EC:3.1.1.8 - FACTA Search

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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)

This article examines the role of innervation in regulating expression of acetylcholinesterase (AchE), butyrylcholinesterase (BuchE), and the muscarinic acetylcholine receptor (mAchR) in avian heart. Two distinct approaches are taken. The first approach examines the relation between the onsets of parasympathetic and sympathetic innervation and the appearance of AchE and BuchE. All molecular forms of AchE and BuchE are present in early embryonic chick heart well before the onset of parasympathetic and sympathetic innervation. These molecular forms are characterized by sedimentation coefficients of 4.5S, 11S, 15S, and 19S. With further development, the amounts of AchE fall; the reductions in AchE parallel the onset of functional parasympathetic innervation. The amounts of BuchE increase progressively throughout embryonic development, independent of autonomic innervation, and in mature chick heart predominate over the much less abundant amounts of AchE. The 15S and 19S forms of AchE in heart are lost during early embryogenesis but reappear in skeletal muscle during later embryogenesis. The second approach examines the influence of vagotomy and sympathetic denervation of 8-day-old chick myocardium on expression of the molecular forms of AchE, BuchE, mAchR, and beta-adrenergic receptors. The amounts of AchE and BuchE molecular forms in avian heart are not measurably influenced by bilateral vagotomy for a duration of 4 days, unilateral vagotomy for a duration of 25 days, or sympathetic denervation. A measurable upregulation is observed in muscarinic receptors (35-46%) after vagotomy but not sympathectomy and in beta-adrenergic receptors (29%) after sympathectomy but not vagotomy. In all cases, results in atria and ventricles are nearly identical. The present results indicate that expression of AchE in the myocardium is unique and different from that in skeletal muscle and not directly linked with autonomic innervation.
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PMID:Regulation of acetylcholinesterase in avian heart. Studies on ontogeny and the influence of vagotomy. 155 Nov 90

The recovery rate of brain cholinesterase activity (ChE) and muscarinic acetylcholine receptor sites (MAChRs) following a reduction due to a repeated treatment (2 weeks) with the antiChE agent, isofluorophate (diisopropyl fluorophosphate, DFP) was studied in young (3 months) and aged (24 months) male Sprague-Dawley rats. At the end of DFP treatment the inhibition of ChE in the cerebral cortex, hippocampus and striatum did not differ between young and aged rats (about 70%); the down-regulation of MAChRs (without changes in affinity) varied from 20 to 40% for various areas of brains of rats belonging to the two age-groups, and was the most pronounced in the cerebral cortex of aged rats. As assessed by factorial analysis of variance (2 ages x 2 recoveries ANOVA) there were age-related differences in the recovery rate of both ChE and MAChRs during 5 weeks from the end of DFP treatment. The impairment of recovery observed in aged rats was present in three brain areas and was the most pronounced in the cerebral cortex. Choline acetyltransferase (ChAT) was not influenced by the age and/or treatment in the cerebral cortex and hippocampus while in the striatum an age-related decline was observed. The overall data appear of interest in relation to the recent use of antiChE organophosphorus compounds in the therapy of age-related memory disorders.
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PMID:Age-related differences in the recovery rate of brain cholinesterases, choline acetyltransferase and muscarinic acetylcholine receptor sites after a subacute intoxication of rats with the anticholinesterase agent, isofluorophate. 213 Jun 46

Potential age-related differences in the recovery rate of brain cholinesterase activity (ChE) and muscarinic acetylcholine receptor binding sites (mAChRs) following reduction induced by repeated treatment with diisopropyl fluorophosphate (DFP) were evaluated in Sprague-Dawley rats. Male 3- and 24-month old rats were s.c. injected with DFP (doses in mg/kg: first 1.1, two of 0.7 and four of 0.35) on alternate days for 2 weeks and killed 48 hr and 7, 14, 21, 28 and 35 days after the last treatment. In the hippocampus and striatum, but not in the cerebral cortex, of control rats there was a significant age-related decline of ChE activity and maximal density of 3H-QNB binding sites (Bmax). The repeated administration of DFP during the first week caused a syndrome of cholinergic stimulation both in aged and young rats. The syndrome was more pronounced, in terms of intensity and duration (for many hours after each injection), in aged than in young animals resulting in 40 and 12% mortality, respectively; during the second week the syndrome attenuated in the two age-groups. The percentage inhibition of brain ChE at the end of DFP treatment (about 70%) did not differ between young and surviving aged rats. The down-regulation of mAChRs (without changes in affinity) was present in the three brain regions of both young and aged rats (from 20 to 40%). Factorial analysis of variance (2 ages x 2 recoveries ANOVA) showed significant differences for age, recovery rate, and significant interaction between age and recovery rate, both for ChE and mAChRs in the three brain areas. For example, cortical ChE in young rats reached pretreatment levels within 3 weeks, while hippocampal and striatal ChE activity recovered within 4 weeks; at these intervals ChE activity in aged rats was still considerably reduced (except in the striatum). Cortical and striatal mAChRs in young rats almost normalized within 1 week and hippocampal mAChR binding sites normalized within 2 weeks; at these intervals Bmax in aged rats were markedly below control levels. The overall data indicate that the recovery rate to normal baseline levels of ChE activity and mAChRs, following the termination of repeated treatment with the antiChE agent, is impaired in brain of aged rats. The delay in recovery rate is particularly evident in the cerebral cortex.
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PMID:Impaired recovery of brain muscarinic receptor sites following an adaptive down-regulation induced by repeated administration of diisopropyl fluorophosphate in aged rats. 232 3

