Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts:   Target Concepts:
Query: EC:3.1.1.7 (acetylcholinesterase)
 28,390 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Several organophosphorus compounds (OP) and carbamates (CA) are used as insecticides or warfare agents (OPs only). Their acute toxic effect in the central and peripheral nervous system is due to inhibition of acetylcholinesterase (AChE) at nerve endings which causes accumulation of acetylcholine and consequently overstimulation of the nicotinic and muscarinic receptors. The cholinergic syndrome appears at approximately 50% AChe inhibition whereas death is believed to occur at > 90%. Inhibition of AChE (phosphorylation) by most OPs is irreversible whereas CAs reversibly inhibit AChE (spontaneous reactivation with a t(1/2) of minutes); dimethylphosphorylated AChE partially and slowly (t(1/2) = 1-2 h) reactivates. Although long-term, mild neurobehavioural changes of questionable significance have been reported in some instances, recovery from the cholinergic syndrome appears to be complete, unless lesions develop in the central nervous system as a consequence of either convulsions or anoxia. Certain OPs and CAs have been reported to interact with cholinergic receptors in vitro. The toxicological relevance of these interactions is still not clear. Certain OPs cause OP-induced delayed polyneuropathy (OPIDP) which develops 2-5 weeks after an acute poisoning. The molecular target is believed to be neuropathy target esterase (NTE). OP insecticides are more potent AChE inhibitors rather than NTE inhibitors and therefore, the dose required to cause OPIDP is much higher than that causing the cholinergic syndrome. In the experimental animal, OPIDP is associated with > 70% NTE inhibition after single or repeated exposures. The threshold in man is not known, although there are indications that it is similar. Some non-neuropathic esterase inhibitors (OPs, CAs, sulfonyl fluorides) exacerbate the clinical outcome of OPIDP and other chemical axonopathies, and of nerve crush. The phenomenon has been called promotion and has so far been observed in experimental animals only.
 ...
PMID:Experimental and clinical toxicology of anticholinesterase agents. 1002 4

High dose exposure to anticholinesterases which results in symptomatic poisoning can have lasting consequences due to the trauma of intoxication, excitotoxicity, secondary hypoxic damage, and (for some agents) a delayed onset polyneuropathy (OPIDN). The potential effects of low level exposure are less well defined. The most reliable data comes from controlled clinical trials with specific agents. A single dose of sarin or repeated doses of metrifonate or mevinphos, have produced only transient adverse effects at doses causing substantial acetylcholinesterase inhibition. Other data comes from epidemiological surveys. These have often used more sensitive indices than the clinical studies, but are less reliable due to the difficulty of defining exposure and matching control and exposed populations. Subtle, mainly cognitive, differences between exposed and non-exposed populations are sometimes seen. Low level exposure can cause a reversible down-regulation of cholinergic systems, and a range of non-cholinesterase effects that are structure-specific, and do not always parallel acute toxicity. Novel protein targets sensitive to low level exposure to some organophosphates are known to exist in the brain, but their functional significance is not yet understood.
 ...
PMID:Chronic effects of low level exposure to anticholinesterases--a mechanistic review. 1002 7

Organophosphorus compounds, used as insecticides and agents of chemical warfare, are a major global cause of health problems. These irreversible inhibitors of cholinesterase produce three well-recognised clinical entities: the initial cholinergic phase, which is a medical emergency often requiring management in an intensive care unit; the intermediate syndrome, during which prolonged ventilatory care is necessary; and delayed polyneuropathy. In addition, disturbances of body temperature and endocrine function, electrolyte imbalances, immunological dysfunction and disorders of reproduction have been reported in animals and man. Vocal cord paralysis, pancreatitis, cardiac arrhythmias and a wide range of neuropsychiatric disorders are known to follow acute and chronic exposure to organophosphorus compounds. As a result of the inhibition of plasma cholinesterase, there can be increased sensitivity to drugs hydrolysed by this enzyme, e.g. suxamethonium and mivacurium. The inhibition of acetylcholinesterase causes dysfunction at the neuromuscular junction which can produce altered responses to nondepolarizing neuromuscular blockers. Anaesthetists may encounter patients exposed to organophosphorus compounds either following acute poisoning, trauma (warfare) or as patients with a wide range of nonspecific disorders presenting for surgery. The traditional use of oximes and atropine in treatment has failed to reduce the morbidity and mortality associated with poisoning. The roles of agents that have reduced the toxicity of organophosphorus compounds in animal experiments are discussed as potential therapeutic agents. There is an urgent need for accurate information on the problems associated with exposure to organophosphorus compounds. This would best be achieved by collaborative research between technologically advanced countries and developing countries, where organophosphorus compounds are a leading cause of ill health.
 ...
PMID:Organophosphorus poisoning and anaesthesia. 1054 97

