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)

Asymmetric acetylcholinesterase (AChE) forms were associated with pre-natal but not post-natal ventricular myocytes, when myocytes were cultured in a defined medium on laminin-coated plates for 72 h. In contrast, globular AChE molecular forms were associated with both pre-natal and post-natal myocytes. Glycyl-L-glutamine (10(-4) or 109-6) M), but not glycyl-D-glutamine or glycyl-L-glutamate, induced the expression of asymmetric AChE molecular forms by the cultured post-natal myocytes. Neither of the three dipeptides altered the specific activity of cell-associated AChE in the cultured post-natal ventricular myocytes. Tetrameric globular (G4) AChE was the main AChE form secreted by cultured pre-natal and post-natal cardiac myocytes. The secretion rate of AChE from post-natal myocytes was not affected by the addition of glycyl-L-glutamine. These results suggest that glycyl-L-glutamine has a trophic effect on at least one of the components of the post-synaptic cholinergic system in developing rat heart.
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PMID:Glycyl-L-glutamine regulates the expression of asymmetric acetylcholinesterase molecular forms in cultured cardiac post-natal myocytes. 828 74

The acetylcholinesterase inhibitor tetrahydroaminoacridine (THA) is known to interact with neurotransmitter systems other than the cholinergic, e.g. several studies have shown interaction of THA with the N-methyl-D-aspartate (NMDA) receptor subtype of the glutamatergic system. We therefore investigated whether behavioral changes in rats, caused by the non-competitive NMDA-antagonist dizocilpine, were altered by THA. Spontaneous locomotion was measured in an open field and learning behaviour was evaluated in a spatial learning task in the 8-arm radial maze. Hyperactivity in the open field caused by 0.08 mg/kg i.p. dizocilpine was reversed by 5 mg/kg i.p. THA. Hyperactivity caused by 0.16 mg/kg i.p. dizocilpine was reversed by two THA doses (2.5 mg/kg, 5 mg/kg i.p.). A dizocilpine-induced acquisition deficit in the 8-arm radial maze was attenuated by THA (2.5 mg/kg) on the 6th and 7th day of testing. The effects of THA are discussed with reference to a possible functional glutamate agonism.
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PMID:Tetrahydroaminoacridine attenuates dizocilpine-induced behavioural changes. 846 56

To study the effect of reduced cortical cholinergic activity on GABAergic and glutamatergic mechanisms in cholinoceptive cortical target regions a novel cholinergic immunotoxin (conjugate of the monoclonal antibody 192IgG against the low-affinity nerve growth factor receptor with the cytotoxic protein saporin) was applied, which specifically and selectively destroys cholinergic cells in rat basal forebrain nuclei. To correlate the responses to cholinergic immunolesion in cholinoceptive cortical target regions with cholinergic hypoactivity, quantitative receptor autoradiography to measure NMDA, AMPA and kainate glutamate receptor subtypes, GABAA and benzodiazepine receptors as well as choline uptake sites, and histochemistry to estimate acetylcholinesterase activity were performed in adjacent brain sections. One week after a single intraventricular injection of 4 micrograms of 192IgG-saporin, NMDA receptor binding was markedly reduced in cortical regions displaying a reduced activity of acetylcholinesterase and high-affinity choline uptake sites as a consequence of cholinergic lesion, whereas AMPA and kainate binding sites were significantly increased in these regions. Muscimol binding to GABAA receptors was increased in the caudal portions of frontal and parietal cortices as well as occipital and temporal cortex as compared to the corresponding brain regions from vehicle-injected control rats. Binding levels of benzodiazepine receptors were not affected by the lesion in any of the cortical regions studied. The differential changes in glutamate and GABA receptor subtypes following cholinergic immunolesion might be regarded as the consequence of a cortical reorganization compensating for the reduced cholinergic presynaptic input. The data further suggest that presynaptic cortical cholinergic deficits might affect both glutamatergic and GABAergic functions with different intensity and different directions.
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PMID:192IgG-saporin-induced immunotoxic lesions of cholinergic basal forebrain system differentially affect glutamatergic and GABAergic markers in cortical rat brain regions. 857 66

As deduced from cDNA clones, the catalytic domain of Bungarus fasciatus venom acetylcholinesterase (AChE) is highly homologous to those of other AChEs. It is, however, associated with a short hydrophilic carboxyl-terminal region, containing no cysteine, that bears no resemblance to the alternative COOH-terminal peptides of the GPI-anchored molecules (H) or of other homomeric or heteromeric tailed molecules (T). Expression of complete and truncated AChE in COS cells showed that active hydrophilic monomers are produced and secreted in all cases, and that cleavage of a very basic 8-residue carboxyl-terminal fragment occurs upon secretion. The COS cells produced Bungarus AChE about 30 times more efficiently than an equivalent secreted monomeric rat AChE. The recombinant Bungarus AChE, like the natural venom enzyme, showed a distinctive ladder pattern in nondenaturing electrophoresis, probably reflecting a variation in the number of sialic acids. By mutagenesis, we showed that two differences (methionine instead of tyrosine at position 70; lysine instead of aspartate or glutamate at position 285) explain the low sensitivity of Bungarus AChE to peripheral site inhibitors, compared to the Torpedo or mammalian AChEs. These results illustrate the importance of both the aromatic and the charged residues, and the fact that peripheral site ligands (propidium, gallamine, D-tubocurarine, and fasciculin 2) interact with diverse subsets of residues.
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PMID:Cloning and expression of acetylcholinesterase from Bungarus fasciatus venom. A new type of cooh-terminal domain; involvement of a positively charged residue in the peripheral site. 866 67

