Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound

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Query: EC:3.1.1.5 (neuropathy target esterase)
1,070 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

In order to perform in vitro testing of esterase inhibition caused by organophosphorous (OP) protoxicants, simple, reliable methods are needed to convert protoxicants to their esterase-inhibiting forms. Incubation of parathion or chlorpyrifos with 0.05% bromine solution or uninduced rat liver microsomes (RLM) resulted in production of the corresponding oxygen analogs of these OP compounds and markedly increased esterase inhibition in SH-SY5Y human neuroblastoma cells. Neither activation system affected cell viability or the activity of AChE or NTE in the absence of OP compounds. Although parathion and chlorpyrifos were activated by RLM, bromine activation required fewer steps and produced more esterase inhibition for a given concentration of chlorpyrifos. However, RLM activation of OP protoxicants produced metabolites other than oxygen analogs and may, therefore, be more relevant as a surrogate for OP biotransformation in vivo. This methodology makes the use of intact cells for in vitro testing of esterase inhibition caused by protoxicant organophosphate compounds a viable alternative to in vivo tests.
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PMID:Comparison of two in vitro activation systems for protoxicant organophosphorous esterase inhibitors. 1004 49

Here we report the sequence, expression in Escherichia coli cells, and characterization of a new small-form lysophospholipase named lysophospholipase II from mouse embryo. The cDNA clone was found and identified among mouse expressed sequence tags in the database search for the homologue of lysophospholipase I previously cloned from rat liver (H. Sugimoto et al., J. Biol. Chem. 271 (1996) 7705-7711). The predicted amino acids sequence contained 231 residues with a calculated molecular weight of 24794, and showed 64% identity to that of lysophospholipase I with the Gly-X-Ser-X-Gly esterase/lipase consensus. The lacZ fusion protein expressed in E. coli cells exhibited lysophospholipase activity and reacted with antibody raised against previously purified pig gastric lysophospholipase II (H. Sunaga et al., Biochem. J. 308 (1995) 551-557), but not with antibody against rat liver lysophospholipase I. The expressed enzyme was purified to a specific activity of 0.15 micromol/min per mg by DEAE-Sepharose A-500 chromatography. The enzyme preferentially utilized zwitterionic lysophospholipids in the order of lysophosphatidylcholine>lysophosphatidylethanolamine, but poorly acidic lysophospholipids, such as lysophosphatidylserine, lysophosphatidylinositol, and lysophosphatidic acid. Not only the 1-acyl isomer, but also the 2-acyl isomer were deacylated. Northern blot analysis and reverse transcription-polymerase chain reaction revealed that lysophospholipase II transcript as well as lysophospholipase I transcript was widely distributed in mouse tissues.
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PMID:Sequence, expression in Escherichia coli, and characterization of lysophospholipase II. 1006 1

An enzyme with lipase and esterase activity was purified from bovine pancreas. Furthermore, a non-radioactive lipase assay was developed which is 100 times more sensitive than the conventional methods and allowed the characterization of the lipase activity of the enzyme. The lipase activity increased 42 times in the presence of 10 mM sodium taurocholate, which for the first time provides direct evidence that a bile salt-activated lipase (bp-BAL) was isolated from bovine pancreas. This conclusion is further supported by the fact that the N-terminal amino acid sequence of this lipase/esterase is 88% homologous to human milk BAL and human pancreatic BAL. Staining with various lectins showed that bp-BAL is a glycoprotein which contains fucose residues. Previously from bovine pancreas a lysophospholipase has been purified and a gene was cloned and sequenced encoding an enzyme with cholesterol esterase/lysophospholipase activity. Comparison of the N-terminal amino acid sequence of bp-BAL with the deduced amino acid sequence of the latter revealed that they are identical. Furthermore, the molecular weight of the purified bp-BAL of 63,000, as estimated by SDS-PAGE, is very similar to that of the purified lysophospholipase (65,000) and to the theoretical molecular weight of 65,147 of the cholesterol esterase/lysophospholipase. These data suggest that these three enzymes are one and the same.
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PMID:Purification and characterization of bovine pancreatic bile salt-activated lipase. 1022 May 79

