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)

NTE (neuropathy target esterase) is considered to be the target for organophosphorus-induced delayed polyneuropathy and is operationally measured by radiolabelling or by determining its esteratic activity as the paraoxon-resistant mipafox-sensitive phosphorylable site(s). From electrophoresis and density gradient centrifugation using radiolabelling techniques, several phosphorylable sites have been described in hen brain that are paraoxon-resistant mipafox-sensitive; however, only the majority electrophoresis band (155 kDa) shows properties related with the aging reaction. Kinetic criteria have also suggested two components of brain NTE (NTEA and NTEB). Most brain NTE is recovered in the particulate microsomal fraction and only about 1% in soluble fraction. In sciatic nerve about 50%/50% activity is recovered as soluble (S-NTE) or particulate (P-NTE) forms. A similar distribution were observed in hen, cat, rat and young chick. The fixed time inhibition curves show that P-NTE is more sensitive to mipafox, DFP and hexyl-DCP than S-NTE, while the reverse is true for methamidophos. P-NTE fits properly to one sensitive component while S-NTE fits better to two sensitive component models, except in the case of methamidophos. In vivo, significant differences in the inhibition of P- and S-NTE by mipafox were found only when using low non-neuropathic dosing. The possible significance of different NTE forms are discussed.
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PMID:Biochemical properties and possible toxicological significance of various forms of NTE. 834 94

The first step in the initiation of organophosphorus-induced delayed neuropathy (OPIDN) is proposed to be the phosphorylation of an enzyme found in the nervous system called neurotoxic esterase (neuropathy target esterase, NTE). It has been known for over twenty years that non-neuropathic inhibitors of NTE exist and can actually prevent OPIDN when given before a neuropathic organophosphate (OP). Within the last three years it has become evident that another outcome is possible following in vivo interaction between neuropathic and nonneuropathic NTE inhibitors. When administered after OP exposure, nonneuropathic inhibitors can intensify or potentiate signs of OPIDN in adult chickens. Additionally, whereas developing chickens are typically resistant to the effects of neuropathic OPs, resistant age groups will develop OPIDN when exposure to a neuropathic OP is followed by the non-neuropathic NTE inhibitor phenylmethylsulfonyl fluoride. As in the case of prevention, studies of the potentiation of OPIDN may yield insight into mechanisms involved in the pathogenesis of delayed neurotoxicity. A brief review of current knowledge regarding the role of NTE in both the prevention and potentiation of OPIDN is presented.
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PMID:The role of neurotoxic esterase (NTE) in the prevention and potentiation of organophosphorus-induced delayed neurotoxicity (OPIDN). 834 96

To initiate delayed neuropathy (DN) in adult hens organophosphates and phosphonates must inhibit most neural NTE and the inhibited NTE must undergo an 'aging' reaction. Phosphinates and those chiral isomers of phosphonates which produce non-aging NTE do not cause DN but act as prophylactic agents. Some racemic phosphoramidates cause DN although the inhibited NTE in autopsy samples can be reactivated in vitro (Johnson, Read and Vilanova, 1991, Arch. Toxicol., 65, 618-624). We now report that pure R(+)isomer of O-n-hexyl S-methyl phosphorothioamidate (5-20 mg/kg per os) caused slight acute effects but typical DN associated with high inhibition of NTE in brain, spinal cord and sciatic nerve (maximum by 6-24 h): the inhibited NTE was easily reactivated by KF (presumed not aged). For each dose the average residual NTE activity in the three tissues 24 h after dosing and the clinical ataxia severity on peak days 15-17 (score out of 4) was: 5 mg/kg: 13, 14, 27% (2,2,2,1); 10 mg/kg: 10, 14, 12%, (4,3,2); 15 mg/kg: 10,11,17%, (3,3,4); 20 mg/kg: 6, 10, 8% (3,3,3,2). The ability of this isomer and of other racemic phosphoramidates to initiate DN by covalent reaction at the active site of NTE (inhibition) without subsequent aging suggests that the chemistry (? charge distribution) in the region of the phosphorus atom determines that disturbance in the molecular environment of NTE which initiates DN.
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PMID:The R-(+)isomer of O-n-hexyl S-methyl phosphorothioamidate causes delayed neuropathy in hens after generation of a form of inhibited neuropathy target esterase (NTE) which can be reactivated ex vivo. 834 1

We previously reported the in vitro analysis of stage differentiation of Toxoplasma gondii in murine bone marrow-derived macrophages. The purpose of this study was to generate monoclonal rat antibodies that might be suitable for investigating tachyzoite-bradyzoite interconversion in vivo with the murine model. Immunization of Fischer rats with cysts of T. gondii NTE resulted in the generation of seven monoclonal antibodies of the immunoglobulin G2a, G2b, or M isotype, which were further characterized by the immunoblot technique, immunofluorescence assay, immunohistology, and immunoelectron microscopy. Immunoblots demonstrated specific reactivity of five monoclonal antibodies with proteins with molecular masses of 40, 52, 55, 60, 64, 65, and 115 kDa. One antibody (CC2) appeared to recognize a differently expressed antigen depending on the parasite stage, reacting with a 40-kDa molecule in tachyzoites and a 115-kDa antigen in bradyzoites and oocysts. Several other monoclonal antibodies were shown to be stage specific and to react in immunofluorescence assays or in immunoblots with either tachyzoites or bradyzoites. Kinetics of stage conversion in vitro could be monitored by immunofluorescence with two of these monoclonal antibodies. Preliminary immunohistological investigations of tissue sections from infected mice demonstrated the possible usefulness of these monoclonal antibodies for future in vivo studies on stage differentiation of T. gondii in the murine system.
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PMID:Monoclonal rat antibodies directed against Toxoplasma gondii suitable for studying tachyzoite-bradyzoite interconversion in vivo. 854 32

