Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: EC:3.1.1.8 (cholinesterase)
 12,691 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Male rats were treated for 10 days with the organophosphorus insecticide, acetylcholinesterase inhibitor, O,O-diethyl S-[2-(ethylthio)ethyl] phosphorodithioate (disulfoton, 2 mg/kg/day by gavage). At the end of the treatment, binding of [3H]quinuclidinyl benzilate ( [3H]QNB) to cholinergic muscarinic receptors and cholinesterase (ChE) activity were assayed in the pancreas. Functional activity of pancreatic muscarinic receptor was investigated by determining carbachol-stimulated secretion of alpha-amylase in vitro. ChE activity and [3H]QNB binding were significantly decreased in the pancreas from disulfoton-treated rats. The alteration of [3H]QNB binding was due to a decrease in muscarinic receptor density with no change in the affinity. Basal secretion of amylase from pancreas in vitro was not altered, but carbachol-stimulated secretion was decreased. The effect appeared to be specific since pancreozymin was able to induce the same amylase release from pancreases of control and treated rats. The results suggest that repeated exposures to sublethal doses of an organophosphorus insecticide lead to a biochemical and functional alteration of cholinergic muscarinic receptors in the pancreas.
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PMID:Chronic administration of an organophosphorus insecticide to rats alters cholinergic muscarinic receptors in the pancreas. 660 6

The occurrence of unhydrolyzed acetylcholine (ACh) in the cardiac perfusate during vagal stimulation in the absence of cholinesterase inhibition has been demonstrated by several methods. Because some ACh was found unhydrolyzed in the extracellular space for several seconds after vagal stimulation (half-time of decay 2.5 s), it appears that the prolonged time course of the cardiac responses to bursts of vagal activity is determined by a slow rate of transmitter inactivation (diffusion plus hydrolysis) in addition to slowly operating postsynaptic mechanisms mediated by activation of the muscarinic receptor. The neuronal uptake of choline in isolated heart preparations was found to be Na+ dependent, sensitive to hemicholinium 3, and activated by vagal stimulation. Activation occurred after a delay of 1 or 2 min and slowly faded within 5 min after stimulation. Resting release of ACh was insensitive to extracellular Ca2+ and to muscarinic feedback inhibition, in contrast to the evoked transmitter release. Inasmuch as atropine increased ACh release by vagal and field stimulation to the same extent, muscarinic feedback inhibition is likely to occur at postganglionic parasympathetic neurons. Adrenergic agonists and propranolol did not significantly change the release of ACh.
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PMID:Hydrolysis, synthesis, and release of acetylcholine in the isolated heart. 674 49

The effect of Met-enkephalin on the release of radioactivity (14C) from a myenteric plexus-longitudinal muscle preparation loaded with [14C]choline has been investigated under different conditions, when the muscarinic receptor mediated negative feedback inhibition was operative or when it was completely excluded by atropine. Separation of the [14C]acetylcholine (ACh) and [14C] choline components of the released radioactivity revealed that during 45-min incubation periods about 3.2% of the ACh store became labeled and that during stimulation only the release of [14C]ACh increased above resting level. The fractional release at rest measured in the 5-min collection period was 1.07 +/- 0.09 X 10(-2) in the absence and 1.56 +/- 0.07 X 10(-2) in the presence of physostigmine. Met-enkephalin had no effect on the release of ACh evoked by a 2-Hz stimulation when cholinesterase was inhibited by physostigmine. However, in the presence of atropine or in the absence of cholinesterase inhibition, the release by stimulation was significantly higher and subject to inhibition by Met-enkephalin. The present results indicate that Met-enkephalin is able to reduce ACh release only under those conditions in which the negative feedback modulation is negligible and the release is not yet reduced completely. These findings also suggest that in the myenteric plexus there is no independent population of cholinergic neurons exclusively sensitive to either ACh or to Met-enkephalin; cholinergic varicosities are equipped with at least both types of receptors we studied. When the effect of Met-enkephalin on twitch tension and on the release of radioactivity was studied simultaneously, a positive correlation was found.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Presynaptic inhibitory effect of Met-enkephalin on [14C] acetylcholine release from the myenteric plexus and its interaction with muscarinic negative feedback inhibition. 674 44

