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)

The effects of methylmercury chloride and other mercury compounds on cholinergic parameters were studied in vitro. Methylmercury chloride (MMC) and phenylmercury acetate inhibited choline acetyltransferase (ChA) with 20 microM of I50, and mercury nitrate (MN) with 100 microM of I50. All the three compounds had little effect on cholinesterase activity. MMC inhibited a high affinity choline uptake with 41 microM of Ki, as well as a low affinity choline uptake with 250 microM of Ki. MMC did not affect a spontaneous and potassium-stimulated ACh release from brain tissue slices incubated in eserinized Krebs-Ringer's solution up to the concentration of 100 microM. It was shown that the organic mercury compounds, such as methylmercury, were potent inhibitors of the choline uptake systems, as well as ChA activity.
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PMID:Effects of methylmercury chloride on various cholinergic parameters in vitro. 54 84

The plasma cholinesterase variants of 190 mentally ill individuals having lithium prophylaxis have been examined. A significantly increased frequency of the E1f gene is reported. The effect of lithium nitrate and sodium nitrate on the plasma cholinesterase variants have been shown to be identical in the concentration range 25.0-50.0 mmol/l. The usual enzyme is slightly less sensitive to inhibition by either salt than the dibucaine resistant variant. The evidence suggest that the increased frequency of the E1f gene could be a genetic marker associated with some mental illness and not the result of lithium prophylaxis.
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PMID:Plasma cholinesterase variants in patients having lithium therapy. 85 31

Membrane-bound acetylcholinesterase (AChE) from mosquito showed the characteristic substrate inhibition of this enzyme, but 105,000 x g supernatants of freshly extracted enzyme did not. Addition of chaotropic anions, a freeze-thaw cycle and autolysis of the amphiphilic acetylcholinesterase to its non-amphiphilic derivatives resulted in return of the substrate inhibition feature along with an apparent increment in the enzyme activity. These results suggested that the lipidic environment of the mosquito AChE is temporarily perturbed when extracted. The enzyme is probably trapped in non-sedimenting mixtures composed of endogenous amphiphilic molecules. The occurrence of this phenomenon was not affected by the presence of Triton X-100 and other detergents, either alone or in combination with sodium chloride. Freezing in the presence of strong chaotropic anions (perchlorate, iodide and thiocyanate) caused the irreversible inactivation of the mosquito AChE. Crude and incomplete purified fractions of the enzyme were more sensitive than a more purified preparation. With both the purified AChE and the non-purified AChE, amphiphilic AChE was more freeze labile. Freezing at -10 degrees C enhanced inactivation of non-purified fractions. At this temperature, even weak chaotropic anions (fluoride, chloride and nitrate), while in combination with non-ionic detergents that solubilized mosquito AChE efficiently, reduced the enzyme activity of these fractions. In this case, recovery of the enzyme activity by incubation at 25 degrees C was inversely correlated with the effectiveness of the chaotropic anion. Gel filtration failed to show any change in the hydrodynamic radius of the freezing-inactivated AChE. Therefore, this phenomenon is explained as different degrees of denaturation of the enzyme in direct association with the chaotropic strength. Thus, antichaotropic anions, such as sulfate, should improve the stability of the mosquito acetylcholinesterase during extraction, purification and storage.
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PMID:Absence of substrate inhibition and freezing-inactivation of the mosquito acetylcholinesterase are caused by alterations of hydrophobic interactions. 197 36

This systematic study describes the determination of approximately 150 pesticides (mainly insecticides and fungicides) on high-performance thin-layer chromatography (HPTLC) layers, using modern techniques for spotting and evaluation. Standardized mobile phases and reagents for visualization form the basis for the confirmation of gas-chromatographic results by HPTLC. The very high sensitivity of cholinesterase inhibition can be utilized only on plates coated with silica gel. Several other currently important pesticides can be separated on C-18 reversed phase layers and detected using silver nitrate-UV irradiation or chlorine-o-tolidine. Computer-assisted densitometric evaluation allows direct quantitative determination of the pesticides.
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PMID:[Identification and quantitative determination of currently important plant protectants by HPTLC]. 199 14

1. The purpose of the present study was to provide evidence for involvement of endogenous acetylcholine in naturally as well as pharmacologically induced emotional behaviour in the cat. 2. Emotional-aversive responses of 10 cats were naturally evoked by presentation of a dog or the responses were pharmacologically induced by intracerebral injections of cholinomimetics. 3. Naturally evoked emotional behaviour was abolished by i.p. pretreatment with atropine sulfate (1 mg/kg), but not by atropine methyl nitrate, or it was significantly decreased by bilateral intracerebral injection of atropine sulfate (5 micrograms/microliter). 4. On the other hand, intracerebral injections of physostigmine (100 micrograms/microliter), an acetylcholinesterase inhibitor which elevates the level of endogenous acetylcholine, induced the fully developed emotional-aversive response comparable with natural behaviour and with responses induced by carbachol (10 micrograms/microliter). 5. The results demonstrate that the endogenous acetylcholine in the basal forebrain and diencephalic areas play a role in naturally occurring emotional aversive behaviour in cats.
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PMID:Evidence for involvement of endogenous acetylcholine in emotional-aversive response in the cat. 229 58