The ability of bromine and rat liver microsomes (RLM) to convert organophosphorus (OP) protoxicants to esterase inhibitors was determined by measuring acetylcholinesterase (AChE) and neuropathy target esterase (NTE) inhibition. Species specific differences in susceptibility to esterase inhibition were determined by comparing the extent of esterase inhibition observed in human neuroblastoma cells and hen, bovine, and rodent brain homogenates. OP protoxicants examined included tri-o-tolyl phosphate (TOTP), O-ethyl O-p-nitrophenyl phenylphosphonothioate (EPN), leptophos, fenitrothion, fenthion, and malathion. Bromine activation resulted in greater AChE inhibition than that produced by RLM activation for equivalent concentrations of fenitrothion, malathion, and EPN. For EPN and leptophos, bromine activation resulted in greater inhibition of NTE than RLM. Only preincubation with RLM activated TOTP; resultant inhibition of AChE was less in hen brain (13 +/- 3%) than in neuroblastoma cells (73 +/- 1%) at 10(-6) M. In contrast, 10(-6) M RLM-activated TOTP produced more inhibition of hen brain NTE (89 +/- 6%) than NTE of human neuroblastoma cells (72 +/- 7%). Human neuroblastoma cells and brain homogenates from hens, the accepted animal model for study of OP-induced neurotoxicity, were relatively similar in sensitivity to esterase inhibition. Homogenates from hens were more sensitive to NTE inhibition induced by phenyl saligenin phosphate (PSP), an active congener of TOTP, than were homogenates from less susceptible species (mouse, rat, bovine). AChE of hen brain homogenates was also more sensitive than homogenates from other species to malaoxon, the active form of malathion.
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PMID:Comparative effectiveness of organophosphorus protoxicant activating systems in neuroblastoma cells and brain homogenates. 1032 2

Neurotoxicity of tricresyl phosphates (TCPs) and jet engine oil (JEO) containing TCPs were evaluated in studies conducted in both rat and hen. Results for currently produced samples ("conventional" and "low-toxicity") were compared with published findings on older samples to identify compositional changes and relate those changes to neurotoxic potential. Finally, a human risk assessment for exposure by oral ingestion of currently produced TCPs in JEO at 3% (JEO + 3%) was conducted. TCPs and certain other triaryl phosphates administered as single doses inhibited brain neuropathy target esterase (B-NTE; neurotoxic esterase) in the rat and the hen (hen 3.25 times as sensitive), and both species were deemed acceptable for initial screening purposes. Neither rat nor hen was sensitive enough to detect statistically significant inhibition of B-NTE after single doses of IEO + 3% "conventional" TCP. Subacute administration of 2 g/kg/d of JEO + 3% "conventional" TCP to the hen produced B-NTE inhibition (32%), which did not result in organophosphorus-induced delayed neurotoxicity (OPIDN). Subchronic administration of JEO + 3% TCP but not JEO + 1% TCP at 2 g/kg/d produced OPIDN. Thus, the threshold for OPIDN was between 20 and 60 mg "conventional" TCP/kg/d in JEO for 10 wk. The current "conventional" TCPs used in JEO and new "low-toxicity" TCPs now used in some JEO are synthesized from phenolic mixtures having reduced levels of ortho-cresol and ortho-xylenols resulting in TCPs of very high content of meta- and para-substituted phenyl moieties; this change in composition results in lower toxicity. The "conventional" TCPs still retain enough inhibitory activity to produce OPIDN, largely because of the presence of ortho-xylyl moieties; the "low-toxicity" TCPs are largely devoid of ortho substituents and have extremely low potential to cause OPIDN. The TCPs produced in the 1940s and 1950s were more than 400 times as toxic as the "low-toxicity" TCPs produced today. Analysis of the doses required to produce OPIDN in a subchronic hen study suggests that the minimum toxic dose of "conventional" TCP for producing OPIDN in a 70-kg person would be 280 mg/d, and for JEO containing 3% TCP, 9.4 g/d. Food products could be inadvertently contaminated with neat "conventional" TCP but it is unlikely that food such as cooking oil would be contaminated with enough JEO + 3% TCP to cause toxicity. Further, at the dosage required for neurotoxicity, it would be virtually impossible for a person to receive enough JEO + 3% TCP in the normal workplace (or in an aircraft) to cause such toxicity. There is no record of a JEO formulated with the modern "conventional" TCP causing human neurotoxicity.
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PMID:Comparison of neurotoxic effects and potential risks from oral administration or ingestion of tricresyl phosphate and jet engine oil containing tricresyl phosphate. 1040 86

Covalent modification of NTE, a neuronal protein with serine esterase activity, by certain organophosphates (OP) initiates degeneration of long axons in the peripheral and central nervous system. Simple inhibition of NTE esterase activity does not initiate neuropathy; the latter requires aging of the OP bound to the catalytic serine residue so that a negatively-charged species is left attached to the active site. This may indicate that a non-esterase function of NTE is important for axonal maintenance. We have recently cloned NTE and shown that it is unrelated to any known serine hydrolases but contains a novel C-terminal domain which is conserved from bacteria to man. Furthermore, the catalytic serine is located within this domain at the centre of a helical hydrophobic segment of the polypeptide's secondary structure. The integrity of NTE would be severely compromised by the presence of a negatively-charged organophosphate moiety at this site. Implications for possible higher-order structures and functions for NTE are discussed.
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PMID:Molecular cloning of neuropathy target esterase (NTE). 1042 90

