EC:3.1.1.7 - FACTA Search

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)

As part of a study on the mechanisms underlying behavioral tolerance to cholinesterase-inhibiting organophosphates (OP's) the present investigation was focussed on behavioral procedures affecting the development of tolerance. The effects of chronic administration of the OP's DFP (600 micrograms/kg SC) and soman (60 micrograms/kg SC) were compared in rats. These doses do not cause detectable effects upon close observation of the animals. As was found before, behavioral tolerance developed following DFP, but not following soman. Repeated behavioral testing affected the development of tolerance. Cross-tolerance between these two inhibitors was not found. Surprisingly, when DFP was administered 48 hr after soman, all animals were observationally normal, and when soman was given 48 hr after DFP the majority of the animals died. This indicates that the sequence in which these inhibitors were administered was of major importance. It is concluded that practice-related and/or state-dependent factors are important for the development of behavioral tolerance and that one should be careful in making generalizing statements about tolerance to cholinesterase-inhibiting OP's.
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PMID:On the development of behavioral tolerance to organophosphates. III: Behavioral aspects. 233 48

Tetrahydroaminoacridine (THA; Tacrine) is a potent, non-competitive inhibitor of the neuronal enzyme acetylcholinesterase (AChE) and, consequently, a potent modulator of central cholinergic function. The compound reportedly improves the memory deficits of Alzheimer's dementia. Experiments were run with purified bovine caudate AChE to examine the kinetic properties of THA-AChE interaction within the scheme of multiple binding sites on the enzyme and a proposed "map" of the enzyme surface. The kinetic analyses were also designed to determine whether chemical modification of peripheral anionic sites on AChE may provide insight into mechanism for selective pharmacological alteration of cholinergic function in the brain. The studies demonstrated that THA is a reversible, non-competitive inhibitor with an I50 of 160 +/- 10 nM. THA bound primarily at a hydrophobic area outside of the catalytic sites, and binding of THA enhanced the effect of Ca2+ binding to a separate group of "accelerator" sites. Experiments with Al3+ demonstrated non-competitive inhibitor effects that were additive with THA inhibition and consistent with a model suggesting interaction of THA and Al3+ at the enzyme surface. In vitro enzyme inhibition studies also provide evidence for THA "protection" of the catalytic site against inhibition by the high-affinity phosphorylating agent, DFP (isoflurophate).
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PMID:Pharmacological significance of acetylcholinesterase inhibition by tetrahydroaminoacridine. 239 Jan 4

Utilizing a variation of the Fink-Heimer method, we examined the extent and location of axonal and terminal degeneration within the chicken cervical spinal cord, brainstem and cerebellum resulting from a single subcutaneous dose of bis(1-methylethyl)phosphorofluoridate (DFP). The effects of DFP on the activities of whole-brain neuropathy target esterase (NTE) and cholinesterase (ChE) were also assessed as were the development and severity of clinical signs characteristic of organophosphorus-induced delayed neuropathy (OPIDN). Both whole brain NTE and ChE activities were maximally inhibited during the first 24 h post-exposure, showing gradual recovery over a period of 3 weeks. OPIDN clinical signs were not observed at 7 days post-DFP but progressed to severe ataxia by day 14 and paralysis by day 21. There was a relative absence of degeneration at 7 days, a dramatic increase in degeneration density at 14 days, and high density degeneration at both 21 and 28 days. Cervical spinal and medullary tracts containing axonal degeneration included the fasciculus gracilis, dorsal and ventral spinocerebellar tracts, spinal lemniscus, and the intramedullary portions of the glossopharyngeal and vagus nerves. Brainstem nuclei containing terminal degeneration included the lateral cervical, gracile-cuneate, external cuneate, and inferior olivary nuclei, the nucleus tractus solitarius, and the lateral and paragigantocellular lateral reticular nuclei. Mossy fiber degeneration was also present in cerebellar folia I-Vb. These results show that exposure to DFP causes axonal and terminal degeneration in ascending spinal tracts, brainstem nuclei and cerebellar folia associated with the transmission of somatic and visceral sensory information.
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PMID:Selective axonal and terminal degeneration in the chicken brainstem and cerebellum following exposure to bis(1-methylethyl)phosphorofluoridate (DFP). 239 6