The effects of lethal (2.0 mg/kg) and high sublethal (1.3 mg/kg) dosages of the organophosphate acetylcholinesterase (AChE) inhibitor paraoxon on FR10 performance rate was determined 1 and 2 days after intoxication. The lethal doses were antidoted with either centrally acting atropine sulfate (AS), or atropine methyl bromide (AMB) or atropine methyl nitrate (AMN), both quaternary salts and not expected to act centrally. AChE inhibition in the brain was about 35-60% on the second day after treatment. AS yielded a small transient depression in performance, while AMB and AMN yielded severe deficits, with incomplete recovery. Performance was depressed by 1.3 mg/kg paraoxon by 52% and 34% on days 1 and 2, respectively, while performance was more greatly depressed by the lethal dose, especially with the noncentrally acting antidotes: AS, 67 and 48%; AMB, 81 and 55%; AMN, 91 and 78%. However, a low dose of AS with 2 mg/kg paraoxon resulted in very severe, nonrecovering deficits. A lethal dose of the nonpersistent anti-AChE eserine sulfate, antidoted with a low dose of AS, yielded no deficits. Thus, a high level, acute intoxication with paraoxon yields behavioral deficits which are attenuated by high levels of a centrally acting muscarinic receptor antagonist. The paraoxon-induced performance deficits or their recovery do not correlate directly with AChE inhibition.
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PMID:Short-term effects of paraoxon and atropine on schedule-controlled behavior in rats. 259 81

1. Frog sartorius muscles were treated with an irreversible cholinesterase inhibitor and then incubated in isotonic potassium propionate solution (isotonic KPr). Total and bound, presumably vesicular, acetylcholine (ACh) in the tissue and ACh in the medium were assayed by mass fragmentography, miniature end-plate potentials (MEPPs) were recorded and the end-plates were investigated by electron microscopy. 2. Incubation in isotonic KPr for 30 min stimulated ACh release and concomitantly decreased total and bound ACh. Nerve stimulation for 30 min by trains of impulses (0.1 s trains of 100 Hz, 1 train s-1) in normal-potassium propionate-containing solution had the same effects. 3. When the tissue was incubated in normal-K+ Ringer solution for 3 h, following chemical or electric stimulation, bound ACh recovered to about 75% of the initial value, provided that Cl- ions were present in the medium. In the presence of propionate instead of Cl- ions almost no recovery of bound ACh took place. There was also recovery of bound ACh in the presence of either NO3- or gluconate ions. In NO3- it was the same as in Cl-, but in gluconate it was less than found in Cl- -containing medium. 4. Recovery of total ACh, in contrast to bound ACh, took place even in the presence of propionate ions, showing that extracellular Cl- is not required for the synthesis of ACh. 5. In terminals recovered in normal Ringer solution, many synaptic vesicles were found, but terminals 'recovered' in propionate solution were depleted of vesicles. 6. From these and other results it is concluded that the recycling of synaptic vesicles normally requires the presence of extracellular chloride.
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PMID:The effect of anions on bound acetylcholine in frog sartorius muscle. 278 83

Exposure of C batrachus to 5 ppm lead nitrate for 150 days resulted in the significant elevation of brain histamine and serotonin content, but Gamma aminobutyric acid level showed a decrease. Lead significantly reduced the brain monoamine oxidase and acetylcholinesterase activity. In addition, lead significantly lowered the brain lipid, cholesterol, protein and ascorbic acid contents. These findings suggest that lead significantly impairs the brain neurotransmitter function.
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PMID:Lead nitrate induced changes in the brain constituents of the freshwater fish Clarias batrachus (L). 288 Dec 35

The sexually dimorphic area (SDA) of the gerbil hypothalamus contains cells in which acetylcholinesterase activity is stimulated by testosterone. These cells are probably cholinoceptive. Because cholinoceptive cells and the SDA are both implicated in hormonal control of gerbil scent marking, marking was studied in castrated males given a low dose of testosterone systemically, and atropine, a cholinergic antagonist, near the SDA. Controls received saline near the SDA or atropine in the thalamus. Subjects were also tested for male sexual behavior, since it is also affected by the SDA. Infusing 25-35 micrograms atropine methyl nitrate near the SDA twice a week facilitated marking but did not affect mating. Experimental males marked more, whereas controls marked less, while receiving infusions, than they did before castration. The two control groups did not differ from each other. After infusions stopped, marking by experimental males decreased, though residual effects were detected in one test setting. The data suggest that a cholinoceptive system in or near the SDA participates in hormonal control of gerbil scent marking.
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PMID:Atropine infusions near the sexually dimorphic area of the gerbil hypothalamus facilitate hormonal induction of scent marking. 340 18

Toxic manifestations of acetylcholinesterase inhibitors (AChE-I) include muscle twitching and muscle fiber necrosis, in addition to muscarinic manifestations of acetylcholine excess. The AChE-Is pinacolyl methylphosphonofluoridate (soman) or diisopropylphosphorofluoridate (DFP) were administered to rats to produce spontaneous muscle fiber discharges. Soman produced discharges that arose primarily from the central nervous system (CNS), while those due to DFP were generated from the peripheral nerves as well as the CNS. Three drugs were tested for their potential to reduce muscle fiber discharges: atropine methyl nitrate (AMN), ketamine, and phenytoin. Ketamine caused a significant decrease in discharges of CNS origin, while AMN and phenytoin had no effect. For muscle fiber discharges of peripheral origin, all three drugs produced a significant drop in muscle fiber discharges, but phenytoin showed slightly more efficacy than the others. AChE-I-induced muscle hyperactivity arises from actions on the CNS and on the peripheral nerve in varying proportions for different AChE-Is. Treatment for the toxicity of AChE-Is on muscle may be accomplished by administering drugs with distinctive pharmacological actions at target sites in the CNS and peripheral nervous system (PNS) where AChE-Is exert their effects. By attenuating the effects of AChE-Is at specific CNS or PNS sites, the neuromuscular toxicity can be reduced in a manner specific to the characteristic sites of toxicity of each AChE-I.
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PMID:Effects of phenytoin, ketamine, and atropine methyl nitrate in preventing neuromuscular toxicity of acetylcholinesterase inhibitors soman and diisopropylphosphorofluoridate. 341 30

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