Controlled exposure to retinoic acid (RA) induces the murine embryonal carcinoma cell line P19S18O1A1 (P19) to differentiate into a variety of cell types. One of the cell types exhibits neuronal-like morphology and expresses neuronal markers including neurofilament proteins, glutamate receptors, and the cholinergic enzymes choline acetyl-transferase and acetylcholinesterase. In this study we use Northern blot analysis, double-label immunocytochemistry, and single cell RNA analysis using polymerase chain reaction to show that RA-treated P19 cells with neuronal-like morphology also express neuronal nicotinic acetylcholine receptor (nAChR) subunits alpha 3, alpha 4, and beta 2. Greater than 80% of RA-treated P19 cells with a neuronal-like phenotype express nAChR alpha 4 subunit transcripts and both alpha 4 and beta 2 protein. The RA-induced expression of alpha 3 transcripts accounts for a comparably small number of nAChR-containing cells (< 20%) of which half coexpress alpha 4 transcripts. Expression of high-levels of alpha 4 RNA is dependent upon both cell-cell contact and RA exposure. The appearance of nAChR subunits also coincides with RA-induced expression of high affinity [3H]-nicotine binding receptors. The P19 cell line offers an inducible neuronal cell system to study mammalian neuronal nicotinic receptor expression and the development of high affinity nicotinic binding sites similar to those expressed in the mammalian central nervous system.
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PMID:Nicotinic receptor subunits alpha 3, alpha 4, and beta 2 and high affinity nicotine binding sites are expressed by P19 embryonal cells. 873 58

Paraoxon (O,O-diethyl O-p-nitrophenyl phosphate) is the neurotoxic metabolite of the insecticide parathion (O,O-diethyl O-p-nitrophenyl phosphorothioate). The effects of organophosphorus compounds on peripheral synapses have been attributed to inhibition of cholinesterase and to direct actions on muscarinic and nicotinic receptors, but less is known about the actions of organophosphorus compounds, including paraoxon, in the central nervous system. We investigated initially the effects of paraoxon on spontaneous transmitter release by recording miniature postsynaptic currents (MPSCs) from cultured rat hippocampal neurons using the whole-cell mode of the patch-clamp technique. Paraoxon (0.3 microM) in the presence of tetrodotoxin (0.3 microM) and atropine (1 microM) caused a significant increase in the frequency of gamma-aminobutyric acid- and glutamate-mediated MPSCs, but did not change the peak amplitudes or decay-time constants of these MPSCs. In contrast, application of nicotinic agonists or antagonists did not change the MPSC frequency. The presynaptic effect of paraoxon shown here was not mediated by actions on muscarinic or nicotinic receptors, or by elevated acetylcholine levels secondary to inhibition of cholinesterase. In addition, agonists were applied to assess the postsynaptic effects of paraoxon on excitatory and inhibitory amino acid receptors. Paraoxon (30 microM-1 mM) blocked the ion channels of glycine, gamma-aminobutyric acidA, N-methyl-D-aspartic acid and nicotinic acetylcholine receptors, but not the ion channels of kalnate- and alpha-amino-3-hydroxy-5-methyl-4-isoxazolepropionic acid-type glutamate receptors. The combined effects of paraoxon on spontaneous transmitter release and on the functions of several ligand-gated receptors may constitute mechanisms relevant to the neurotoxicity of paraoxon.
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PMID:Paraoxon: cholinesterase-independent stimulation of transmitter release and selective block of ligand-gated ion channels in cultured hippocampal neurons. 881

Glutamate elicits several different responses on neurons of isolated ganglia of Aplysia, the most common of which is a hyperpolarization due to conductance increases to either chloride or potassium. We have investigated the actions of aspartate and cysteate on the responses to glutamate. Neither aspartate nor cysteate is potent in activation of glutamate receptors. However both aspartate and cysteate cause a dramatic increase in the response to glutamate when ionophoretically applied before the glutamate application. This potentiating effect of aspartate and cysteate is a result of competition with glutamate for the glutamate transport system, since the potentiation is blocked by cooling and by perfusion with sodium-free sea water. Blockade of glutamate re-uptake by perfusion of sodium-free sea water also causes a significant increase in the response to ionophoretically applied glutamate, which in some neurons may be very large. These results demonstrate that the glutamate reuptake system has an important role in regulation of the responses to glutamate which is similar to that of acetylcholinesterase in regulation of responses to acetylcholine. These observations may be of particular importance in mammalian systems where excess glutamate is associated with neuronal excitotoxicity and cell death.
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PMID:The role of glutamate reuptake in regulation of glutamate responses in Aplysia neurons. 885 7

