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Target Concepts:
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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)
An animal (rat) model of chronic stress (corticosterone in the drinking water) was used to study the interaction of stress and the organophosphorus (OP) neurotoxicants chlorpyrifos (60 mg/kg subcutaneously in a single dose) and tri-ortho-tolyl phosphate (TOTP, at 75, 150, or 300 mg/kg given 7 times orally in a 2-wk period). Adult male Long-Evans rats were provided with corticosterone in drinking water (400 microg/ml, w/v) for a total of 28 d, which led to significantly decreased weight and decreased cellularity of the thymus and spleen. Seven days after initiation of corticosterone treatment, half of the rats were given chlorpyrifos, and an additional 7 d later the 2-wk, 7-dose treatment of TOTP was initiated. During the 28-d test period, behavior of rats was evaluated using a functional observational battery (FOB), motor activity, and passive avoidance. Reductions in body weight, grip strength, and ambulatory movements occurred as a result of corticosterone treatment. Decreased body weight and grip strength were also elicited by TOTP, and the interactions of corticosterone and TOTP enhanced the effects on body weight and grip strength. Blood
cholinesterase
levels were obtained during the 28-d study period and found useful for monitoring OP exposure. At the end of the 28-d testing period, rats were sacrificed and activities of
cholinesterase
, neurotoxic esterase (
neuropathy target esterase
), and/or carboxylesterase were evaluated in blood, liver, and/or brain regions (basal forebrain, caudate putamen, cerebral cortex, hippocampus). All these esterases in brain were inhibited in a dose-related manner by TOTP, with some enhancement in rats drinking corticosterone-containing water. In addition, choline acetyltransferase, glial acidic fibrillary protein (GFAP), glutathione peroxidase, and superoxide dismutase were evaluated in one or more of the brain regions already identified. Choline acetyltransferase, glutathione peroxidase, and superoxide dismutase activities were unaffected by treatments. However, GFAP was elevated above control levels in the cerebral cortex of rats by all treatments (corticosterone, chlorpyrifos, TOTP). Neuropathological examination revealed early stages of dose-related increased distal myelinated fiber axonal degeneration seen in the medullary fasciculus gracilis at only the highest dose of TOTP (300 mg/kg).
...
PMID:Neurologic and immunologic effects of exposure to corticosterone, chlorpyrifos, and multiple doses of tri-ortho-tolyl phosphate over a 28-day period in rats. 1471 79
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
Carbamate esters are widely used as pesticides and can cause neurotoxicity in humans and animals; the exact mechanism is still unclear. In the present investigation, the effects of carbamates at sublethal concentration on neurite outgrowth and cytoskeleton as well as activities of
acetylcholinesterase
(
AChE
) and
neuropathy target esterase
(
NTE
) in differentiating human SK-N-SH neuroblastoma cells were studied. The results showed that 50 microM of either aldicarb or carbaryl significantly decreased neurite length in the retinoic acid-induced differentiation of the neuroblastoma cells, compared to cells treated with vehicle. Western blot analyses revealed that neither carbamate had significant effects on the levels of actin, or total neurofilament high molecular proteins (NF-H). However, increased NF-H phosphorylation was observed following carbamate treatment. These changes may represent a useful in vitro marker of carbamate neurotoxicity within a simple model of neuronal cell differentiation. Furthermore, activity of
AChE
, but not
NTE
, was significantly inhibited by aldicarb and carbaryl in differentiating cells, which suggested that cytoskeletal protein changes induced by carbamate esters in differentiating cells was associated with inhibition of
AChE
but not
NTE
.
...
