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)

Cross-striated muscles of frogs and rats were fixed in 3.3 per cent lead nitrate solution. Frozen sections 30 micra thick were mounted in different media and observed by polarization microscopy. The subneural apparatus of myoneural junctions exhibits a strong birefringence in these sections. Birefringence is exerted by a highly organized lipoprotein framework (postsynaptic material) which builds up the "organites" (junctional folds) of the postsynaptic membrane. Synaptic cholinesterase is closely associated with this material. Freezing and/or formalin fixation results in a destruction of the molecular organization of the postsynaptic material, but does not influence the synaptic enzyme activity. It is hypothesized from this study that the junctional folds (postsynaptic "organites") consist of regularly arranged, sheet-like lamellar micellae in the frog and of less regular, mainly radially arranged submicroscopic units in the rat. The micellar organization as revealed by polarization analysis is in good agreement with the electron microscopic findings reported in the literature. Intramicellar protein molecules of the resting postsynaptic membrane are arranged longitudinally, lipids transversely. Supramaximal stimulation or treatment with acetylcholine + eserine results in a disorganization of proteins and a rearrangement of lipids. Denervation results in a rearrangement of lipids without any significant alterations of proteins. All these functional stresses influence only the molecular and not the micellar structure of the membrane. The function of the organized lipoprotein framework as an acetylcholine receptor is suggested.
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PMID:Submicroscopic organization of the postsynaptic membrane in the myoneural junction; a polarization optical study. 1402 37

The work is aimed to find out the role of extra- and intracellular Ca2+ in cyclic mechanisms of NO2- and H2O2 metabolism in the stroma cells of endometrium activated by acetylcholine. High activity of Mg2+, Ca(2+)-ATP-ase is characteristic of stroma cells of the endometrium. This activity is tested in the presence of 0.01% of the Triton X-100 (36 +/- +/- 2 mumole Pi/mg of protein for 1 hour). The acetylcholinesterase activity in these systems is equal to 9.8 +/- 0.2 mumole thiocholinebromide/mg of protein for 1 hour. Acetylcholine (10 microM) elevated essentially the concentration of cytosolic Ca2+ in them. It was established, that in the control the suspension of stroma cells produced 1 nmol/NO2-/10(6) of cells, this value being constant for the experimental period of time in the range of 5-60 s. The activation of cells (1 microM acetylcholine + 10 microM Ca2+) results in the appearance of cyclicity (maxima on 5, 15 and 60 s) and 5-fold intensification of NO2- production. The rise of extracellular concentration of Ca2+ up to 0.1-1--10 mM results in essential change of the character of the time dependence of NO2- metabolism and only in inappreciable intensification of the response amplitude. Such a pattern is observed for H2O2: 0.77 mumol H2O2/10(6) of cells in the control, at 10 microM Ca2+ maxima of production on the 5 and 30 s, change of the form of the time response, instead of the amplitude under the increase of concentration of extracellular Ca2+. Preincubation of cells with modifiers endoplasmic reticulum ryanodine, caffeine (1 mM) and heparine (10 mM) results in essential drop of NO2- production and infringement of cyclicity, the effect of ryanodine being more expressed on 5 s, than on 15 s, and heparine--also on 5 s, and on 15 s. Preincubation of cells with methylene blue (10 mM), which inhibits guanilate cyclase, result in considerable intensification of NO2- and H2O2 formation and cyclicity losses. Dynamics of NO2- formation (is controversy) reciprocated with cGMP, whereas nitrosoglutathione production and NO3- tends to saturation in the course of time. Thus, acetylcholine-dependent variations of NO2- and H2O2 concentrations in the suspension of stroma cells depend on the state of extra- and intracellular Ca(2+)-stores, are controlled by cGMP. It may be assumed, that the NO2- production minima are caused by its transfer in NO3- and its binding with glutathione.
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PMID:[Role of extra- and intracellular Ca2+ in changes of NO2- and H2O2 production by endometrium]. 1457 56