Rats made tolerant to morphine show neither a change in brain opiate receptor number nor altered sensitivity to the inhibitory effect of opiates on striatal adenylate cyclase (AC) activity. Interestingly, SCH 23390, a selective blocker of D1 dopamine (DA) receptors which, given chronically to rats, induces a 32% increase in D1 receptor number and increases the Vmax of D1-stimulated striatal AC, resulted in marked resistance to acute morphine effects. In particular, rats chronically treated with SCH 23390 failed to show muscular rigidity and increased striatal dihydroxyphenylacetic acid (DOPAC) concentration after morphine. Moreover, basal striatal AC activity in these animals had a significantly reduced sensitivity to opiate inhibition. On the other hand, decreased AC sensitivity to acetylcholine (ACh) inhibition observed in the striatum of rats chronically treated with DFP, an irreversible blocker of acetylcholinesterase, appeared to be secondary to the downregulation of muscarinic receptors and thus did not modify the opiate inhibitory capacity. It was concluded that although a potentiation of striatal AC impairs opiate action, such mechanism is not involved in morphine tolerance.
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PMID:Resistance to extrapyramidal effects of opiates in rats chronically treated with SCH 23390. 253 Dec 33

Neurotoxicity of diisopropyl phosphorofluoridate (DFP) was examined at 85 weeks of age in hens of two lines selected for high (HA) and low (LA) antibody response to sheep erythrocytes. DFP was administered by subcutaneous injection in doses of 0.25, 0.50 and 1.00 mg/kg and hens were observed for cholinergic signs at 30 min and for delayed neuropathy 8 to 14 days post-administration. Toxicity to DFP increased in severity with the dose and genetic differences were present because hens of line HA were more sensitive to DFP than were those of line LA. HA hens also had lower A-esterase activities and higher heterophil-to-lymphocyte ratios. No line x treatment interaction was evident, however, for activities of neurotoxic esterase or brain cholinesterase measured 24 hr after DFP administration.
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PMID:Differences in response of chickens from two genetic lines to diisopropyl phosphorofluoridate. 254 74

The effect of chronic treatment with anethole trithione (ANTT) on the phosphatidylinositol (PI) turnover and cyclic (c)AMP and cGMP accumulation in rat submaxillary glands (SMG) has been compared with the effect of chronic treatment with atropine and a cholinesterase inhibitor, diisopropylfluorophosphate (dyflos, DFP). Experiments were performed 24, 48 and 24 h after the last dose of ANTT, atropine and dyflos, respectively. ANTT and atropine enhanced carbachol-stimulated [32P] incorporation into phosphatidic acid in the SMG slices, while dyflos showed no effect. Pilocarpine-stimulated in-vivo incorporation of [3H]myoinositol into inositol phosphates was significantly enhanced by ANTT, but not by atropine or by dyflos. Phospholipase C-dependent hydrolysis of phosphatidylinositol 4,5-bisphosphate was significantly enhanced by ANTT and atropine, but not by dyflos. Pilocarpine-stimulated in-vivo accumulation of cAMP and cGMP was enhanced by ANTT and atropine, but dyflos reduced cAMP accumulation without affecting cGMP accumulation. The enhancement of PI turnover and cyclic nucleotide accumulation seems to contribute to the development of supersensitivity of the salivary gland caused by chronic treatment with ANTT and atropine, while reduction of cAMP accumulation may be responsible for the subsensitivity caused by dyflos.
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PMID:Enhancement of phosphatidylinositol turnover and cyclic nucleotide accumulation by chronic anethole trithione treatment in rat submaxillary glands. 256 64