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

The effects of a subacute intoxication with diisopropyl fluorophosphate (DPF) on total muscarinic acetylcholine receptor sites (mAChRs) and M-1 AChRs were evaluated in the cerebral cortex of young (2-4 months) and aged (22-24 months) Fischer 344 rats. Since M-1 AChRs are coupled to the metabolism of phosphoinositides, carbachol-induced accumulation of inositol phosphates (IP) and its inhibition by glutamate and NMDA was also measured in the cortical slices. DFP treatment caused about 75% inhibition of cholinesterase and 35% down-regulation of mAChRs (measured as [3H]quinuclidinyl benzylate binding) in both young and aged rats. The down-regulation of M-1-ACHRs (measured as [3H]pirenzepine binding) was more pronounced in aged (30%) than in young (17%) DFP-treated rats. There was a significant increase in carbachol-induced IP accumulation in aged, with respect to young, untreated rats. DFP treatment caused a considerable decrease in such IP accumulation in aged but not in young rats. Glutamate and NMDA antagonized carbachol-induced IP accumulation in untreated young and aged rats (and the effects of NMDA were reversed by carboxy-piperazinyl-propyl phosphonic acid). In DFP-treated rats such antagonism was somewhat less pronounced. The data appear of interest in relation to the use of anticholinesterase compounds in the therapy of senile dementia of Alzheimer's type. They suggest that beside their primary action (increasing brain ACh levels) such compounds also act on post-receptor mechanisms and on the interactions between cholinergic and glutamatergic neurotransmitter systems.
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PMID:Carbachol-induced accumulation of inositol phosphates and its modulation by excitatory amino acids in cortical slices of young and aged rats with down-regulation of muscarinic M-1 receptors. 789 49

INTRAHIPPOCAMPAL administration of the muscarinic acetylcholine receptor antagonist scopolamine at a dose of 3.2 micrograms/side significantly increased the number of errors (attempts to pass through two incorrect panels of the three panel-gates at four choice points) in the working memory task with a three-panel runway setup, whereas 0.32 microgram/side scopolamine did not affect working memory errors. The beta-adrenoceptor antagonist propranolol (10 mg/kg, i.p.) had no effect on working memory error, but it produced a significant increase in working memory errors when administered in combination with intrahippocampal scopolamine at the behaviourally ineffective dose (0.32 microgram/side). The increase in working memory errors induced by intrahippocampal administration of 0.32 microgram/side scopolamine to rats treated with 10 mg/kg propranolol was decreased by concurrent injection of the cholinesterase inhibitor physostigmine (3.2 micrograms/side). D-Cycloserine (the partial agonist at the glycine bindings site on the NMDA receptor/channel complex) at a dose of 10 micrograms/side reduced the increase in working memory errors induced by intrahippocampal 0.32 microgram/side scopolamine combined with 10 mg/kg propranolol. These results suggest that neural mechanisms regulated cooperatively by hippocampal muscarinic and beta-adrenergic transmission underlie working memory performance, and that modification of NMDA function contributes to such interactive regulation of working memory processes in the hippocampus.
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PMID:Working memory failure by combined blockade of muscarinic and beta-adrenergic transmission in the rat hippocampus. 918 94

