EC:3.1.1.5 - FACTA Search

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)

Abou-Donia et al. (in Toxicologist, Vol. 30, 1996) have reported that repeated oral administration of the organo-phosphorus compound triphenyl phosphine (TPPn) to the domestic chicken results in neuropathological changes in the spinal cord and peripheral nerves, accompanied by ataxia and paralysis. This study also noted that single doses of TPPn resulted in no inhibition of the enzymes neuropathy target esterase (NTE) and acetylcholinesterase (AChE). We undertook the present study to determine the biochemical, neuropathological, and clinical effects of single doses of TPPn in the European ferret, a mammalian species shown to be susceptible to organophosphorus-induced neurotoxicity. Eight 12-week-old ferrets were each injected subcutaneously with either 250 mg TPPn/kg bw or 500 mg TPPn/kg bw, or with the peanut oil/ethyl ether vehicle. Twenty-four h after dosing, the brains of 5 animals from each dose group were examined for NTE and AChE activities. The remaining 3 animals in each group were observed for 6 days for the development of clinical signs, after which their brains were processed for the presence of axonal degeneration using the Fink-Heimer silver impregnation method. Single injections of TPPn had no effect on the activities of whole-brain NTE or AChE 24 h after injection. The animals observed for clinical signs showed increasing trunk and hindlimb ataxia beginning 4 days after injection, culminating in fore-and hindlimb paralysis 6 days after injection. All brains exposed to either dose of TPPn showed widespread axonal degeneration extending from the brainstem and cerebellum into midbrain and forebrain areas. The results of this study support the hypothesis that TPPn-induced neurotoxicity is a separate and distinct form of organophosphorus-induced neurotoxicity not dependent on NTE inhibition, and therefore not a variant of organophosphorus-induced delayed neurotoxicity (OPIDN).
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PMID:Organophosphorus-induced neurotoxicity in the absence of neuropathy target esterase inhibition: the effects of triphenyl phosphine in the European ferret. 1036 44

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

Organophosphorus compounds are inhibitors of serine hydrolases. Some of these compounds produce, in addition to their high acute toxicity, a more persistent effect: organophosphate-induced delayed neuropathy (OPIDN). The putative molecular entity whose inhibition is thought to be responsible for OPIDN is the neuropathy target esterase (NTE). Although in vitro NTE is resistant to paraoxon (PX), occasional case reports have associated PX with OPIDN. To assess clinically whether or not high-dose i.v. PX causes OPIDN in mini pigs, 14 mini pigs were anaesthesized, intubated and mechanically ventilated. In a first set of experiments eight pigs received 1 mg PX kg(-1) body weight (BW) dissolved in alcohol. Two control animals received alcohol in a corresponding amount. After infusion of PX, survival of the animals during the acute phase of intoxication was achieved by intensive-care support, using appropriate drugs and fluids according to a pre-established protocol. The mini pigs were extubated 1036 +/- 363 min later (mean +/- SD). The pigs were observed prior to PX application and for 6 weeks thereafter for any abnormalities and/or signs of OPIDN, such as leg weakness, ataxia and paralysis. Observations were graded on a scale for three categories (position, motor deficiency, reaction), with a maximal cumulative score of 9. In a second set of experiments (four additional pigs) larger PX doses were used (3, 9, 27 and 81 mg kg(-1) BW). After recovering from general anaesthesia/surgery, within 2 weeks all animals reached the initial score on the scale. It can be concluded that high-dose i.v. PX exposure does not induce OPIDN in mini pigs during the 6-week observation period.
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PMID:High-dose intravenous paraoxon exposure does not cause organophosphate-induced delayed neuropathy (OPIDN) in mini pigs. 1148 57

The motor neuron diseases (MNDs) are a group of related neurodegenerative diseases that cause the relative selective progressive death of motor neurons. Exploring the molecular mechanisms underlying MND phenotypes has been hampered by their multifactorial nature and high incidence of sporadic cases, although genetic factors are considered to play a considerable role at present. However, environmental factors, especial exposure to neurotoxic substances, could induce neurotoxicity with the same phenotypes of specific MNDs. Organophosphate-induced delayed neuropathy (OPIDN) is a neurodegenerative disorder characterized by ataxia and progression to paralysis, with a concomitant distal axonal degeneration and secondary demyelination of central and peripheral axons. The inhibition and subsequent aging of neuropathy target esterase (NTE) by organophosphate has been proposed to be the initiating event in OPIDN. NTE is characterized to be a lysophospholipase/phospholipase B mostly in the nervous system to regulate phospholipid homeostasis. Brain-specific deletion of mouse NTE contributes to the behavioral defects characterized by neuronal loss. Recently, mutations in human NTE have also been shown to cause a hereditary spastic paraplegia called NTE-related motor neuron disorder with the same characteristics of OPIDN, which supported the role of NTE abnormalities in OPIDN, and raised the possibility that NTE pathway disturbances contribute to other MNDs. Together with the identified association of paraoxonase polymorphisms with amyotrophic lateral sclerosis, there is a possibility that neurotoxic substances contribute to MND in genetically vulnerable people by gene-environment interactions.
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PMID:Motor neuron diseases and neurotoxic substances: a possible link? 1949 9