A method is presented for the isolation of a 155-kDa protein that possesses phenyl valerate hydrolysis activity in the presence of paraoxon but is inhibited by mipafox; the functional definition of neuropathy target esterase (neurotoxic esterase; NTE). Microsomes, isolated from 18-day-old chicken embryos were treated with phospholipase A2 to solubilize the NTE activity. The extract was then combined with polyoxyethylene W1 detergent and resolved by gel filtration chromatography to yield an active fraction with an approximate mass of 200 kDa. This fraction was further purified by preparative isoelectric focusing and native electrophoresis to yield two separate bands possessing NTE activity. The slower migrating band was highly enriched in a 155-kDa protein that was identified as a source of the NTE activity by affinity chromatography using 3-(9'-mercaptononylthio)-1,1,1-trifluoro-propan-2-one bound to Sepharose CL6B. This represents the first report of the isolation of NTE in its active form and aids in the confirmation of the 155-kDa protein as the most likely candidate for NTE.
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PMID:Identification and isolation of a 155-kDa protein with neuropathy target esterase activity. 881 9

Carbamyl sulfonate (CS) compounds are a novel class of carbamates derived from amino acid methyl esters. They have the general structure RCH(COOCH3)NH(CO)SO-3K+, where R is the sidechain of the parent amino acid. These compounds were developed as active site-directed inhibitors of human leukocyte elastase (HLE). The purpose of this study was to characterize the inhibition of hen brain neurotoxic esterase (neuropathy target esterase, NTE), horse serum butyrylcholinesterase (BuChE), and bovine erythrocyte acetylcholinesterase (AChE) by CS analogs derived from the methyl esters of L-ala, D-norval, L-norval, L-phe, L-val, L-norleu, D-met, and L-met. Bimolecular rate constants of inhibition (ki) for NTE ranged from 0.571 for L-ala-CS to 17.7 mM-1 min-1 for L-norleu-CS (10-min I50 values of 123 and 3.92 microM, respectively). Potency against NTE increased with chain length for straight-chain R-groups of L-CS compounds. Unlike HLE, NTE was only weakly stereoselective for CS compound enantiomers. The L-isomers were weaker inhibitors of BuChE than NTE (10-min I50 range of 742 to 35.6 microM). In contrast to the L-enantiomers, the I50 plots of D-met-CS and D-norval-CS were not linear for BuChE, suggesting a possible stereospecific mechanistic shift for inhibition of this enzyme, AChE was not effectively inhibited by any of the CS compounds (I50 values > 750 microM). The specificity and charged nature of CS compounds give these unusual NTE inhibitors potential advantages for mechanistic studies of organophosphorus compound-induced delayed neurotoxicity (OPIDN) and its protection or potentiation.
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PMID:Inhibition of neurotoxic esterase in vitro by novel carbamates. 907 5

The differential inhibition of the target esterases acetylcholinesterase (AChE) and neuropathy target esterase (NTE, neurotoxic esterase) by organophosphorus compounds (OPs) is followed by distinct neurological consequences in exposed subjects. The present study demonstrates that neuroblastoma cell lines (human SH-SY5Y and murine NB41A3) can be used to differentiate between neuropathic OPs (i.e., those inhibiting NTE and causing organophosphorus-induced delayed neuropathy) and acutely neurotoxic OPs (i.e., those highly capable of inhibiting AChE). In these experiments, concentration-response data indicated that the capability to inhibit AChE was over 100x greater than the capability to inhibit NTE for acutely toxic, nonneuropathic OPs (e.g., paraoxon and malaoxon) in both cell lines. Inhibition of AChE was greater than inhibition of NTE, without overlap of the concentration-response curves, for OPs which are more likely to cause acute, rather than delayed, neurotoxic effects in vivo (e.g., chlorpyrifos-oxon, dichlorvos, and trichlorfon). In contrast, concentrations inhibiting AChE and NTE overlapped for neuropathy-causing OPs. For example, apparent IC50 values for NTE inhibition were less than 9.6-fold the apparent IC50 values for AChE inhibition when cells were exposed to the neuropathy-inducing OPs diisopropyl phosphorofluoridate, cyclic tolyl saligenin phosphate, phenyl saligenin phosphate, mipafox, dibutyl dichlorovinyl phosphate, and di-octyl-dichlorovinyl phosphate. In all cases, esterase inhibition occurred at lower concentrations than those needed for cytoxicity. These results suggest that either mouse or human neuroblastoma cell lines can be considered useful in vitro models to distinguish esterase-inhibiting OP neurotoxicants.
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PMID:Acetylcholinesterase and neuropathy target esterase inhibitions in neuroblastoma cells to distinguish organophosphorus compounds causing acute and delayed neurotoxicity. 926 5