PMID:Effect of carbamate esters on neurite outgrowth in differentiating human SK-N-SH neuroblastoma cells. 1625 72
Aging of phosphylated serine esterases, e.g.,
acetylcholinesterase
(
AChE
) and
neuropathy target esterase
(
NTE
), renders the inhibited enzymes refractory to reactivation. This process has been considered to require postinhibitory side group loss from the organophosphorus moiety. Recently, however, it has been shown that the catalytic domain of human
NTE
inhibited by N,N'-diisopropylphosphorodiamidofluoridate (mipafox, MIP) ages by deprotonation. For mechanistic understanding and biomarker development, it would be important to know the identity of the MIP adduct on target esterases after inhibition and aging occurred. Accordingly, the present study was performed to determine if MIP-inhibited human
AChE
ages by side group loss or an alternate method, e.g., deprotonation. Diisopropylphosphorofluoridate (DFP), the oxygen analogue of MIP, was used for comparison, because DFP-inhibited
AChE
is known to age by net loss of an isopropyl group. Kinetics experiments were done with DFP and MIP against
AChE
to follow the time course of inhibition, reactivation, and aging for each inhibitor. MS studies of tryptic digests from kinetically aged DFP-inhibited
AChE
revealed a mass shift of 122.8 +/- 0.7 Da for the active site peptide (ASP) peak, corresponding to the expected monoisopropylphosphoryl adduct. In contrast, the analogous mass shift for kinetically aged MIP-inhibited
AChE
was 80.7 +/- 0.9 Da, corresponding to a phosphate adduct. Because this finding was unexpected, the identity of the phosphoserine-containing ASP was confirmed by immunoprecipitation followed by MS. The results indicate that aging of MIP-inhibited
AChE
proceeds by displacement of both isopropylamine groups. Further research will be required to elucidate the detailed mechanism of formation of a phosphate conjugate from MIP-inhibited
AChE
; however, knowledge of the identity of this adduct will be useful in biomarker studies.
...
PMID:Aging of mipafox-inhibited human acetylcholinesterase proceeds by displacement of both isopropylamine groups to yield a phosphate adduct. 1648 11
Numerous approaches have been studied to degrade organophosphorus (OP) compounds and ameliorate their toxicity. In the current study, the potential of genetically engineered organophosphorus hydrolase (OPH) enzymes to functionally biotransform OP neurotoxicants was examined by assessing effects of OPH-hydrolyzed OPs on acute and delayed indicators of neurotoxicity. SY5Y human neuroblastoma cells were used as a model test system, as these cells respond distinctly to mipafox, which produces OP-induced delayed neuropathy, and paraoxon, which does not. Short-term effects of four OPH-treated OPs on
acetylcholinesterase
(
AChE
) and
neuropathy target esterase
(
NTE
) activities were measured in retinoic acid-differentiated or undifferentiated cells, and delayed effects of OPH-treated paraoxon or mipafox on levels of neuronal cytoskeletal proteins in nerve growth factor (NGF)-differentiated cells. The anti-
AChE
activity of paraoxon (maximum 3 muM) and anti-
NTE
activity of mipafox (250 muM) in SY5Y cells were prevented by biodegradation with OPH. Anti-
AChE
activities of mipafox, methyl parathion, and demeton-S were partially ameliorated, depending on OP concentration. Intracellular amounts of the 200-kD neurofilament protein NF200 were unchanged after treatment with OPH-treated or buffer-treated paraoxon, as expected, as this endpoint is insensitive to paraoxon. However, NF200 levels rose in cells treated during late differentiation with OPH-treated mipafox. This finding suggests the existence of a threshold concentration of mipafox below which SY5Y cells can maintain their viability for compensating cellular damage due to mipafox in neurite elongation. These results indicate that OPH may be used to biodegrade OPs and remediate their neurotoxic effects in vitro and that
AChE
and
NTE
are suitable detectors for OPH amelioration.
...
PMID:Degradation of organophosphorus neurotoxicity in SY5Y neuroblastoma cells by organophosphorus hydrolase (OPH). 1676 77
Carbamates are reversible inhibitors of
acetylcholinesterase
, and some also inhibit
neuropathy target esterase
(
NTE
), the target in organophosphate-induced delayed polyneuropathy. However, based on mechanistic considerations, these carbamates were thought to be unable to initiate polyneuropathy. Consequently, clinical reports of polyneuropathy associated with carbamate exposures have been disregarded. We discuss three cases of polyneuropathy that occurred after severe poisoning by methylcarbamates. In addition, high repeated doses of phenyl N-methyl N-benzylcarbamate caused nearly 100%
NTE
inhibition and polyneuropathy in the hen model. These data suggest the need to reconsider the long-standing tenet that carbamates cannot cause polyneuropathy. Alternatively, a preexisting subclinical neuropathy in these individuals may have been amplified by carbamates, as observed in animal models. We suggest that individuals with underlying neuropathy (e.g., diabetics) who are poisoned by carbamates should be followed closely. In addition, procedures for the current risk assessment of carbamate pesticides may need to be reconsidered.