To study the mechanisms by which glutamate-elicited acetylcholinesterase release (GEAR) might play a part in the pathogenesis of excitotoxically triggered motor neurone disease, and to investigate the interaction of GEAR with spinal glycinergic mechanisms, we measured acetylcholinesterase (AChE) and cholinergic markers, after stimulating ventral horn slices and synaptosomes from the mouse spinal cord, with both glutamate- and glycine-receptor agonists. Glutamate (GLU), kainate and AMPA, as well as glycine (GLY) evoked dose-related, calcium-dependent liberation of soluble forms of AChE from both slices and synaptosomes. GLY-evoked AChE release showed remarkable age-related postnatal changes. In the immature slice of the ventral horn. GLY potentiated the GEAR response in the presence of strychnine, suggesting N-methyl-D-aspartate (NMDA) receptor involvement, and was also able to evoke a strychnine-sensitive AChE release in the absence of exogenous GLU. After the 28th postnatal day, nearly all the AChE secreted was released either after the activation of non-NMDA glutamate receptors or by strychnine-sensitive GLY-evoked AChE release mechanisms. Both GEAR and GLY-evoked AChE release might impair the negative feedback loop which modulates the overactivation of motor neurones, and cause prolonged extracellular rises of soluble AChE. These effects might augment the vulnerability of motor neurones to excitotoxic stress, promote fiber outgrowth, and eventually accelerate the metabolic exhaustion of lower motor neurones. It is possible that the mechanisms described are operative at the spinal cord of ALS/MND patients.
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PMID:Glycine effects on glutamate-receptor elicited acetylcholinesterase release from slices and synaptosomes of the spinal ventral horn. 889 63

We examined the effect of the glutamate uptake inhibitor L-trans-pyrrolidine-2,4-dicarboxylic acid (PDC) on the neurotoxicity of L-glutamate in organotypic cultures of rat spinal cord. Eighteen-day-old cultures were incubated with 500 microM L-glutamate, 1 mM PDC, or both. After 72 hours, the tissues were stained for acetylcholinesterase (AChE), and the ventral horn AChE-positive neurons (VHANs) analyzed using morphometry. Neither L-glutamate nor PDC affected AChE staining, but in combination they produced markedly reduced AChE staining in the dorsal horn and a significant decrease in the number of VHANs (especially the smaller VHANs) as compared with the control. Moreover, treatment with 200 microM PDC for 2 weeks preferentially affected the smaller VHANs. The neurotoxicity of L-glutamate plus PDC was blocked by the N-methyl-D-aspartate (NMDA) antagonist 3-((RS)-2-carboxypiperazin-4-yl)-propyl-1-phosphonic acid (CPP). Results suggest that glutamate uptake system has an important protective function in the aggravation of acute neuronal damage.
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PMID:Acute neurotoxicity of L-glutamate induced by impairment of the glutamate uptake system. 892 81

The preventative effects of bifemelane (4-(o-benzylphenoxy)-N-methylbutylamine hydrochloride) on atherosclerosis in aged rats fed low-calcium diets were investigated. Male 18-month-old Wistar rats were maintained for 90 days on the following: (A) standard diet (n = 7), (B) low calcium, low magnesium, high aluminium diet (n = 8), (C) standard diet plus oral intubation with 10 mg bifemelane/kg daily (n = 6), (D) low calcium and magnesium, high aluminium diet plus oral intubation with 10 mg bifemelane/kg daily (n = 6). All groups were give these diets and water ad lib for 90 days, after which blood samples were taken from the abdominal aorta and samples of aorta were examined for atherosclerotic changes. The serum concentrations of the following were determined: calcium, magnesium, zinc, aluminium, inorganic phosphorus, cholesterol, glutamate-oxaloacetate transaminase, glutamate-pyruvate transaminase, lactate dehydrogenase, cholinesterase, creatine phosphokinase, blood urea nitrogen and N-terminal parathyroid hormone. The only significant differences between the groups in serum chemistry were reduced concentrations of cholinesterase and magnesium in groups B and D, increased aluminium in group B, and increased N-terminal parathyroid hormone in groups B and D. In groups C and D the atherosclerosis was much improved compared with that in groups A and B. It appears that bifemelane largely prevents atherosclerosis caused by calcium deposition in the arteries of rats fed low-calcium diets, due to its effect in maintaining magnesium and calcium in bones.
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PMID:Effects of bifemelane hydrochloride on atherosclerosis in aged rats fed low-calcium diets. 895 29


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