Acute neurotoxic effects of sarin (O:-isopropylmethylphosphonoflouridate) in male Sprague-Dawley rats were studied. The animals were treated with intramuscular (im) injections of either 1 x LD(50) (100 microg/kg), and sacrificed at 0. 5, 1, 3, 6, 15, or 20 h after treatment, or with im injections of either 0.01, 0.1, 0.5, or 1 x LD(50) and sacrificed 15 h after treatment. Plasma butyrylcholinesterase (BChE) and brain regional acetylcholinesterase (AChE) were inhibited (45-55%) by 30 min after the LD(50) dose. BChE in the plasma and AChE in cortex, brainstem, midbrain, and cerebellum remained inhibited for up to 20 h following a single LD(50) treatment. No inhibition in plasma BChE activity was observed 20 h after treatment with doses lower than the LD(50) dose. Midbrain and brainstem seem to be most responsive to sarin treatment at lower doses, as these regions exhibited inhibition (approximately 49% and 10%, respectively) in AChE activity following 0.1 x LD(50) treatment, after 20 h. Choline acetyltransferase (ChAT) activity was increased in cortex, brainstem, and midbrain 6 h after LD(50) treatment, and the elevated enzyme activity persisted up to 20 h after treatment. Cortex ChAT activity was significantly increased following a 0.1 x LD(50) dose, whereas brainstem and midbrain did not show any effect at lower doses. Treatment with an LD(50) dose caused a biphasic response in cortical nicotinic acetylcholine receptor (nAChR) and muscarinic acetylcholine receptor (m2-mAChR) ligand binding, using [(3)H]cytisine and [(3)H]AFDX-384 as ligands for nAChR and mAChR, respectively. Decreases at 1 and 3 h and consistent increases at 6, 15, and 20 h in nAChR and m2-mAChR were observed following a single LD(50) dose. The increase in nAChR ligand binding densities was much more pronounced than in mAChR. These results suggest that a single exposure of sarin, ranging from 0.1 to 1 x LD(50), modulates the cholinergic pathways differently and thereby causes dysregulation in excitatory neurotransmission.
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PMID:Acute sarin exposure causes differential regulation of choline acetyltransferase, acetylcholinesterase, and acetylcholine receptors in the central nervous system of the rat. 1096 17

Subchronic neurotoxic effects of sarin (O-isopropyl methylphosphonofluoridate) treatment at various doses in male Sprague Dawley rats were studied. The animals were treated with a single intramuscular (im) injection of 0.01, 0.1, 0.5, or 1 x LD50 (100 microg/kg). The animals were maintained for 90 d thereafter. [3H]Hexamethonium iodide was used to monitor the changes in blood-brain barrier (BBB) permeability in cortex, brainstem, midbrain, and cerebellum. Brainstem exhibited a significant decrease (approximately 58% of control) in uptake of [3H]hexamethonium iodide at 1 x LD50 dose. No significant changes were observed in BBB permeability in cortex, midbrain, and cerebellum at any dose. Plasma butyrylcholinesterase (BChE) activity remained unchanged, reflecting recovery of the enzyme activity from the initial inhibition following single exposure of 1 x LD50 sarin. Acetylcholinesterase (AChE) activity in the cortex remained inhibited (approximately 29%), whereas in the brainstem there was an increase (approximately 20%) at 1 x LD50 dose of sarin. The m2-selective muscarinic acetylcholine receptor (m2-mAChR) ligand binding was inhibited significantly at 1 x LD50 in the cortex, whereas brainstem showed significantly increased (approximately 45%) ligand binding at 1 x LD50 dose. Nicotinic acetylcholine receptor (nAChR), on the other hand, showed a biphasic response in ligand binding in the cortex with a decrease (approximately 30%) at 0.01 x LD50 but an increase (approximately 40%) at 1 x LD5O. Brainstem did not show any significant change in nAChR ligand binding. These results suggest that single exposure of sarin could lead to changes that may play an important role in neuropathological abnormalities in the central nervous system.
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PMID:Subchronic effects following a single sarin exposure on blood-brain and blood-testes barrier permeability, acetylcholinesterase, and acetylcholine receptors in the central nervous system of rat: a dose-response study. 1113 98