The peptidasic site of highly purified human plasma cholinesterase was investigated using active-site-directed inhibitors. Peptidase activity was assayed taking substance P as substrate. Inhibition by organophosphates indicated that the peptidasic site contained an active serine. The presence of essential histidine residues associated with serine was revealed by histidine modifications. Carboxyl group reagents showed that the active centre contained carboxyl groups in a non-polar environment. The removal of sialic acids did not alter peptidase activity. The peptidasic site of cholinesterase shared many properties with serine proteases sites and esteratic sites of cholinesterases. In addition, with the peptidasic site, as well as the esteratic site, there was always the possibility of 'aging' when inhibited by DFP or soman.
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PMID:Study of the peptidasic site of cholinesterase: preliminary results. 257 54

DFP in acute dose (2 mg/kg i. p.) in mice significantly inhibited acetylcholinesterase AChE) activity in five regions of brain i.e. cerebral cortex, corpus striatum, medulla, cerebellum and hypothalamus. The inhibition was accompanied by depletion of glycogen from these regions 1 hr after DFP administration. The inhibition of enzyme activity was more in corpus striatum and medulla and glycogen depletion was more in cerebral cortex in comparison to other regions of the brain. These changes may be due to stimulatory effect of DFP on these regions of brain in mice.
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PMID:DFP induced changes in acetylcholinesterase activity and glycogen level in certain brain regions of mice. 262 Sep 69

The LD50s and ED50s for inhibition of acetylcholinesterase (AChE) in whole mouse brain by DFP (diisopropylfluorophosphate), sarin (methylphosphonofluoridic acid 1-methyl ethyl ester), soman (methylphosphonofluoridic acid 1,2,2-trimethyl propyl ester), and tabun (dimethylphosphoramidocyanidic acid ethyl ester) were compared after iv administration. The LD50s of DFP, sarin, soman, and tabun in ICR (Institute for Cancer Research) mice were 3.40, 0.109, 0.042, and 0.287 mg/kg, respectively. The recovery of AChE activity in whole mouse brain after sub-LD50 doses of these agents was slow and did not reach control values by 14 d after iv administration. AChE activity was inhibited in a dose-dependent manner in whole mouse brain, as well as in six brain regions (cortex, hippocampus, striatum, midbrain, medulla-pons, and cerebellum). None of these brain areas appeared to be particularly sensitive to AChE inhibition. The ED50s for DFP, sarin, soman, and tabun for inhibition of AChE in whole mouse brain were approximately 19, 38, 69, and 66% of their respective LD50s. Because of the differential potencies between lethality and inhibition of AChE, it is concluded that the lethality of these agents is due to more factors than simply the inhibition of AChE within the brain.
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PMID:Comparison of the effects of diisopropylfluorophosphate, sarin, soman, and tabun on toxicity and brain acetylcholinesterase activity in mice. 270 38

In high spinal cats, the acute time-dependent changes of both the activity of spinal reflex pathways and the activity of three different esterases (acetylcholinesterase, carboxylesterase and neurotoxicant target enzyme) in the spinal cord were investigated after intravenous application of the organophosphorus compound di-isopropyl phosphofluoridate (DFP). There is no general depression of spinal reflexes by DFP. While the recurrent inhibition is completely abolished for a long time and the reflexes to a flexor (PBSt) are depressed but with a shorter recovery time, the reflexes to an extensor (GS) are distinctly less depressed or even facilitated. Reflex pathways from skin afferents to motoneurones did not react in a uniform way to DFP, e.g. inhibitory nociceptive pathways were less affected than excitatory ones. Esterase activities were heavily depressed and recovered with different time courses. The acute DFP action cannot be explained by a uniform intoxication of all spinal functions but probably emerges from a differential action on different interneuronal systems.
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PMID:Influence of the organophosphorus compound DFP on inhibitory motor systems and esterase activity in the spinal cord of cats. 271 Apr 27

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