Organophosphate poisonings are not uncommon, and are the leading cause of death in suicide patients in Taiwan. Acute cholinergic crisis caused by the inhibition of synaptic acetylcholinesterase is the major manifestation of organophosphate poisoning and may cause death within minutes. Delayed neurotoxicities include intermediate syndrome and delayed polyneuropathy have also been described. However, these symptoms may not characterize the complete picture of organophosphate poisoning. Among the 633 patients ever admitted to our hospital with organophosphate poisoning, three patients were found exhibiting impermanent neuromuscular dysfunction, including blepharoclonus, oculogyric crisis, intermittent dystonia, rigidity, and tremor, with two of them developing mask face, dyskinesia and akathisia later, following acute cholinergic crisis. The symptoms appeared within 4 days with the duration ranging from 25 days to 2 months. Other causes of the extrapyramidal syndrome noted on these patients have been excluded, and we consider the extrapyramidal syndrome a possible neurotoxic manifestation of organophosphate poisoning, which is transient, needs no treatment, and may be missed because of the critical condition, in a minority of patients. The mechanism remains to be identified, but may be related to the impediment of the function of acetylcholinesterase to modify nigrostriatal dopaminergic system, which is independent of hydrolyzing acetylcholine. More detailed observation for organophosphate poisoned patients and more studies for the biological functions of acetylcholinesterase including the influence on the nigrostriatal dopaminergic system are needed.
 ...
PMID:Acetylcholinesterase inhibition and the extrapyramidal syndrome: a review of the neurotoxicity of organophosphate. 1157

Species differences have been observed between hen and human clinical manifestations of isofenphos toxicities. Hens treated with the insecticide isofenphos (90 mg/kg p.o.) developed severe cholinergic toxicity followed by mild organophosphate-induced delayed polyneuropathy (OPIDP). However, a patient developed severe OPIDP, which was preceded by very mild cholinergic signs, after an attempted suicide with a commercial formulation containing isofenphos and phoxim, an insecticide not causing OPIDP (estimated doses were 500 and 125 mg/kg, respectively). To explain this difference the following hypotheses were tested: (1) phoxim is a promoter of isofenphos-induced OPIDP; (2) whereas neuropathy target esterase (NTE) is thought to be the target of OPIDP, activation of isofenphos by liver microsomes causes the formation of more potent NTE inhibitor(s) in humans than in hens; (3) in contrast to hen NTE, the sensitivity of the human enzyme to such inhibitor(s) is higher than that of acetylcholinesterase (AChE), the target of cholinergic toxicity. Results showed that phoxim (22.5 mg/kg p.o.) was not a promoter of OPIDP in hens and that the ratio AChE inhibition:NTE inhibition by microsome-activated isofenphos was similar for both hen and human enzymes. The schedule of antidotal treatment in hens is the likely explanation for the observed difference from the patient. Peak AChE inhibition was maintained in hen brain up to 6 days after a single dose of isofenphos, suggesting prolonged pharmacokinetics. However, the AChE reactivator pyridine-2-aldoxime (2-PAM) was given to hens before isofenphos and then every 8 h, whereas continuous 2-PAM infusion was provided to the patient. When 2-PAM was given to hens every hour after isofenphos (90 mg/kg p.o.), the birds remained asymptomatic. Since other organophosphates may have a prolonged pharmacokinetics, testing procedures for the potential of these insecticides to cause OPIDP may underestimate the risk for humans.
 ...
PMID:The relationship between isofenphos cholinergic toxicity and the development of polyneuropathy in hens and humans. 1210 55