Acetylcholine has been detected in human blood. Acetylcholine receptors and acetylcholinesterase are present in erythrocyte membranes. We tested the acetylcholine and choline effects on nitric oxide metabolites (NOx), namely nitrites and nitrates, and observed if they are dependent on interactions with muscarinic receptors and acetylcholinesterase. Human erythrocyte suspensions were incubated with acetylcholine and choline in the absence or presence of 10 microM atropine or 10 microM velnacrine maleate. The nitrite and nitrate concentrations were determined by the Griess method. Acetylcholine or choline increased NOx control concentrations (P <0.001). The nitrite concentrations decreased in the presence of atropine or velnacrine maleate (P <0.03). The nitrate concentrations only decreased when velnacrine maleate was incubated with acetylcholine or choline (10 microM, P <0.03). These results demonstrated that acetylcholine and choline modulate nitric oxide metabolites on erythrocytes and this effect is mediated by interactions with erythrocyte membrane muscarinic receptors and membrane enzyme acetylcholinesterase. A hypothesis for the signal transduction mechanism has been discussed for acetylcholinesterase and muscarinic receptor (M1) participation.
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PMID:Acetylcholine and choline effects on erythrocyte nitrite and nitrate levels. 1555 80

An amperometric enzyme immunosensor for detecting the bacterial antigen Klebsiella pneumoniae has been developed. The biosensing part of this analytical device consists of cholinesterase and antibodies to Klebsiella pneumoniae co-immobilized into the cellulose nitrate membrane. The conditions of immunosensor functioning (ratio of enzyme and antibodies, substrate concentration, pH of working buffer solution) were chosen. The sensor with antibodies in dilution 1:20 demonstrated the best analytical characteristics. Working concentrations were ranged from 1 x 10(-9) to 1 x 10(-3) mg/ml, the detection limit was 5 x 10(-10) mg/ml. The cross-reactivity of used antibodies to antigens of bacteria, causing similar diseases was evaluated. The conditions of immunosensor reuse by regeneration of its biosensing part were chosen. The developed immunosensor was probed on blood sera of patients suffering from urea tract diseases.
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PMID:[Amperometric enzyme immunosensor for determination of Klebsiella pneumoniae antigen]. 1594 56

The purpose of this project was to determine and compare the time-related changes in blood, brain, and tissue acetylcholinesterase (AChE) activity during the first hour after exposure to six organophosphorus nerve agents (GA, GB, GD, GF, VR, and VX) in Hartley guinea pigs. Animals were pretreated with atropine methyl nitrate (1.0mg/kg, i.m.) to minimize peripheral toxic effects 15 min before they were given a 1.0 x LD50 subcutaneous dose of a nerve agent. At 0, 5, 10, 15, 30, and 60 min after nerve agent, animals were humanely euthanized. Blood was collected and brain regions (brainstem, cortex, hippocampus, midbrain, cerebellum, striatum, and spinal cord) and peripheral tissues (diaphragm, skeletal muscle, and heart) were dissected and processed for AChE activity. All six nerve agents produced maximum inhibition of AChE in red blood cells between 5 and 10% of the control within 10 min after exposure. In whole blood, differential effects were observed among the agents: GB, GD, and GF produced more rapid and greater inhibition than did GA, VR, and VX. GF was the most rapid, producing a maximum inhibition to 5% of the control in 5 min, while VR and VX were slower reaching maximum inhibition to 30% of the control at 15 min. The enzyme activity in the majority of the brain regions was more markedly inhibited by the G-agents than by the V-agents. The G-agents caused rapid AChE inhibition, reaching maximum levels (20-30% of control) at 15 min and GA produced the most rapid effects. V-agents produced much slower and less AChE inhibition, reaching maximum (35-60% of control) at 30 min. In the diaphragm, VR, VX, and GD produced more rapid and greater AChE inhibition than other G-agents; GA produced the slowest and least inhibition. In the skeletal muscle, VX induced the most rapid and severe inhibition, while GA the least inhibition. In the heart, all agents produced very rapid inhibition, and GD produced the most severe inhibition of AChE activity. These observations suggest that G-agents and V-agents are tissue compartment specific in their ability to inhibit AChE activity.
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PMID:In vivo cholinesterase inhibitory specificity of organophosphorus nerve agents. 1625 93