Organophosphates (OP) are widely used chemicals in agriculture and industry. Some OPs produce a delayed type of neuropathy affecting human and animals following exposure. Subacute neurotoxic doses of some OPs can be potentiated by concomitant exposure to certain chemicals. Lasalocid is a polyether carboxylic ionophore used as a growth promotant and anti-coccidial in the cattle and poultry industries, respectively. Lasalocid is also known to induce peripheral neuropathy. Neurotoxicity of phenyl saligenin phosphate (PSP) and lasalocid and possible interaction were studied in chickens by evaluating motor nerve conduction velocity (MNCV), clinical ataxia, and neuropathy target esterase (NTE) enzyme activity. Forty-eight fryer chickens were divided into four groups as follows: Group 1 (control), group 2 was injected with single subcutaneous (s.c.) PSP (5 mg/kg), group 3 received oral lasalocid sodium (20 mg/kg, b.i.d., for 2 days), and group 4 received single s.c. PSP injection plus oral lasalocid sodium. MNCVs were decreased in groups 2, 3, and 4 compared to control. While there was no difference in MNCV between groups 2 and 3 (p > 0.05), MNCV in group 4 were significantly lower than in groups 2 and 3 (p < 0.05). NTE activities were significantly lower in PSP and PSP+lasalocid groups than in control and lasalocid group (p < 0.05). Onset of ataxia in group 4 appeared early and was exacerbated compared to groups 2 and 3. In conclusion, PSP and lasalocid could induce a significant decrease in MNCV and produce ataxia. Neuropathic OPs could be exacerbated by polyether ionophore lasalocid.
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PMID:Effects of organophosphate phenyl saligenin phosphate and polyether carboxylic ionophore lasalocid on motor nerve conduction velocity, neuropathy target esterase enzyme activity, and clinical ataxia in chickens. 1977 11

About 80 years have passed since the first cases of organophosphate induced delayed polyneuropathy (OPIDP), as the consequence of human poisoning with certain organophosphorus compounds, were described in the literature. OPIDP is a relatively rare neurodegenerative disorder in humans characterized by loss of function, ataxia and paralysis of distal parts of sensory and motor axons in peripheral nerves and ascending and descending tracts of spinal cord appearing 2-3 weeks after exposure or later. The molecular target for OPIDP is considered to be an enzyme in the nervous system known as neuropathy target esterase (NTE). This review discusses OPIDP in man with emphasis on clinical presentation, pathogenesis, molecular mechanisms, and possibilities for prevention/therapy.
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PMID:Organophosphate induced delayed polyneuropathy in man: an overview. 2088 Jun 29

Organophosphorus-induced delayed neuropathy (OPIDN) is a neurodegenerative disorder characterised by ataxia progressing to paralysis with concomitant central and peripheral distal axonopathy. Symptoms of OPIDN in people include tingling of the hands and feet. This tingling is followed by sensory loss, progressive muscle weakness and flaccidity of the distal skeletal muscles of the lower and upper extremities and ataxia, which appear about 8-14 days after exposure. Some organophosphorus compounds (OPs) that are still used in worldwide agriculture have potential to induce OPIDN, including methamidophos, trichlorfon, dichlorvos and chorpyrifos. This review summarizes experimental attempts to prevent and/or treat OPIDN and the different mechanisms involved in each approach. The initial mechanism associated with development of OPIDN is phosphorylation and inhibition of neuropathy target esterase (NTE). The phosphorylated enzyme undergoes a second reaction known as "aging" that results in the loss of one of the "R" groups bound to the phosphorus of the OP. A second mechanism involved in OPIDN is an imbalance in calcium homeostasis. This can lead to the activation of calcium-activated neutral protease and increases in calcium/calmodulin-dependent protein kinases. These events contribute to aberrant phosphorylation of cytoskeletal proteins and protein digestion in the terminal axon that can proceed similarly to Wallerian-type degeneration. Several experimental studies demonstrated alleviation of the signs and symptoms of OPIDN by restoring calcium balance. Other studies have used preadministration of NTE inhibitors, such as carbamates, thiocarbamates, sulfonyl fluorides and phosphinate to prevent OPIDN. Progress is being made, but there is yet no single specific treatment available for use in clinical practice to prevent or alleviate the severe effects of OPIDN.
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PMID:Mechanisms for consideration for intervention in the development of organophosphorus-induced delayed neuropathy. 2281 51