Carboxylesterases are enzymes present in neural and other tissues that are sensitive to organophosphorus compounds. The esterase activity in particulate forms, resistant to paraoxon and sensitive to mipafox have been implicated in the initiation of organophosphorus-induced delayed polyneuropathy (OPIDP) and is called neuropathy target esterase (P-NTE). Certain esterases inhibitors such as phenylmethylsulfonyl fluoride (PMSF), can also irreversibly inhibit P-NTE and by this mechanism PMSF 'protects' from further effect of neuropathic OPs. However, if PMSF is dosed after a low non-neuropathic dose of a neuropathic OP, its neurotoxicity is 'promoted', causing severe neuropathy. The molecular target of promotion has not yet been identified and it has been shown that it is unlikely to be the P-NTE. In order to discriminate the different esterases, we used non-neuropathic (paraoxon), and neuropathic organophosphorus compounds (mipafox, DFP) and a neuropathy promoter (PMSF). They were used alone or in concurrent inhibition to study particulate and soluble fractions of brain, spinal cord and sciatic nerve of chicken. From the experimental data, a matrix was constructed and equations deduced to estimate the proportions of the different potential activity fractions that can be discriminated by their sensitivity to the tested inhibitors. It was deduced that only combinations of up to three inhibitors can be used for the analysis with consistent results. In all tissues, inside the paraoxon sensitive activity, most of the activity was sensitive either to mipafox, to PMSF or both. In all fractions, except brain soluble fractions, within the paraoxon resistant activity, a mipafox sensitive component was detected that is operationally considered NTE (P-NTE and S-NTE in particulate and soluble fractions, respectively). Most of this activity was also sensitive to PMSF, and this should be considered the target of organophosphorus inducing neuropathy and of PMSF protective effect. Either in brain and spinal cord, a significant amount of the activity resistant to 40 microM paraoxon and 250 microM mipafox (usually called 'C' activity) is sensitive to PMSF. It could be a good candidate to contain the target of the promotion effect of PMSF as well as the S-NTE activity that is also PMSF sensitive.
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PMID:Discrimination of carboxylesterases of chicken neural tissue by inhibition with a neuropathic, non-neuropathic organophosphorus compounds and neuropathy promoter. 941 46

Acyl-coenzyme A:cholesterol acyltransferase (ACAT) in rat adrenal was compared with that in rat liver. Immunoblot analyses of the microsomal fractions from adrenal with an anti-human ACAT antibody detected a 45 kDa protein. Upon pretreatment of these microsomal fractions with chemical cross-linkers such as BS3 and Sulfo-EGS, the 45 kDa band decreased with a concomitant increase in high molecular weight proteins (55, approximately 100, and approximately 230 kDa), suggesting that ACAT constitutes oligomers of 45 kDa monomers associated with a 10 kDa protein. In sharp contrast, the same immunoblot analysis of rat liver microsomal fractions identified a 50 kDa protein which was not cross-linked by these cross-linkers. Moreover, when four ACAT inhibitors were tested for their effects on adrenal and liver enzymes, NTE-122, CI-976, and E5324 were more effective for the liver enzyme, whereas 58-035 was much more effective for adrenal ACAT. These biochemical and pharmacological observations support the notion that the rat liver ACAT protein is distinct from the adrenal counterpart.
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PMID:Biochemical evidence for oligomerization of rat adrenal acyl-coenzyme A:cholesterol acyltransferase. 951 26

Acetylcholinesterase (AChE) and neuropathy target esterase (neurotoxic esterase, NTE) are two major target enzymes for organophosphorus (OP) esters. The relative potency of an OP ester to react with AChE or with NTE in vitro correlates with its relative potency in vivo to cause acute toxicity (death) or organopohosphate-induced delayed neurotoxicity (OPIDN). On this basis extrapolation from in vitro to in vivo data now seems justifiable to predict risk of OPIDN. The kinetics of NTE and AChE inhibition by experimental pesticides of the general formula (RO)2P(O)ON=CClCH2Cl, where R = methyl, ethyl, isopropyl, propyl, isobutyl, butyl, pentyl, has been studied. Compounds with short R (methyl, ethyl) were shown to be far more potent inhibitors of AChE than NTE. Both anti-NTE activity, selectivity for NTE and, correspondingly, the propensity of compounds to cause OPIDN rise with increasing their hydrophobicity. A high value of ki(NTE)/ki(AChE) for R = pentyl suggests that this compound would have the potential to cause OPIDN at doses lower than the LD50. A quantitative structure-activity relationships (QSAR) analysis indicated that NTE and AChE have different structural and electronic requirements for their respective OP inhibitors.
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PMID:Comparative studies of O,O-dialkyl-O-chloromethylchloroformimino phosphates: interaction with neuropathy target esterase and acetylcholinesterase. 974 21


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