Recent animal studies have shown that uranium can reach the brain after chronic exposure. However, little information is available on the neurological effects of chronic long-term exposure to uranium. In the present study, the effects during 1.5, 6 and 9-month periods of chronic ingestion of uranyl nitrate (UN) in drinking water (40 mg of uranium per litre) on cholinergic acetylcholinesterase (AChE) activity and on dopaminergic and serotoninergic metabolisms were investigated in several areas of male Srague Dawley rat brains. Uranium brain accumulation and distribution was also investigated after 1.5 and 9 months. Both after 1.5, 6 and 9 months of exposure, AChE activity was unaffected in the striatum, hippocampus and frontal cortex. Nevertheless, AChE activity was transitionally perturbed in the cerebellum after 6 months of exposure. After 1.5 months of exposure, DA level increased in hypothalamus. After 6 months of exposure, a tiny but significant modification of the DAergic turnover ratio was detected in the frontal cortex. And after 9 months, UN produced a significant decrease in the 5HIAA level and the 5HTergic turn-over ratio in the frontal cortex and also a decrease in the DOPAC level and DAergic turn-over ratio in the striatum. Uranium brain accumulation was statistically significant in striatum after 1.5 months and in striatum, hippocampus and frontal cortex after 9 months of exposure. Although neurochemical changes did not always correlated with increased accumulation of uranium in specific areas, these results suggest that chronic ingestion of UN can cause chronic and progressive perturbations of physiological level of neurotransmitter systems. Considering previous reports on behavioural uranium-induced effects and the involvement of neurotransmitters in various behavioural processes, it would be crucial to determine whether these neurochemical disorders were accompanied by neurobehavioral deficits even at 40 mg of uranium per litre exposure.
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PMID:Chronic ingestion of uranyl nitrate perturbs acetylcholinesterase activity and monoamine metabolism in male rat brain. 1632 13

The role of neurally born acetylcholine in the central modulation of cardiovascular short-term variability was assessed using a pharmacological probe physostigmine, a cholinesterase inhibitor that can act centrally also. Experiments were performed in instrumented conscious rats. Equidistant sampling at 20 Hz of systolic arterial pressure (SAP), diastolic arterial pressure (DAP) and heart rate (HR) allowed direct spectral analysis. Spectra were analysed in the whole, very-low frequency (VLF), low-frequency (LF) and high-frequency (HF) domains. Physostigmine, but not neostigmine, increased SAP, LF SAP and HF SAP variability while neostigmine, but not physostigmine, decreased HR without affecting HR variability. Atropine methyl nitrate prevented neostigmine-induced bradycardia and potentiated the effects of physostigmine on DAP, LF DAP and HF DAP variability. Atropine sulphate, hexamethonium, phentolamine and metoprolol inhibited physostigmine-induced increase of SAP and LF SAP. Pre-treatment of rats by quinapril prevented physostigmine-induced increase of SAP, but not of LF SAP, while the V(1a) antagonist prevented the increase of HF SAP. The results suggest that central cholinergic neurons facilitate but do not create LF SAP and HF SAP variability. The effect of physostigmine on LF SAP seems to be mediated via central muscarinic sites and the peripheral sympathetic system, while non-muscarinic central sites and vasopressin pathways subserve the increase of HF SAP.
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PMID:Central cholinergic modulation of blood pressure short-term variability. 1648 50