The ubiquitous organophosphates present a continuing health hazard in agriculture, public health eradication programmes and as chemical warfare agents. Despite significant progress in understanding the potential mechanisms of toxicity far beyond the commonly accepted mechanism of cholinesterase inhibition in intentional exposures, the precise health effects following occupational exposures are yet to be completely defined. A much greater understanding exists of the clinical features of organophosphate poisoning. These are characterized by a triphasic response involving an initial acute cholinergic phase, an intermediate syndrome (both associated with high mortality) and a disabling but non-lethal delayed polyneuropathy. The delayed polyneuropathy may occur in the absence of the cholinergic or intermediate phases. However, progress is still required in order to improve the quantification and assessment of occupational exposures and the implementation of appropriate preventive measures. Finally, evidence-based guidelines for appropriate or optimal therapeutic interventions following poisoning are required urgently and collaborative work with colleagues in developing countries, where the occurrence of organophosphate exposures is more frequent, may provide the answers.
 ...
PMID:Organophosphate toxicity and occupational exposure. 1502 Jul 23

In recent years a number of studies have drawn attention to the possible neuropsychological sequelae stemming from acute poisoning by certain substances, namely cholinesterase inhibitors. These chemicals, carbamates and organophosphorates (OP), have been used in industry, for washing cattle, as insecticides and even as chemical agents in terrorist attacks and in wars. Nowadays, they are widely used as a pesticide and this is particularly so in regions such as the west of Almeria. The intensive farming in greenhouses carried out in this area, together with the conditions in which these products are used and handled, leads to a relatively high number of cases of poisoning. Yet this is not an isolated fact; the first clinical study to describe cases of poisoning by these substances in workers was published back in 1955. Some of the neurotoxic sequelae deriving from such intoxications are well defined: acute cholinergic syndrome, intermediate syndrome and delayed polyneuropathy provoked by OP (OPIDN). Several studies have been carried out over the past few decades to measure the long term neuropsychological disorders produced by acute poisoning by these substances, and findings suggest that both cholinesterase inhibition and other biochemical phenomena can have permanent neurotoxic consequences. This communication aims to bring some order to the data offered by the different studies by analysing and verifying the evaluation protocols followed, the results of the neurophysiological and neurocognitive biochemical measurements, the type of poisoning and the time elapsed since they occurred, so that they can be summarised and taken as guidelines for possible work to be carried out in the future.
 ...
PMID:[Neuropsychological sequelae of acute poisoning by pesticides containing cholinesterase inhibitors]. 1505 24

Many compounds, including some pesticides, contain structural centres of asymmetry, which convey the property of a type of stereoisomerism known as chirality. Such compounds can exist in two or more forms, depending on the number of chiral atoms and are termed stereoisomers or enantiomers. Stereoisomers of a particular compound can have different biological properties; one such of particular importance for toxicological evaluation, is the potential for differences in metabolic disposal of and binding of stereoisomers to molecular targets in the cell. The combination of differential metabolism of chiral organophosphorus (OP) pesticides and opposing stereoselectivity of inhibition of neuropathy target esterase (NTE) and acetylcholinesterase (AChE) can affect the value of the hen test, performed to OECD guidelines, in predicting the potential to cause organophosphate-induced delayed polyneuropathy (OPIDP) in humans. This is a mixed central and sensory and motor neuropathy. The experimental data on structural analogues of the pesticide methamidophos and the evidence for stereoselective OPIDP are reviewed and a model is given demonstrating how the properties of a chiral OP can result in the neuropathic potential not being detected by the standard hen test. A strategy for the assessment of a racemic mixture comprised of two OP enantiomers for the potential to induce OPIDP is outlined. The strategy uses information from structure activity relationships (SAR), in vitro tests and in vivo tests to allow risk assessment decisions to be made. It is suggested that the potential for stereoselective toxicity of pesticides should be routinely considered in regulatory assessments.
 ...
PMID:Toxicological assessment of isomeric pesticides: a strategy for testing of chiral organophosphorus (OP) compounds for delayed polyneuropathy in a regulatory setting. 1520 78