Organophosphorus-induced delayed neuropathy (OPIDN) is a central and peripheral distal axonopathy characterized by ataxia and paralysis. Trichlorfon and acephate are two organophosphorus compounds (OPs) used worldwide as insecticide and which cause serious effects to non-target species. Despite that, the neuropathic potential of these OPs remains unclear. The present study addressed the neurotoxic effects and the neuropathic potential of trichlorfon and acephate in SH-SY5Y human neuroblastoma cells, by evaluating inhibition and aging of neuropathy target esterase (NTE), inhibition of acetylcholinesterase (AChE), neurite outgrowth, cytotoxicity and intracellular calcium. Additionally, the effects observed were compared to those of two well-studied OPs: mipafox (known as neuropathic) and paraoxon (known as non-neuropathic). Trichlorfon and mipafox presented the lowest percentage of reactivation of inhibited NTE and the lowest ratio IC50 NTE/IC50 AChE. Moreover, they caused inhibition and aging of at least 70% of the activity of NTE at sub-lethal concentrations. All these effects have been associated with induction of OPIDN. When assayed at these concentrations, trichlorfon and mipafox reduced neurite outgrowth and increased intracellular calcium, events implicated in the development of OPIDN. Acephate caused effects similar to those caused by paraoxon (non-neuropathic OP) and was only able to inhibit 70% of NTE activity at lethal concentrations. These findings suggest that trichlorfon is potentially neuropathic, whereas acephate is not.
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PMID:In vitro study of the neuropathic potential of the organophosphorus compounds trichlorfon and acephate. 2559 35

Organophosphate-induced delayed neuropathy (OPIDN) is characterized by progressive axonal degeneration and demyelination of the spinal cord and sciatic nerves. The neuregulin 1/epidermal growth factor receptor (ErbB) signaling pathway is crucial for axonal myelination. In this study, we investigated whether the neuregulin 1/ErbB signaling pathway mediated the progression of OPIDN. Adult hens were given tri-o-cresyl phosphate (TOCP), a typical neuropathic organophosphorus compound, to induce OPIDN. The ErbB inhibitor lapatinib was administered to hens 4 h prior to and 4 days after TOCP exposure. The neuregulin 1/ErbB signaling pathway was examined for their role in maintaining spinal cord and sciatic nerve fiber integrity. Schwann cell line sNF96.2 was used as the in vitro cell model. The in vivo results showed that TOCP (750 mg/kg body weight, p.o.) induced prominent ataxia and significant axon degeneration in the spinal cord and sciatic nerves. Lapatinib (25 mg/kg body weight, p.o.) treatment attenuated OPIDN clinically and histopathlogically and partially prevented the TOCP-induced activation of neuregulin 1/ErbB signaling pathway. Lapatinib also prevented the TOCP-induced inhibition of neuropathy target esterase (NTE), a key enzyme during the development of OPIDN, and the disturbed metabolism of phosphatidylcholine in sciatic nerves. In addition, lapatinib was shown, in vitro, to protect sNF96.2 cells from TOCP-induced dedifferentiation through neuregulin 1/ErbB signaling. Our results suggest that neuregulin 1/ErbB, through regulation of NTE activity in the peripheral nervous system, mediates the progression of OPIDN. Thus, this signal may serve as a potential target for the treatment of OPIDN.
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PMID:Activation of Neuregulin 1/ErbB Signaling Is Involved in the Development of TOCP-Induced Delayed Neuropathy. 2974 Feb 79

Variants in the PNPLA6 gene are known to cause 4 distinct phenotypes. One known phenotype is Hereditary Spastic Paraplegia type 39 (HSP 39), a rare neurodegenerative condition characterized by variable onset of lower limb spasticity, weakness and ataxia. Little is known about complications of HSP 39 in adulthood. Here, we report a family of three siblings who presented with bilateral lower limb spasticity in childhood, consistent with HSP, with confirmed bi-allellic PNPLA6 mutations. Two siblings developed parkinsonian features in middle age, a novel finding in this sibship. The proband had a positive dopamine transporter scan, indicating degeneration in dopaminergic neurons, and dopa-responsive extrapyramidal symptoms. Testing for known genetic causes of Parkinsonism was negative. The PNPLA6 gene encodes neuropathy target esterase, an enzyme involved in lipid metabolism that is critical to the stability of cell membranes. We hypothesize that the development of Parkinsonism in these patients may be related to the PNPLA6 mutations, as lipid dysregulation has been implicated in the pathogenesis of Parkinson disease.
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PMID:Bi-allelic variants in PNPLA6 possibly associated with Parkinsonian features in addition to spastic paraplegia phenotype. 3262 94

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