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)

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 characteristics of atropine plasma levels after jet spray injection were compared to those after conventional needle injection (i.m.) in 12 male rats, six per group. Blood samples were sequentially collected from the tip of the tail over a 7h period. Injection of atropine sulfate (8.0 mg kg-1) using the jet spray resulted in mean peak plasma levels of 650 ng ml-1 (95 per cent C.I. = 90) compared to 488 ng mg-1 (95 per cent C.I. = 64) using a conventional needle. Times to reach maximum concentration were 30 min (95 per cent C.I. = 12) and 58 min (95 per cent C.I. = 6) for the jet spray and needle, respectively. Histopathologic examination (5 days post-injection) of target muscle showed that minimal fiber damage resulted from using the low pressure setting on the jet spray. The results suggest that the jet spray may offer a means of increasing the antidotal benefit over that achieved with conventional techniques using presently available therapeutic formulations for acetylcholinesterase poisoning.
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PMID:Intramuscular administration of atropine in the rat: jet spray versus conventional needle injection. 232 7

In an effort to determine the factors which affect cholinergic development after completion of migration of neural crest cells to the colon, the extracellular matrix constituents, fibronectin, collagen IV, laminin, and heparan sulfate were studied during this later postmigration stage of differentiation. Distal colons of the 14 1/2 day embryo rat were incubated in vitro with antibodies to the above constituents or with fibronectin alone. Cholinergic function of the colon was assessed by acetylcholinesterase staining and choline acetyltransferase activity. When 100 micrograms/mL of fibronectin was added to the medium, the choline acetyltransferase activity was enhanced; when antibody to fibronectin (50 or 100 micrograms/mL) was added, acetylcholinesterase staining and choline acetyltransferase activity were inhibited. Addition of anti-laminin, anti-collagen IV, or anti-heparan sulfate did not affect either acetylcholinesterase staining or choline acetyltransferase activity. Fibronectin may be an important factor in cholinergic differentiation of the enteric nervous system during the postmigration stage of development.
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PMID:The effect of fibronectin on cholinergic differentiation of the fetal colon. 241 94

Quantitative azure B-RNA cytophotometry was employed to compare effects of the oximes HI-6 and pralidoxime (2-PAM) to those of atropine sulfate (AS) on neuronal RNA metabolism in the thalamic ventrobasal nuclear complex (VBC) and nucleus reticularis (NR). The ability of these compounds to mitigate soman (pinacolyl methylphosphonofluoridate)-induced neuronal RNA alterations (i.e., VBC-RNA depletion/NR-RNA elevation) in these muscarinic cholinergic sites was also determined. Generally, HI-6 (125 mg/kg, i.p.) and 2-PAM (43.2 mg/kg, i.m.) elicited similar patterns of neuronal RNA changes, i.e., diminution of VBC-RNA and NR-RNA with oximes alone; partial amelioration of soman (1.5 LD50, s.c.)-induced VBC-RNA loss; and slight or no effect on soman induced NR-RNA accumulation. HI-6 produced more severe RNA reduction than 2-PAM in both brain regions of non-poisoned rats, whereas 2-PAM was more effective in reversing the effects of soman in these two regions. The muscarinic antagonist, AS, also produced VBC-RNA depletion and partially counteracted the VBC-RNA loss in soman intoxicated rats. Unlike the oximes, however, AS resulted in NR-RNA accumulation and it also antagonized soman induced NR-RNA elevation. Neither oxime reactivated soman inhibited brain acetylcholinesterase but HI-6 did reactivate appreciable plasma cholinesterase. The overall data suggest that HI-6 and 2-PAM do exert pharmacologic actions on cholinergic neurons in the rat CNS. However, the greater effectiveness of HI-6 over 2-PAM in countering lethal actions of soman does not appear to be correlated with oxime mediated restoration of neuronal RNA levels in these two cholinergic regions.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Effects of HI-6 and pralidoxime on neuronal RNA in thalamic cholinergic sites. 241 57

The present experiments examined whether the rate and type of events maintaining responding help determine physostigmine's behavioral effects. The first two experiments examined the acute and chronic effects of physostigmine, respectively, on lever pressing of rats under variable-interval schedules of food presentation. The third examined the chronic effects of physostigmine on lever pressing under random-interval schedules of shock avoidance. Three different variable intervals (18, 56, and 180 s) and two different random intervals (20 and 60 s) were studied, each associated with a distinctive stimulus. Baseline rates of responding were directly related to the scheduled rate of food delivery or shock avoidance. Acute administration of 0.154-1.233 mumol/kg (0.1-0.8 mg/kg) physostigmine sulfate produced monotonic decreases in overall response rate under all schedules of food presentation. Acute effects (per cent of control response rate) did not differ systematically under the various interval values. Large doses (i.e., 0.4 or 0.8 mg/kg) suppressed the rate of food delivery as well. When initially administered, 0.967 mumol/kg (0.4 mg/kg) physostigmine salicylate also suppressed avoidance response rates and per cent shocks avoided. Tolerance developed to the effects of this dose of physostigmine salicylate on pellet or shock-avoidance frequency more rapidly than to effects on overall response rate. Tolerance to the latter developed only very gradually and could in the case of shock-avoidance response rates be considered partial at best. Tolerance was not affected by the scheduled rate of food or shock presentation. Blood acetylcholinesterase levels showed no recovery during chronic physostigmine. Tolerance is discussed in terms of the reinforcement-loss hypothesis.
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PMID:Tolerance to behavioral effects of physostigmine under interval schedules of positive or negative reinforcement. 249 41