Organophosphate-induced delayed polyneuropathy (OPIDP) is a rare toxicity resulting from exposure to certain organophosphorus (OP) esters. It is characterised by distal degeneration of some axons of both the peripheral and central nervous systems occurring 1-4 weeks after single or short-term exposures. Cramping muscle pain in the lower limbs, distal numbness and paraesthesiae occur, followed by progressive weakness, depression of deep tendon reflexes in the lower limbs and, in severe cases, in the upper limbs. Signs include high-stepping gait associated with bilateral foot drop and, in severe cases, quadriplegia with foot and wrist drop as well as pyramidal signs. In time, there might be significant recovery of the peripheral nerve function but, depending on the degree of pyramidal involvement, spastic ataxia may be a permanent outcome of severe OPIDP. Human and experimental data indicate that recovery is usually complete in the young. At onset, the electrophysiological changes include reduced amplitude of the compound muscle potential, increased distal latencies and normal or slightly reduced nerve conduction velocities. The progression of the disease, usually over a few days, may lead to non-excitability of the nerve with electromyographical signs of denervation. Nerve biopsies have been performed in a few cases and showed axonal degeneration with secondary demyelination. Neuropathy target esterase (NTE) is thought to be the target of OPIDP initiation. The ratio of inhibitory powers for acetylcholinesterase and NTE represents the crucial guideline for the aetiological attribution of OP-induced peripheral neuropathy. In fact, pre-marketing toxicity testing in animals selects OP insecticides with cholinergic toxicity potential much higher than that to result in OPIDP. Therefore, OPIDP may develop only after very large exposures to insecticides, causing severe cholinergic toxicity. However, this was not the case with certain triaryl phosphates that were not used as insecticides but as hydraulic fluids, lubricants and plasticisers and do not result in cholinergic toxicity. Several thousand cases of OPIDP as a result of exposure to tri-ortho-cresyl phosphate have been reported, whereas the number of cases of OPIDP as a result of OP insecticide poisoning is much lower. In this article, we mainly discuss OP pesticide poisoning, particularly when caused by chlorpyrifos, dichlorvos, isofenphos, methamidophos, mipafox, trichlorfon, trichlornat, phosphamidon/mevinphos and by certain carbamates. We also discuss case reports where neuropathies were not convincingly attributed to fenthion, malathion, omethoate/dimethoate, parathion and merphos. Finally, several observational studies on long-term, low-level exposures to OPs that sometimes reported mild, inconsistent and unexplained changes of unclear significance in peripheral nerves are briefly discussed.
 ...
PMID:Organophosphate-induced delayed polyneuropathy. 1604 3

There is limited information regarding the management and outcomes of patients presenting with anticholinesterase pesticide poisoning in Australia. Patients presenting to a tertiary referral hospital with anticholinesterase exposures were identified by discharge coding. The medical records of each patient were retrospectively reviewed. Based on clinical outcome, patients were classified as severe or non-severe poisonings. Forty-one presentations were noted between 1990 and 2003. Eight patients (20%) had severe poisoning of which tachycardia, fasciculations with weakness and metabolic acidosis were common manifestations. The diagnosis was delayed in four patients due to the absence of a clear history, which did not influence patient outcomes or put hospital staff at risk of nosocomial poisoning. The median length of hospital stay was prolonged in severe poisonings (20 days) compared to 12 hours in other patients. Two cases of intermediate syndrome were attributed to fenthion and diazinon, and one case of delayed polyneuropathy to trichlorfon. Cholinesterase activities were performed in only 49% of presentations. The overall mortality was 2.4% (1 death) and the mortality in patients with severe poisoning was 12.5%. The incidence of anticholinesterase poisoning in Australia is low. These outcomes were favourable and comparable with other published data. Measures to enhance the knowledge of medical staff supplemented by validated treatment protocols should be developed. For less significant exposures, an emphasis on adequate documentation of cholinergic signs and cholinesterase activities is necessary for rapid triage and may also have potential forensic implications if not performed.
 ...
PMID:Experiences of anticholinesterase pesticide poisonings in an Australian tertiary hospital. 1611 88


<< Previous 1 2 3 Next >>