Many conditions adversely affecting learning, memory, and cognition are associated with reductions in forebrain acetylcholine (ACh), most notably aging and Alzheimer's disease. In the current study, we demonstrate that bilateral depletion of neocortical and hippocampal ACh in rats produces deficits in a spatial learning task and in a recently described, delayed visual matching-to-sample task. Oral administration of the novel nitrate, GT1061 (4-methyl-5-(2-nitroxyethyl) thiazole HCl), and the acetylcholinesterase inhibitor, donepezil, reversed the cognitive deficits in both memory tasks in a dose-dependent manner. GT1061 was superior in the delayed matching-to-sample task. GT1061 was absorbed rapidly after oral administration, crossed the blood brain barrier, and achieved brain concentrations that were slightly higher than those found in plasma. The activity of GT1061 was NO mimetic: soluble guanylyl cyclase (sGC) was activated, but selectivity was observed for sGC in the hippocampus relative to the vasculature; and hippocampal levels of phosphorylated ERK1/2, which is a postulated intermediary in the formation of long-term memory, were increased. The beneficial effect on visual and spatial memory task performance supports the concept that stimulating the NO/sGC/cGMP signal transduction system can provide new, effective treatments for cognitive disorders. This approach may be superior to that of current drugs that attempt only to salvage the residual function of damaged cholinergic neurons.
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PMID:Cognitive deficits in rats after forebrain cholinergic depletion are reversed by a novel NO mimetic nitrate ester. 1652 16

Coronary artery ectasia (CAE) is well-recognized, angiographic finding of abnormal coronary dilatation, and detected in 0.3-5.3% of angiographic studies. The gold standard for diagnosis this type of aneurysm is coronary angiography, which provides information about the size, sample, location and number of aneurysms. Despite growing prevalence in recent years, controversy still exists as to the pathogenetic mechanisms that underlie this entity. An increased incidence of CAE has been reported in several disorders. Examples include atherosclerotic vascular disease, heterozygous familial hypercholesterolemia, usage of substances including herbicide spray, acetylcholinesterase inhibitors and nitrates, previous arterial balloon angioplasty, polyarteritis nodosa and Kawasaki syndrome. In addition, possible factors contributing to CAE are imbalance between matrix metalloproteinase and tissue inhibitor of metalloproteinase, angiotensin converting enzyme genotype, elevated homocysteine levels, cocaine user, smoking, vascular trauma, nitrate use and diabetes. Emerging investigations have pinpointed inflammation as a central process in all stages of atherosclerosis. This inflammatory process culminates in acute thrombotic complications and clinical events, which is involved in different clinical settings of atherosclerotic diseases. Recent data have also showed that CAE is associated with inflammatory response presented as elevated inflammatory cytokines and C-reactive protein. Accordingly, more complete understanding of the pro- and anti-inflammatory circuits that operate during CAE in particular may foster the development of novel therapeutic approaches.
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PMID:Is any link between inflammation and coronary artery ectasia? 1722 19

Apart from analyses for elemental contaminants in field collected specimens, very little is known about the assimilation, accumulation and toxic effects of inorganic contaminants in reptiles. This study examined the chronic accumulation of Cd in a European lacertid lizard (Podarcis carbonelli) following dietary provision of an environmentally realistic concentration of Cd for 21 weeks. Lizards were provided with Cd that had either been biologically incorporated into crickets, or as Cd(NO3)2 added superficially to crickets just prior to feeding. Among both treatment groups Cd accumulated in tissues in the following order of concentration: gut>liver>kidney>carcass. The majority of the Cd was retained within the gut, and transfer to internal organs was low. Morphological indices, brain and plasma cholinesterase activities, gut and liver metallothionein content, and standard metabolic rate were measured as biomarkers of exposure and effect; however, no differences between control lizards and Cd-treated lizards were observed.
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PMID:Bioaccumulation of Cd by a European lacertid lizard after chronic exposure to Cd-contaminated food. 1746 2

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