In the chick embryo a cholinesterase activity appears in various organ anlagen which has been correlated with morphogenetic movements (Drews 1975). The cholinesterase activity is present in the mesenchyme of the limb bud during aggregation of the central chondrogenic core. In the present study binding of tritium labelled quinuclidinyl benzilate ((3H)QNB), a muscarinic antagonist, to homogenates of chicken limb buds was investigated by a filtration assay. In the homogenate of limb buds at Stage 24 specific binding of (3H)QNB was demonstrated. Determination of binding constants and inhibition of binding by agonists and antagonists was studied at Stage 25/26. Specific binding was defined by the difference in binding in the absence and presence of atropine (1 microM). Specific binding of (3H)QNB reflected a muscarinic receptor. The Kd in two experiments was 0.11 nM and 0.16 nM, the binding capacity was 15.7 fmol (3H)QNB/mg protein and 12.0 fmol (3H)QNB/mg protein, respectively. Data on displacement of specific bound (3H)QNB by various nicotinic and muscarinic ligands confirmed the muscarinic nature of the receptor. Muscarinic ligands inhibited the (3H) QNB binding, whereas nicotinic ligands caused no inhibition at pharmacological concentrations. I conclude that a specific muscarinic acetylcholine receptor is part of the cholinergic system whose presence is indicated by cholinesterase activity in the chondrogenic core of the limb bud during morphogenesis.
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PMID:Muscarinic acetylcholine receptor in chick limb bud during morphogeneis. 722 43

Activities relating to the cholinergic system in post-mortem brain tissue have been examined in relation to ageing and Alzheimer-type pathology. As senile plaque numbers increased in non-demented and demented old people, activities of choline acetyltransferase and acetylcholinesterase decreased, butyrylcholinesterase increased and muscarinic receptor binding remained unchanged. The behaviour of these biochemical activities was further examined in relation to the ageing process in mentally normal people. Loss of choline acetyltransferase also occurred, to a lesser extent, with increasing age and muscarinic binding decreased but there was no age-related loss in acetylcholinesterase. These biochemical findings are discussed in relation to the possible involvement of the cholinergic system in 'normal' ageing and in Alzheimer's disease and are compatible with an extension of age-related nerve terminal changes to abnormalities of cholinergic processes in the disease itself.
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PMID:The cholinergic system in old age and Alzheimer's disease. 736 31

We previously reported similar levels of brain cholinesterase inhibition but marked differences in toxicity following acute maximum tolerated doses of the organophosphate pesticides parathion and chlorpyrifos. Because extensive acetylcholinesterase inhibition often induces compensatory changes in cholinergic receptor populations, we compared the effects of parathion and chlorpyrifos on brain muscarinic receptors. Adult male rats were treated with vehicle or the maximum tolerated dose of parathion (18 mg/kg, sc) or chlorpyrifos (279 mg/kg, sc) and observed for signs of acute toxicity. Similarly treated animals were sacrificed at 2, 7, or 14 days after treatment for measurement of cholinesterase activity and binding to the nonselective muscarinic antagonist [3H]quinuclidinyl benzilate, the M2-preferential antagonist [3H]AFDX-384, and the high-affinity agonist [3H]cis-methyldioxolane. More acute toxicity was noted after parathion treatment. Both insecticides caused similar levels (> 85%) of maximal cholinesterase inhibition and reductions (up to 55%) in atropine-sensitive quinuclidinyl benzilate binding (i.e., total muscarinic receptors) and [3H]AFDX-384 binding in cortex and striatum. Parathion also reduced, whereas chlorpyrifos increased, total muscarinic receptor binding and [3H]AFDX-384 binding in the cerebellum. When tissues were preincubated with paraoxon (10 microM), radiolabeling of a subset of quinuclidinyl benzilate binding sites was blocked and the apparent densities of these organophosphate-sensitive receptors in all three tissues were decreased (16% maximal) by parathion but increased (up to 37%) by chlorpyrifos. Similarly, parathion decreased whereas chlorpyrifos increased [3H]cis-methyldioxolane binding sites in all three brain regions. We propose that differential modulation of these organophosphate-sensitive muscarinic receptors contributes to differences in acute toxicity following exposure to these pesticides.
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PMID:Differential modulation of organophosphate-sensitive muscarinic receptors in rat brain by parathion and chlorpyrifos. 750 14

