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)

In Egypt, infection with Schistosoma mansoni (S.m.) and residues of pesticides have been considered as major environmental pollutants that adversely affect health. Effects of diazinon (DZN) and/or praziquantel (PZQ) on the levels of plasma triiodothyronine (T3), thyroxine (T4), activities of brain acetylcholinesterase (AchE) and liver alanine aminotransferase (ALT) in addition to blood reduced glutathione (GSH) in healthy and S.m. infected mice were investigated after 9 and 17 weeks of either infection or intoxication with DZN. Triiodothyronine showed significant differences among the different treatments. The group of mice treated with PZQ showed the highest levels of T3 at both time intervals. Thyroxine level showed significant differences between the two time intervals. The lowest levels of T4 were observed in the infected-PZQ group at week 17. The maximum inhibition of brain AchE activity was noticed in DZN-PZQ treated group after 9 and 17 weeks. The different treatments significantly reduced the activities of liver ALT. The highest decrease was recorded in the infected-DZN-PZQ group at week 9. All treatments significantly lowered the levels of blood GSH after 9 weeks.
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PMID:Biochemical changes after subchronic and chronic interaction of Schistosoma mansoni infection in Swiss albino mice with two specific compounds. 1273 15

Public awareness of the dangers of chemical and biological warfare has been heightened in recent times. In particular, chemical nerve agents such as soman and its analogs have been developed and used in war as well as recent incidents, such as in Iraq and Japan. Soman, a rapid acting acetylcholinesterase inhibitor, produces a status epilepticus that leads to extensive neuropathology in vulnerable brain regions (eg, piriform cortex and hippocampus). This study was undertaken to determine whether oxidative mechanisms are involved in brain pathology during soman toxicity. Intracellular thiols such as glutathione (GSH) and protein sulfhydryls (PrSH) are among the most critical antioxidants used to combat oxidative stress. Here we report that during the seizure phase (1 h post soman exposure), PrSH levels in piriform cortex and hippocampus were decreased without changes in glutathione (GSH) levels. However, by 24 h post soman exposure (pathology phase), GSH levels were decreased by nearly 50% in the piriform cortex with a corresponding decrease in PrSH groups. The shift to a more oxidized thiol status indicates that oxygen free radicals likely participate in the neuropathology associated with soman-induced seizures.
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PMID:Alterations in brain glutathione homeostasis induced by the nerve gas soman. 1283 22

Dichlorvos (2,2-dichlorovinyl dimethyl phosphate, DDVP) is an organophosphorus (OP) insecticide and acaricide extensively used to treat external parasitic infections of farmed fish. In previous studies we have demonstrated the importance of the glutathione (GSH) metabolism in the resistance of the European eel (Anguilla anguilla L.) to thiocarbamate herbicides. The present work studied the effects of the antioxidant and glutathione pro-drug N-acetyl-L-cysteine (NAC) on the survival of a natural population of A. anguilla exposed to a lethal concentration of dichlorvos, focusing on the glutathione metabolism and the enzyme activities of acetylcholinesterase (AChE) and caspase-3 as biomarkers of neurotoxicity and induction of apoptosis, respectively. Fish pre-treated with NAC (1 mmol kg(-1), i.p.) and exposed to 1.5 mg l(-1) (the 96-h LC85) of dichlorvos for 96 h in a static-renewal system achieved an increase of the GSH content, GSH/GSSG ratio, hepatic glutathione reductase (GR), glutathione S-transferase (GST), glutamate:cysteine ligase (GCL), and gamma-glutamyl transferase (gammaGT) activities, which ameliorated the glutathione loss and oxidation, and enzyme inactivation, caused by the OP pesticide. Although NAC-treated fish presented a higher survival and were two-fold less likely to die within the study period of 96 h, Cox proportional hazard models showed that hepatic GSH/GSSG ratio was the best explanatory variable related to survival. Hence, tolerance to a lethal concentration of dichlorvos can be explained by the individual capacity to maintain and improve the hepatic glutathione redox status. Impairment of the GSH/GSSG ratio can lead to excessive oxidative stress and inhibition of caspase-3-like activity, inducing cell death by necrosis, and, ultimately, resulting in the death of the organism. We therefore propose a reconsideration of the individual effective dose or individual tolerance concept postulated by Gaddum 50 years ago for the log-normal dose-response relationship. In addition, as NAC increased the tolerance to dichlorvos, it could be a potential antidote for OP poisoning, complementary to current treatments.
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PMID:Fish tolerance to organophosphate-induced oxidative stress is dependent on the glutathione metabolism and enhanced by N-acetylcysteine. 1456 51