Certain esterase inhibitors elicit or intensify the clinical expression of various insults to axons. This phenomenon was called promotion of axonopathies because these chemicals are not additive neurotoxicants nor do they interfere with the pharmacokinetics. Characterization of promotion was carried out by using organophosphate induced delayed polyneuropathy (OPIDP) as a model. The search for a physiological explanation of promotion has the following background: (1) Promotion expresses clinically the biochemical lesions which are otherwise well compensated (such as 30/40% neuropathy target esterase (NTE) inhibition by neuropathic organophosphates). (2) Promotion is not specific because axonopathies of different origin are affected. (3) Promoters are effective when given several days before the neuropathic insult. (4) Promotion is less effective in young animals as compared with adults. (5) Promotion occurs when axons, but not necessarily the cell body, are targeted by promoters. (6) Repeated dosing with a promoter failed to produce axonopathy. Based on this evidence it is suggested that promotion might interfere with a mechanism(s) of compensation and/or repair of long axons. The target of promotion of axonopathies is thought to be similar or linked to NTE which is defined as the phenyl valerate esterase activity (PVE) in nervous tissues resistant to paraoxon and sensitive to mipafox (40 and 50 microM, pH 8.0, 20 min, respectively). Mipafox (50 microM) resistant PVEs include some activity sensitive to the promoter phenylmethane sulfonylfluoride (PMSF) but no correlation was found between its inhibition and promotion. A complete titration curve of paraoxon-resistant PVEs by mipafox (0-1 mM) dissected, besides NTE (I50 about 10 microM), another PVE with an I50 of approximately 200 microM. This enzyme was present in hen brain, spinal cord and peripheral nerve, corresponding to about 10, 20 and 30% of NTE activity, respectively, and was sensitive both in vitro and in vivo to promoters and much less so to neuropathic NTE inhibitors. By means of chromatography, other workers have identified in soluble extracts of peripheral nerves two forms of mipafox-sensitive PVEs with different molecular weights and different sensitivity to mipafox. These might correspond to NTE and to the other enzyme. Inhibition in vivo of the latter also correlated with promotion.
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PMID:Promotion of organophosphate induced delayed polyneuropathy by certain esterase inhibitors. 1042 91

Neural carboxylesterases can be discriminated by differential inhibition assays with organophosphorus compounds (OPs), paraoxon (O,O'-diethyl p-nitrophenyl phosphate) and mipafox (N,N'-diisopropyl phosphorodiamidofluoridate) being the ones used to discriminate esterases that should be either irrelevant or candidates as targets of the mechanism of induction of the organophosphorus-induced delayed polyneuropathy (OPIDP). The brain membrane-bound phenyl valerate esterase (PVase) defined by Dr Johnson in 1969 as neuropathy target esterase (NTE) and recently cloned by Dr Glynn and coworkers is termed here as particulate NTE due to its association to the membrane particulate fraction. It is considered as the target of OPIDP and is the activity measured in standard NTE assays and toxicity tests. Following the same operational criteria in the soluble fraction of sciatic nerve a paraoxon-resistant but mipafox-sensitive PVase activity was described and termed as S-NTE, with an apparent lower sensitivity to some inhibitors than particulate NTE. Two isoforms (S-NTE1 and S-NTE2) were subsequently separated by gel filtration chromatography. In a partly purified S-NTE2 preparation polypeptides were identified in western blots by labelling with S9B [1-(saligenin cyclic phospho)-9-biotinyldiaminononane], the same biotinylated OP used to label and isolate particulate NTE, but not with anti-particulate NTE antibodies. From sequential inhibition protocols, inhibitor washing-out and time course inhibition studies it is deduced that reversibility of inhibition is a new factor introducing a higher complexity in the identification of the esterases that could be candidates as targets of the mechanisms of induction and/or promotion of neuropathy. We have evidences that in sciatic nerve soluble fraction a high proportion (about 70%) of the activity that is inhibited by paraoxon in the usual concurrent assay is quickly reactivated after removing paraoxon and it is permanently inhibited by mipafox. Under this improved sequential paraoxon/mipafox inhibition procedure S-NTE represents about 50% of total PVases while in the usual concurrent assay it was only apparently about 1-2%. Moreover with such criteria, S-NTE2 isoform(s) represents about 97-99% of total S-NTE, and S-NTE1 is only a marginal amount probably resulting of a partial solubilization from particulate NTE. Fixed time inhibiton curves with variable mipafox concentration failed to discriminate more than one component. However kinetic behaviour of the time progressive inhibition cannot be explained by a simple model with a single exponential mathematical component, indicating that either the possibility of more than one component or a more complex mechanistic model should be considered. Consequently both particulate NTE and S-NTE assay protocols and their role in induction and promotion of neuropathies will need to be reviewed. Data published by Drs Lotti, Moretto and coworkers suggest that particulate NTE cannot be the target of promotion of axonopathies. The proposal that S-NTE2 could be such a target is suggestive and under collaborative biochemical and toxicological studies.
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PMID:NTE soluble isoforms: new perspectives for targets of neuropathy inducers and promoters. 1042 92