Since their return from Persian Gulf War (PGW), many veterans have complained of symptoms including muscle and joint pain, ataxia, chronic fatigue, headache, and difficulty with concentration. The causes of the symptoms remain unknown. Because these veterans were exposed to a combination of chemicals including pyridostigmine bromide (PB), DEET, and permethrin, we investigated the effects of these agents, alone and in combination, on the sensorimotor behavior and central cholinergic system of rats. Male Sprague-Dawley rats (200-250 gm) were treated with DEET (40 mg/kg, dermal) or permethrin (0.13 mg/kg, dermal), alone and in combination with PB (1.3 mg/kg, oral, last 15 days only), for 45 days. Sensorimotor ability was assessed by a battery of behavioral tests that included beam-walk score, beam-walk time, incline plane performance, and forepaw grip on days 30 and 45 following the treatment. On day 45 the animals were sacrificed, and plasma and CNS cholinesterase, and brain choline acetyl transferase, muscarinic and nicotinic acetylcholine receptors were evaluated. Animals treated with PB, alone or in combination with DEET and permethrin, showed a significant deficit in beam-walk score as well as beam-walk time as compared with controls. Treatment with either DEET or permethrin, alone or in combination with each other, did not have a significant effect on beam-walk score. All chemicals, alone or in combination, resulted in a significant impairment in incline plane testing on days 30 and 45 following treatment. Treatment with PB, DEET, or permethrin alone did not have any inhibitory effect on plasma or brain cholinesterase activities, except that PB alone caused moderate inhibition in midbrain acetylcholinesterase (AChE) activity. Treatment with permethrin alone caused significant increase in cortical and cerebellar AChE activity. A combination of DEET and permethrin or PB and DEET led to significant decrease in AChE activity in brainstem and midbrain and brainstem, respectively. A significant decrease in brainstem AChE activity was observed following combined exposure to PB and permethrin. Coexposure with PB, DEET, and permethrin resulted in significant inhibition in AChE in brainstem and midbrain. No effect was observed on choline acetyl transferase activity in brainstem or cortex, except combined exposure to PB, DEET, and permethrin caused a slight but significant increase in cortical choline acetyltransferase activity. Treatment with PB, DEET, and permethrin alone caused a significant increase in ligand binding for m2 muscarinic acetylcholine receptor (mAChR) in the cortex. Coexposure to PB, DEET, and permethrin did not have any effect over that of PB-induced increase in ligand binding. There was no significant change in ligand binding for nicotinic acetylcholine receptor (nAChR) associated with treatment with the chemical alone; a combination of PB and DEET or coexposure with PB, DEET, and permethrin caused a significant increase in nAChR ligand binding in the cortex. Thus, these results suggest that exposure to physiologically relevant doses of PB, DEET, and permethrin, alone or in combination, leads to neurobehavioral deficits and region-specific alterations in AChE and acetylcholine receptors.
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PMID:Locomotor and sensorimotor performance deficit in rats following exposure to pyridostigmine bromide, DEET, and permethrin, alone and in combination. 1215 49

We hypothesize that a single exposure to an LD(50) dose of sarin induces widespread early neuropathological changes in the adult brain. In this study, we evaluated the early changes in the adult brain after a single exposure to different doses of sarin. Adult male rats were exposed to sarin by a single intramuscular injection at doses of 1, 0.5, 0.1 and 0.01 x LD(50). Twenty-four hours after the treatment, both sarin-treated and vehicle-treated (controls) animals were analyzed for: (i) plasma butyrylcholinesterase (BChE) activity; (ii) brain acetylcholinesterase (AChE) activity, (iii) m2 muscarinic acetylcholine receptor (m2 mAChR) ligand binding; (iv) blood brain barrier (BBB) permeability using [H(3)]hexamethonium iodide uptake assay and immunostaining for endothelial barrier antigen (EBA); and (v) histopathological changes in the brain using H&E staining, and microtubule-associated protein (MAP-2) and glial fibrillary acidic protein immunostaining. In animals treated with 1 x LD(50) sarin, the significant changes include a decreased plasma BChE, a decreased AChE in the cerebrum, brainstem, midbrain and the cerebellum, a decreased m2 mAChR ligand binding in the cerebrum, an increased BBB permeability in the cerebrum, brainstem, midbrain and the cerebellum associated with a decreased EBA expression, a diffuse neuronal cell death and a decreased MAP-2 expression in the cerebral cortex and the hippocampus, and degeneration of Purkinje neurons in the cerebellum. Animals treated with 0.5 x LD(50) sarin however exhibited only a few alterations, which include decreased plasma BChE, an increased BBB permeability in the midbrain and the brain stem but without a decrease in EBA expression, and degeneration of Purkinje neurons in the cerebellum. In contrast, animals treated with 0.1 and 0.01 x LD(50) did not exhibit any of the above changes. However, m2 mAChR ligand binding in the brainstem was increased after exposure to all doses of the sarin.Collectively, the above results indicate that, the early brain damage after acute exposure to sarin is clearly dose-dependent, and that exposure to 1 x LD(50) sarin induces detrimental changes in many regions of the adult rat brain as early as 24 hours after the exposure. The early neuropathological changes observed after a single dose of 1 x LD(50) sarin could lead to a profound long-term neurodegenerative changes in many regions of the brain, and resulting behavioral abnormalities.
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PMID:Acute exposure to sarin increases blood brain barrier permeability and induces neuropathological changes in the rat brain: dose-response relationships. 1215 Jul 92

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