In order to explore the effects of superoxide dismutase(SOD), catalase(CAT), glutathione-peroxidase (GSH-Px) in rabbits exposed by profenofos and its meaning. 18 rabbits were divided into three groups randomly: A group (high-dose group), B group(low-dose group), C group(control group), each group including 6 rabbits. The activities of SOD, CAT, GSH-Px in plasma, and cholinesterase(ChE) in blood were measured in different exposure period. The results showed that activities of SOD, CAT and GSH-Px increased, ChE decreased markedly compared with those in the same group before experiment and control group (P < 0.05, P < 0.01). The increase of antioxidase activities was earlier than the decease of ChE activity. It suggests that profenofos can result in the increases of the activities of SOD, CAT and GSH-Px, which may be earlier diagnostic index in profenofos poisoning.
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PMID:[An experimental study of the effects of profenofos on antioxidase in rabbits]. 1465 Jan 83

The therapeutic efficacy of calcium disodium ethylenediaminetetracetic acid (CaNa(2)EDTA) and the two thiol chelators, 2,3-dimercaptopropane 1-sulfonate (DMPS) and monoisoamyl dimercaptosuccinic acid (MiADMSA) was studied, both individually and in combination, in reducing lead concentration in blood and soft tissues and in restoring lead induced altered biochemical variables in rats. Exposure to subacute dose of lead implicated a critical role of reactive oxygen species (ROS) and oxidative stress in altering the normal values of these variables. Exposure to lead caused a significant inhibition of blood delta-aminolevulinic acid dehydratase (ALAD), an important enzyme in the haem synthesis pathway and glutathione (GSH) level. These changes were also accompanied by inhibition of ALAD activity in kidney, delta-aminolevulinic acid synthase (ALAS) activities in liver and changes in platelet counts in whole blood suggesting disturbed haem synthesis pathway. Lead exposure also led to a pronounced depletion of brain GSH contents, superoxide dismutase (SOD) activity, an increase in thiobarbituric acid reactive substances (TBARS), and activity of glutathione S-transferase (GST). Specific activities of membrane-bound enzymes, acetylcholinesterase (AChE) and monoamine oxidase (MAO), were significantly inhibited on lead exposure. These biochemical changes were correlated with increased uptake of lead in blood and soft tissues. Post lead exposure treatment with MiADMSA in particular provided significant recovery in altered biochemical variables besides significant depletion of tissue lead burden. Treatment with CaNa(2)EDTA and DMPS individually had only moderate beneficial effects on tissue oxidative stress, although they were equally effective in the removal of tissue lead burden. Tissue zinc and copper levels did not depict any significant depletion, although changes like marked depletion of zinc following CaNa(2)EDTA and copper after MiADMSA administration were of some concern. Combined administration of CaNa(2)EDTA, particularly with MiADMSA, was the most effective treatment protocol compared to all other treatments. It can be concluded from our present results that combined therapy with CaNa(2)EDTA and MiADMSA proved significantly better in restoring biochemical and clinical variables over monotherapy with these chelating agents against subacute lead exposure in adult rats.
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PMID:Lead-induced oxidative stress and hematological alterations and their response to combined administration of calcium disodium EDTA with a thiol chelator in rats. 1545 83