...
PMID:Do carbamates cause polyneuropathy? 1689 62
Cytoskeletal components play an important role in maintaining cellular architecture and internal organization, with clear involvement of defining cell shape, in cell division and other cellular processes, such as neurite extension and maintenance. Alterations of cytoskeleton in human neuroblastoma SK-N-SH cells after exposure to different concentrations of tri-ocresyl phosphate (TOCP) for 12 hr were investigated. TOCP decreased the cell viability in a dose-dependent manner; the viability of SK-N-SH was reduced to approximately 50% of baseline after a 12-hour exposure to TOCP at high concentration (5 mM). Biochemical characterization by western blotting revealed that 1 and 5 mM concentrations of TOCP significantly inhibited the expression of neurofilament high molecular weight protein (NF-H), and that 5 mM TOCP inhibited expression of microtubule-associated protein 2c and tau protein, but not beta-actin. Indirect immunofluorescence analysis revealed that higher concentrations of TOCP decreased the length of neuritis and changed the structure of microfilaments, which are associated with NF-H. In addition, activities of
neuropathy target esterase
and
acetylcholinesterase
were significantly reduced after exposure to 5 mM TOCP for 12 hr. Together, these results suggested that the loss of cytoskeletal components is the early event during the process of TOCP toxicity towards human neuroblastoma SK-N-SH cells.
...
PMID:Effect of tri-o-cresyl phosphate on cytoskeleton in human neuroblastoma SK-N-SH cell. 1690 9
Organophosphorus compounds (OP) such as phenyl saligenin phosphate (PSP) and mipafox (MPX) which cause delayed neuropathy, inhibit
neuropathy target esterase
(
NTE
), while OPs such as paraoxon (PXN) react more readily with
acetylcholinesterase
. In yeast and mammalian cell lines,
NTE
has been shown to have
phospholipase B
(
PLB
) activity which deacylates intracellular phosphatidylcholine to glycerophosphocholine (GroPCho) and can be detected by metabolic labeling with [(14)C]choline. Here we investigated
PLB
activity in primary cultures of mouse neural cells. In cortical and cerebellar granule neurons and astrocytes, [(14)C]GroPCho labeling was inhibited by PSP and MPX: phenyl dipentylphosphinate (PDPP), a non-neuropathic
NTE
inhibitor, was more potent, while PXN, was substantially less so. In all three cell types, conversion of [(14)C]phosphatidylcholine to [(14)C]GroPCho over 24 h was relatively small (2.3-14%). Consequently, even with >80% inhibition of [(14)C]GroPCho production, increased [(14)C]phosphatidylcholine was not detected. At concentrations of 1-10 microM, only PSP was cytotoxic to cortical and cerebellar granule neurons after 24-h exposure. Moreover, dramatic changes in glial cell morphology were induced by PSP, but not PDPP or MPX, with rapid (2-3 h) rounding up of astrocytes and of Schwann cells in cultures of dissociated mouse dorsal root ganglia. We conclude that
PLB
activity is present in a variety of cultured mouse neural cell types but that acute loss of this activity is not cytotoxic. Conversely, the rapid toxic effects of PSP in vitro suggest that a serine hydrolase distinct from
NTE
is required continuously by neurons and glia.
...
