ACh binding sites per receptor. Both fast and slow components of receptor desensitization were observed. Single-channel recordings from excised outside-out patches of soma membrane exposed to 2-5 microM ACh indicated a single-channel conductance of 40 pS, a reversal potential of -9 mV, a mean open duration of 1 msec, and an opening probability of 0.34. The kinetic behavior of the channels was provisionally described by a 3-closed, 1-open state model for receptor activation. In all of these properties, AChRs of ciliary ganglion neurons resemble those on skeletal muscle fibers. Growing the neurons in an elevated K+ concentration produced a 2-3-fold decrease in peak whole-cell currents induced by ACh under standard test conditions, without altering any of the single-channel properties described above. Neither changes in cholinesterase activity nor receptor distribution accounted for the decrease. Instead, calculations indicated that elevated K+ reduced the ACh response by decreasing the number of functional AChRs on the neurons. No K+-dependent decrease is observed, however, in the number of total receptors on the neurons detected either by a monoclonal antibody specific for the receptor or by an alpha-neurotoxin that binds to the receptor and blocks its function. Moreover, the number of receptors detected by the 2 probes is at least 10-fold greater than the calculated number of functional receptors. The findings suggest that only a small fraction of the AChRs on the neuronal surface is functional and that the cell can alter the ratio of functional and nonfunctional receptors in response to growth conditions.
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PMID:The properties and regulation of functional acetylcholine receptors on chick ciliary ganglion neurons. 244 40

Interactions of the oximes pyridine-2-aldoxime (2-PAM) and 1-(2-hydroxyiminomethyl-1-pyridino)-3-(4-carbamoyl-1-pyridino++ +)-2-oxapropane dichloride (HI-6), reactivators of phosphorylated acetylcholinesterase enzyme, with the nicotinic acetylcholine receptor-ion channel complex were studied using electrophysiological techniques. Single channel studies revealed that both oximes increased the opening probability of channels that were activated by acetylcholine. The oximes reduced mean channel open time and burst time in a concentration- and voltage-dependent manner. End-plate current amplitude was increased by 2-PAM (10-100 microM) and HI-6 (1 microM) but depressed at higher concentrations of these agents. The oximes decreased the time constant of end-plate current decay, particularly at hyperpolarized membrane potentials. HI-6 depressed indirect twitch response of the sartorius muscle, whereas 2-PAM caused a facilitation followed by depression. Both agents directly hydrolyzed acetylthiocholine, in addition to weakly inhibiting acetylcholinesterase. Our study demonstrates a direct molecular interaction of the oximes HI-6 and 2-PAM with the natural agonist molecule and with the acetylcholine receptor-ion channel complex. These effects can explain the excitatory and inhibitory actions of both agents, and may form the basis for their antidotal effectiveness against organophosphorus poisoning. The quantitative differences between the effects of 2-PAM and HI-6 on the above parameters are important in view of their differential antidotal efficacies.
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PMID:Acetylcholinesterase reactivators modify the functional properties of the nicotinic acetylcholine receptor ion channel. 245 74

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