In previous investigations, we have demonstrated that cholinesterase inhibitors such as physostigmine (PHY) and heptylphysostigmine (HEP) elicit a significant and simultaneous increase in acetylcholine (ACh) and norepinephrine (NE) levels in the rat cortex. This effect is enhanced by idazoxan, a selective alpha-2 antagonist. These data suggest that a combination of cholinergic and adrenergic drug may improve the pharmacological effect of the cholinesterase inhibitor on cortical neurotransmitters such as ACh-NE. In order to obtain additional information on cortical cortical neurotransmitter interaction, we tested, in the cerebral cortex of the rat, the effect of PHY and HEP in animals pretreated with clonidine (CLO), a selective alpha-2 agonist, on ACh, NE, dopamine and 5-hydroxytryptamine) extracellular levels. We detected no effect of systemic or intracortical CLO administration of ACh levels, but NE, dopamine and 5-hydroxytryptamine levels were all decreased. Systemic coadministration of CLO and PHY significantly elevated ACh levels and decreased NE, dopamine and 5-hydroxytryptamine levels. Systemic coadministration of CLO and HEP produced a significant elevation in ACh levels. Comparison between the two treatment combinations shows that, although CLO coadministration reduces the effect of PHY on ACh levels, HEP administered to animals pretreated with CLO produces a stronger effect than HEP alone. A possible explanation for this difference is the variation in duration of the two drugs on ACh elevation and muscarinic receptor desensitization. As a result of the alpha-2 agonist cholinesterase inhibitor coadministration, our data suggest that such a combination does not represent an advantage as a therapeutical alternative for treatment of cognitive impairment in Alzheimer disease patients.
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PMID:Effects of cholinesterase inhibitors and clonidine coadministration on rat cortex neurotransmitters in vivo. 756 54

We examined whether cholinesterase inhibitors (ChEI) could alter the release of amyloid precursor protein (APP) from superfused brain cortical slices of the rat. Three ChEI, both reversible and irreversible, were tested for their ability to enhance the release of nonamyloidogenic soluble derivatives (APPs). These included: physostigmine (PHY), heptyl-physostigmine (HEP) and 2,2-dichloro-vinyldimethyl phosphate (DDVP), at concentrations producing cholinesterase (ChE) inhibition ranging from 5% to 95%. All three ChEI elevated APPs release significantly above control levels. Electrical field stimulation significantly increased the release of APPs within 50 min. Similar increase was observed after muscarinic receptor stimulation with bethanechol (BETHA). Tetrodotoxin (TTX) completely blocked the effect of electrical stimulation. These findings suggest that administration of ChEI to Alzheimer's disease (AD) patients may have a neuroprotective effect by activating normal APP processing.
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PMID:Cholinesterase inhibitors increase secretion of APPs in rat brain cortex. 760 15

The promnesic effects of RU 35,926 (CI-979), a muscarinic receptor agonist, were evaluated on memory impairments induced by the muscarinic antagonist scopolamine, using a radial arm maze task, in comparison with tetrahydroaminoacridine (THA), a cholinesterase inhibitor. Groups of rats were trained in a standard version of the radial maze until they had attained an asymptotic level of performance. The animals were then retested with one trial a day. Twenty minutes before each retest, the rats were given subcutaneous administration of 0.1 mg/kg scopolamine. Oral administration of RU 35,926 (0.02, 0.05, 0.1, 0.2, and 0.5 mg/kg) 30 min before memory retest markedly reduced or suppressed the scopolamine-induced deficit. This reduction was evidenced by a significant decrease in the different types of errors and an increase in the number of correct responses. THA (3 mg/kg, intraperitoneally or orally) given 20 min to testing also significantly reduced or suppressed the scopolamine-induced deficits. These results show that RU 35,926 possesses the capacity to reduce memory impairments induced by a deficit of cholinergic transmission in the rat.
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PMID:Antagonism of scopolamine-induced memory impairments in rats by the muscarinic agonist RU 35,926 (CI-979). 761 21

We studied the effect of intravenous injection of the cholinesterase inhibitor galanthamine (GAL) in doses from 0.025 to 5.0 mg/kg on electrically evoked field potentials in rat visual cortex. In all the experiments the amplitude of late components of evoked potentials was significantly reduced, while early components remained unaffected. These findings indicate that cortical cells are inhibited by acetylcholine (ACh). Furthermore, combined application of a muscarinic receptor blocker (atropine) and GAL reliably suppressed the effects of galanthamine. These observations suggest that ACh-induced inhibition may be mediated by activation of GABAergic interneurones that possess muscarinic receptors.
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PMID:Effect of the cholinesterase-inhibiting substance galanthamine on evoked visual potentials in rats. 766 Aug 64


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