This study investigates the effects of acute exposure to organophosphate insecticide malathion (250 mg/kg, i.p.) and/or ZnCl2 (5 mg/kg, i.p.), with the following parameters: lipid peroxidation and the activity of acetylcholinesterase (AChE), glutathione reductase (GR), glutathione S-transferase (GST), glutathione peroxidase (GPx), glucose-6-phosphate dehydrogenase (G6PDH), and the levels of total glutathione (GSH-t) in the hippocampus and cerebral cortex of female rats. Malathion exposure elicited lipid peroxidation and reduced AChE activity in the cerebral cortex and hippocampus. It also reduced the activity of GR and GST, and increased G6PDH activity in the cerebral cortex, without changing the levels of GSH-t and GPx activity. ZnCl2 exposure reduced AChE activity and caused a mild pro-oxidative effect, since lipid peroxidation was increased in the hippocampus. ZnCl2, individually or in combination with malathion, caused a reduction in GR and GST activity in the cerebral cortex. Malathion and/or ZnCl2 did not change the GSH-t levels. Moreover, ZnCl2 prevented the increase in G6PDH activity caused by malathion. It showed that ZnCl2 had little effect against the changes induced by malathion. In fact, zinc itself produced pro-oxidant action, such as the reduction in the activity of the antioxidant enzymes GR and GST.
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PMID:Antioxidant defenses and lipid peroxidation in the cerebral cortex and hippocampus following acute exposure to malathion and/or zinc chloride. 1559 58

Insulin action is approximately doubled following a meal. The mechanism of postprandial insulin sensitization is dependent on hepatic parasympathetic nerves regulated by the prandial status. The nerves provide a permissive signal to the liver that allows insulin to cause the release of a putative hepatic insulin sensitizing substance (HISS) that selectively stimulates glucose uptake into skeletal muscle but not liver or adipose tissue. The parasympathetic signal has several steps identified in the regulatory pathway; acetylcholine acts on muscarinic receptors leading to activation of nitric oxide synthase and generation of HISS. The meal-induced insulin (MIS) sensitization requires hepatic GSH, which decreases with fasting and several disease states. Interfering with the MIS process results in severe insulin resistance with the response to insulin being reduced by approximately 50% to levels seen in the fasted state. A wide range of conditions have been shown to be associated with insulin resistance attributed to lack of the MIS process including insulin resistance; in chronic liver disease produced by chemical damage or bile duct ligation, hepatic denervation, sucrose fed rats, aging, spontaneously hypertensive rats, fetal alcohol exposed adult offspring, spontaneously insulin resistant rats, animals with pharmacological blockade of hepatic muscarinic receptors, NO synthase, cyclooxygenase, hepatic cGMP, and hepatic GSH levels. Pharmaceutical reversal of insulin resistance has been shown in several models using a variety of approaches including mimicking or potentiating the parasympathetic signal using cholinergic agonists, NO donors, cholinesterase antagonists, phosphodiesterase antagonists, and replenishment of hepatic GSH levels. These compounds are being evaluated for therapeutic application by our international academic/industry collaborative team. The MIS process has now been demonstrated in mice, rats, guinea pigs, cats, dogs, and humans, and has been demonstrated by independent laboratories.
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PMID:Pharmaceutical reversal of insulin resistance. 1563 5

The pulmonary epithelial lining fluid (ELF) contains substrates, e.g., ascorbic acid (AH2), uric acid (UA), glutathione (GSH), proteins, and unsaturated lipids, which undergo facile reaction with inhaled ozone (O3). Reactions near the ELF gas/liquid interface likely provide the driving force for O3 absorption ("reactive absorption") and constrain O3 diffusion to the underlying epithelium. To investigate the potential mechanisms wherein O3/ELF interactions may induce cellular damage, we utilized a red cell membrane (RCM) model intermittently covered by an aqueous film to mimic the lung surface compartmentation, and evaluated exposure-mediated loss of acetylcholinesterase activity (AChE) and TBARS accumulation. In the absence of aqueous reactants, O3 exposure induced no detectable changes in AChE or TBARS. AH2 and GSH preferentially induced oxidative damage in a dose-dependent fashion. AH2-mediated RCM oxidation was not inhibited by superoxide dismutase, catalase, mannitol, or Fe chelators. O3 reaction with UA, Trolox, or albumin produced no RCM oxidation but oxidation occurred when AH2 was combined with UA or albumin. Rat bronchoalveolar lavage fluid (BALF) also induced RCM oxidation. However, in vivo O3 exposure dampened the extent of BALF-mediated RCM oxidation. Although we cannot completely rule out O3 diffusion to the RCM, product(s) derived from O3 + AH2/GSH reactions (possibly O3*- or 1O2) likely initiated RCM oxidation and may suggest that in vivo, such secondary species account for O3 permeation through the ELF leading to cellular perturbations.
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PMID:Antioxidant-mediated augmentation of ozone-induced membrane oxidation. 1564 54