PMID:Phospholipase B activity and organophosphorus compound toxicity in cultured neural cells. 1696 94
Elucidating mechanisms of aging of esterases inhibited by organophosphorus (OP) compounds is important for understanding toxicity and developing biomarkers of exposure to these agents. Aging has classically been thought to involve net loss of a single side group from the OP moiety of phosphylated esterases, rendering the enzyme refractory to reactivation. However, recent evidence has shown that
acetylcholinesterase
(
AChE
) and the catalytic domain of human
neuropathy target esterase
(NEST) undergo aging by alternative mechanisms following their inhibition with N,N'-diisopropylphosphorodiamidofluoridate (mipafox, MIP). This study was performed to determine whether MIP-inhibited butyrylcholinesterase (BChE) ages conventionally, by net loss of a single side group, or by an alternate route, e.g., reversible deprotonation or displacement of both isopropylamine groups, as recently observed for MIP-inhibited NEST and
AChE
, respectively. Diisopropylphosphorofluoridate (DFP), the phosphate analogue of the phosphoroamidate MIP, was used for comparison. Kinetic values for MIP against BChE were as follows: ki = (1.28 +/- 0.053) x 10(6) M-1 min-1; k3 = 0.004,15 +/- 0.000,27 min-1; k4 = 0.008,49 +/- 0.000,99 min-1. Kinetic values for DFP against BChE were as follows: ki = (1.83 +/- 0.18) x 10(6) M-1 min-1; k3 = 0.004,88 +/- 0.000,24 min-1; k4 = 0.0121 +/- 0.0028 min-1. Mass spectrometric studies revealed a mass shift of 123.4 +/- 0.7 Da for the active-site peptide peak of aged DFP-inhibited BChE, corresponding to a monoisopropylphosphate adduct. Similarly, the analogous mass shift for aged MIP-inhibited BChE was 122.4 +/- 0.7 Da, corresponding to a monoisopropylphosphoroamido adduct. Therefore, we conclude that the MIP-BChE conjugate ages by loss of a single isopropylamine group, in contrast to MIP-inhibited
AChE
or NEST.
...
PMID:Mechanism of aging of mipafox-inhibited butyrylcholinesterase. 1732 78
This paper reviews previously published data and presents new results to address the hypothesis that fluorinated aminophosphonates (FAPs), (RO)(2)P(O)C(CF(3))(2)NHS(O)(2)C(6)H(5), R=alkyl, inhibit serine esterases by scission of the P-C bond. Kinetics studies demonstrated that FAPs are progressive irreversible inhibitors of
acetylcholinesterase
(AChE,
EC 3.1.1.7
.), butyrylcholinesterase (BChE, EC 3.1.1.8.), carboxylesterase (CaE, EC 3.1.1.1.), and
neuropathy target esterase
(
NTE
,
EC 3.1.1.5
.), consistent with P-C bond breakage. Chemical reactivity experiments showed that diMe-FAP and diEt-FAP react with water to yield the corresponding dialkylphosphates and (CF(3))(2)CHNHS(O)(2)C(6)H(5), indicating lability of the P-C bond. X-ray crystallography of diEt-FAP revealed an elongated (and therefore weaker) P-C bond (1.8797 (13)A) compared to P-C bonds in dialkylphosphonates lacking alpha-CF(3) groups (1.805-1.822A). Semi-empirical and non-empirical molecular modeling of diEt-FAP and (EtO)(2)P(O)C(CH(3))(2)NHS(O)(2)C(6)H(5) (diEt-AP), which lacks CF(3) groups, indicated lengthening and destabilization of the P-C bond in diEt-FAP compared to diEt-AP. Active site peptide adducts formed by reacting diEt-FAP with BChE and diBu-FAP with
NTE
catalytic domain (NEST) were identified using peptide mass mapping with mass spectrometry (MS). Mass shifts (mean+/-SE, average mass) for peaks corresponding to active site peptides with diethylphosphoryl and monoethylphosphoryl adducts on BChE were 136.1+/-0.1 and 108.0+/-0.1Da, respectively. Corresponding mass shifts for dibutylphosphoryl and monobutylphosphoryl adducts on NEST were 191.8+/-0.2 and 135.5+/-0.1Da, respectively. Each of these values was statistically identical to the theoretical mass shift for each dialkylphosphoryl and monoalkylphosphoryl species. The MS results demonstrate that inhibition of BChE and NEST by FAPs yields dialkylphosphoryl and monoalkylphosphoryl adducts, consistent with phosphorylation via P-C bond cleavage and aging by net dealkylation. Taken together, predictions from enzyme kinetics, chemical reactivity, X-ray crystallography, and molecular modeling were confirmed by MS and support the hypothesis that FAPs inhibit serine esterases via scission of the P-C bond.
...
PMID:Kinetics and mechanism of inhibition of serine esterases by fluorinated aminophosphonates. 2003 29
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