Soluble extracts of chicken peripheral nerve contain detectable amounts of phenyl valerate esterase (PVase) activity (about 2000 nmol/min per g of fresh tissue). More than 95% of this activity is inhibited in assays where substrate has been added to a preincubated mixture of tissue with the non-neuropathic organophosphorus compound (OP) paraoxon (O,O'-diethyl p-nitrophenyl phosphate): residual activity includes soluble neuropathy target esterase (S-NTE) which, by definition, is considered resistant to long-term progressive (covalent) inhibition by paraoxon. However we have previously shown that paraoxon strongly interacts with S-NTE so interfering with its sensitivity to other inhibitors. We now show that, surprisingly, removal of paraoxon by ultrafiltration ('P' tissue) in order to avoid such an interference results in the reappearance of about 65% of total original soluble PVase activity which is inhibited in the presence of this OP. Although a purely reversible non-progressive inhibition might be suspected, kinetic analysis data show a time-progressive inhibition which suggests that such PVase(s) covalently bind paraoxon. Also a time-dependent recovery due to spontaneous reactivation of the PVase activity was observed after dilution of the inhibitor. Gel filtration chromatography of 'P' tissue in Sephacryl S-300 shows that the reactivated activity is associated with proteins of about 100-kDa mass which include S-NTE and an, as yet, unknown number of other PVases. The implications of these findings in the definition of NTE in a target tissue for the so-called organophosphorus-induced delayed polyneuropathy (OPIDP) are discussed.
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PMID:Peripheral nerve soluble esterases are spontaneously reactivated after inhibition by paraoxon: implications for a new definition of neuropathy target esterase. 1042 93

Neuropathy target esterase (neurotoxic esterase, NTE), a protein thought to be involved in the production of organophosphorus compound-induced delayed neurotoxicity (OPIDN), has been postulated to be a component of endogenous neuronal protein phosphorylation systems. The purpose of this work was to test this hypothesis as well as to investigate further the role of endogenous protein phosphorylation in toxic neuropathies. White Leghorn hens were dosed with the neuropathic compounds di-1-butyl-2,2-dichlorovinyl phosphate (dibutyl dichlorvos, DBDCV), tri-o-cresyl phosphate (TOCP), or acrylamide, and regions from brain were fractionated into axolemmal, synaptosomal, and microsomal preparations. Radiolabeling of NTE or endogenously phosphorylated proteins was carried out by incubation with [14C]-DFP or gamma-[32P]-ATP, respectively. Radiolabeled proteins were separated by sodium dodecyl sulfate polyacrylamide gel electrophoresis (SDS-PAGE) and visualized by autoradiography. Relative amounts of phosphoproteins were quantified by densitometry of the autoradiographs. Changes in endogenous phosphorylation of a protein exhibiting the characteristics of NTE were not observed in these experiments. However, levels of a [32P]-labeled 50-kDa brainstem axolemmal protein were decreased significantly on d 15, but not on d 1, 3, 7, or 10 after dosing with 2.8 mg/kg DBDCV. Clinical signs of ataxia and histopathological findings of axonal degeneration in the spinocerebellar tracts of the brainstem were evident on d 10-15, and hens were unable to perch on a horizontal wooden rod from d 12 after dosing with DBDCV. The decrease in the 50-kDa phosphoprotein was not observed on d 15 after the production of clinically evident neuropathy with either 14 daily doses of 50 mg/kg acrylamide or with a single dose of 500 mg/kg TOCP. These results suggest that NTE is not an endogenously phosphorylated protein under the conditions of these experiments. However, an effect on endogenous phosphorylation limited to a 50-kDa axolemmal protein was selectively produced by treatment with a neuropathic dose of DBDCV that was in evidence only after clinical signs and histopathological findings of axonopathy were apparent.
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PMID:Brainstem axolemmal protein phosphorylation in vitro in hens dosed with di-1-butyl-2,2-dichlorovinyl phosphate. 1070 44


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