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

Cercariae of S. mansoni shed the surface glycocalyx, form a double lipid bilayer on their surface, and transform to schistosomula when tails are removed and parasites are transferred from pond water to 300 mOsm phosphate-buffered saline. To determine whether the absolute concentration of saline or the relative change in saline concentration was the signal for surface transformation, cercariae were isolated from the snail hepatopancreas, sheared to remove the tails, and incubated in defined media for 3 hr at 37 degrees C. Surface transformation was assayed using the binding of the fluorescein-conjugated lectin concanavalin A to the schistosomular double unit membrane but not to the cercarial glycocalyx. An increase in salinity either from 18 mOsm (artificial pond water) to 120 mOsm (the snail osmolarity) or from 120 to 300 mOsm (the mammalian osmolarity) triggered transformation to schistosomula. Organisms constantly exposed to 120 mOsm or shifted from 120 mOsm to pond water did not transform their surfaces. The signal for transformation appeared to be increasing salinity rather than increasing osmolarity because cercarial bodies did not become schistosomula in 300 mOsm mannitol. Surface transformation was inhibited when cercariae were incubated with the acetylcholinesterase inhibitor eserine sulfate during a 10 min time when the osmolarity was raised. We conclude that increasing salinity rather than the absolute saline concentration is the signal for surface transformation and that eserine sulfate may inhibit the receipt of this signal.
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PMID:Schistosoma mansoni: increasing saline concentration signals cercariae to transform to schistosomula. 273 85

Male Sprague-Dawley rats administered with a sublethal acute dose of carbofuran (1.5 mg/kg, sc) developed the observable toxic signs of anticholinesterase nature within 5-7 min. The toxic signs with increasing propensity to maximal severity including tremors, generalized muscle fasciculations, and convulsions were evident during 15 min to 1 h and lasted for 2 h. Thereafter, signs were seen up to 3 h with reduced intensity. By the end of 3.5 h toxic signs were completely subsided. Maximal acetylcholinesterase (AChE) inactivation occurred at 1 h in discrete brain regions (cortex, stem, striatum, and hippocampus) and hemidiaphragm muscle when most severe signs of toxicity were also evident. A single sc dose of memantine HCl (MEM, 18 mg/kg) and atropine sulfate (ATS, 16 mg/kg) 60 and 15 min, respectively, prior to carbofuran administration completely prevented the expected gross toxic signs and significantly (p less than .01) attenuated the carbofuran-induced inhibition of AChE activity. When given therapeutically, this combined treatment completely reversed the clinical evidence of carbofuran toxicity within 15 min and also markedly reduced AChE inactivation. Memantine or atropine when given alone was less effective compared to their combined administration. The results of this study suggested that, in addition to cholinolytic effects of atropine, memantine may prevent and antagonize the acute toxicity of carbofuran by (a) protection of AChE activity and its rapid reactivation from inhibition and (b) rapid elimination of carbofuran.
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PMID:Prevention and antagonism of acute carbofuran intoxication by memantine and atropine. 277 46

The sensitivity of acetylcholinesterases (AChEs) from Musca domestica and from Drosophila melanogaster to the phosphatidylinositol-specific phospholipase C from Bacillus cereus and to the glycosylphosphatidylinositol-specific phospholipase C from Trypanosoma brucei was investigated. B. cereus phospholipase C solubilizes membrane-bound AChE, and both phospholipases convert amphiphilic AChEs into hydrophilic forms of the enzyme. The lipases uncover an immunological determinant that is found on other glycosylphosphatidylinositol-anchored membrane proteins after the same treatment. This immunological determinant is also present on the native hydrophilic form of AChE. The polypeptide bearing the active site of the membrane-bound enzyme migrates faster during sodium dodecyl sulfate-polyacrylamide gel electrophoresis than the same polypeptide from the soluble enzyme. We conclude that AChE from insect brain is attached to membranes via a glycophospholipid anchor. This anchor is covalently linked to the polypeptide bearing the active esterase site of the enzyme and can be cleaved by an endogenous lipase.
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PMID:Acetylcholinesterases from Musca domestica and Drosophila melanogaster brain are linked to membranes by a glycophospholipid anchor sensitive to an endogenous phospholipase. 283 Dec 98

An enzyme that hydrolyzes soman (1,2,2-trimethylpropyl methylphosphonofluoridate) and two other phosphonofluoridates, but does not hydrolyze DFP (diisopropylphosphorofluoridate), has been partially purified from a rod-shaped spore-forming gram-positive OT (obligate thermophilic) bacterium. The enzyme shows a marked Mn2+ stimulation, and in this and its substrate preference does not resemble the organophosphorus acid anhydrolase (sometimes termed DFPase) found in squid. Like the squid enzyme, it is not inhibited by mipafox (N,N'-diisopropylphosphordiamidofluoridate), is not inactivated by ammonium sulfate, and does hydrolyze the acetylcholinesterase-inhibitory pair of diastereoisomers of soman as well as the relatively noninhibitory pair, thus detoxifying soman. In these three properties the OT enzyme does not resemble the ubiquitous organophosphorus acid anhydrolase often purified from mammalian and bacterial sources by cold ethanol fractionation. Thus this phosphono-specific OT enzyme may have a natural substrate and a physiological role distinct from other organophosphorus acid anhydrolases.
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PMID:Soman-hydrolyzing and -detoxifying properties of an enzyme from a thermophilic bacterium. 285 72


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