In the present work we investigated the effect of ovariectomy on Na+, K+-ATPase and acetylcholinesterase (AChE) activities in rat hippocampus. We also studied some parameters of oxidative stress, namely total radical-trapping antioxidant potential (TRAP), thiobarbituric acid-reactive substances (TBA-RS), as well as the antioxidant enzyme activities superoxide dismutase (SOD), catalase (CAT) and glutathione peroxidase (GSH-Px) activities. Our hypothesis is that ovariectomy might cause alterations in essential enzyme activities necessary to brain normal functioning and that these chances could be caused by oxidative stress. Female adult Wistar rats were divided into three groups: (1) naive (control); (2) sham-operated; and (3) ovariectomized. Thirty days after ovariectomy rats were sacrificed. Results showed that rats subjected to ovariectomy presented a significant increase in Na+, K+-ATPase, AChE and CAT activities, but did not change the oxidative stress parameters studied when compared to sham or naive rats. Since ovariectomy mimics postmenopausal changes, our findings showing alteration in the activities of brain Na+, K+-ATPase, AChE and CAT may be related to problems in postmenopausal women.
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PMID:Ovariectomy increases Na+, K+-ATPase, acetylcholinesterase and catalase in rat hippocampus. 1586 39

The current study was performed to assess the potential of 4,5-dihydroxy 1,3-benzene disulfonic acid di sodium salt (Tiron) and glutathione (GSH) either individually or in combination against aluminum (Al)-induced developmental toxicity in fetuses and sucklings of Wistar rats. Female rats were exposed to aluminum chloride at a dose of 345 mg/(kg day) oral from days 0 to 16 of gestation and 0 to 16 of post-partum (P.P.). Tiron and GSH were administered at a dose of 471 mg/(kg day) i.p. and 100 mg/(kg day) oral, respectively, on days 5, 7, 9, 11, 13, 15 and 17 of gestation and post-partum. Al caused reduction in number of corpora lutea, number of implantation sites, placental and fetal weight and stunted growth. Skeletal malformations were also observed in fetuses. Maternal toxicity was demonstrated by reduction in body weight gain. Induction of oxidative stress was also recorded in the brain of mother as well as in fetuses and sucklings after Al exposure. Significant decrease was recorded in reduced glutathione, glutathione reductase (GR), glutathione peroxidase (GPx), catalase (CAT), superoxide dismutase (SOD), acetyl cholinesterase (AChE) and increase was observed in TBARS and glutathione-S-transferase (GST) in brain of pregnant mothers, fetuses and sucklings. Most of the above parameters responded positively with individual therapy with Tiron, but more pronounced beneficial effects on the above-described parameters were observed when Tiron was administered in combination with GSH. Inductively coupled plasma-atomic emission spectroscopy (ICP-AES) studies also showed significantly high concentration of Al in suckling's brain and maternal blood, brain, placenta and fetal brain. Treatment with Tiron individually or in combination with glutathione, reduced the accumulation of the Al in almost all the organs studied. It is concluded that chelating agents reduced the Al-induced toxicity and Tiron was more effective in reducing blood Al concentration than glutathione when given individually.
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PMID:Aluminum-induced maternal and developmental toxicity and oxidative stress in rat brain: response to combined administration of Tiron and glutathione. 1604 Feb 27

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