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Query: EC:3.1.1.8 (
cholinesterase
)
12,691
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
In adult rats, neurons displaying histochemical staining for 'non-specific'
cholinesterase
(ChE) are found 3 distinct regions of the dorsal thalamus: the thalamic reuniens nucleus (Re), the anterior dorsal nucleus (AD), and a region that includes the lateral part of the central lateral nucleus (CL) and the ventral portion of the lateral dorsal nucleus (LD). Normal development of ChE-positive neurons was studied with
cholinesterase
histochemical techniques in postnatal infant rats. Although ChE staining of capillary endothelium is detectable shortly after birth, ChE staining of neurons first occurs at about postnatal day 5 (
PND
5) with light staining of AD and CL-LD. At
PND
7, staining in AD and CL-LD has increased in intensity and staining also is present in neurons of the anterior ventral (AV) and ventral anterior (VA) nuclei. ChE staining of neurons in Re first appears at
PND
10. The number of neurons staining for ChE in each of these nuclei, and also the intensity of staining in individual neurons, appear to increase during the next several days until about
PND
14. After
PND
14, ChE staining intensity in neurons of AD, Re, and CL-LD appears to plateau and the pattern of staining continues into adulthood. In contrast, ChE staining of neurons in VA declines markedly and only a very few neurons in the dorsal part of VA remain ChE-positive after
PND
21. ChE staining of neuropil in AV increases markedly, obscuring somatal staining in this nucleus. These results are discussed in regard to transient and continued expression of ChE activity in the dorsal thalamus and possible functional roles of ChE.
...
PMID:Development of 'non-specific' cholinesterase-containing neurons in the dorsal thalamus of the rat. 340 7
Young rats have been shown in several laboratories to be more sensitive to the neurotoxic effects of acute exposure to chlorpyrifos. To examine the neurobehavioral effects of chlorpyrifos as a function of age and dose, we conducted dose-response and time-course assessments in rats of three different ages (postnatal day, or
PND
, 17, 27, and adults). Doses were selected to span the effective dose range in each age group: PND17 - 4, 10, 20 mg/kg; PND27 - 10, 25, 50 mg/kg; adult - 10, 50, 100 mg/kg. Rats were tested at the time of peak effect on the day of dosing, and again at 1 and 3 days, and at 1 and 2 weeks after a single oral dose. There were age- and sex-related differences in the recovery of these behavioral effects; the adult males recovered from the behavioral effects more quickly than the other age groups, and the adult females showed the slowest recovery (up to at least 3 days). Although these doses had been shown previously to produce a similar degree of
cholinesterase
inhibition, the neurobehavioral alterations fell into the following three patterns of effect as a function of age. (1) Some endpoints (e.g., gait abnormalities, tremor) showed a dose-response curve that was shifted to the right in the older animals. Calculated ED50 values indicated that the PND17 rats were three- to five-fold more sensitive than the adults. (2) Some measures showed less effect in the youngest rats; for example, maximal motor activity decreases were half as great as with adults. (3) A few effects that were typically observed in adults, e.g., salivation, were not seen at all in the PND17 rats. Thus, differential responses on these neurobehavioral endpoints were observed as a function of age. These data suggest that, for some endpoints, young rats are more sensitive to a range of chlorpyrifos doses; however, the magnitude of age-related differences depends on the specific endpoint and time of assessment, as well as age and sex of the test subject.
...
PMID:Dose-response and time-course of neurobehavioral changes following oral chlorpyrifos in rats of different ages. 1110 64
Dimethyl phosphorylated
cholinesterase
(ChE) is known to be more rapidly reactivated, spontaneously, and have a higher aging rate than diethyl phosphorylated ChE. This may result in differences in toxic signs and tolerance development after treatment of juvenile rats with methyl parathion (MPS), a dimethyl phosphorothionate, than after treatment with chlorpyrifos (CPS), a diethyl phosphorothionate. The effects of repeated MPS exposures on brain ChE activity and surface and total muscarinic acetylcholine receptor (mAChR) density were studied in postnatal rats gavaged daily from postnatal day 1 (PND1) through
PND
21. Results of this study were compared to our recent report with CPS (Tang et al., 1999, Toxicol. Sci. 51, 265-272). Rats received MPS daily starting at 0.3 mg/kg and increasing gradually to 0.6 mg/kg (for the medium-dosage groups) and then to 0.9 mg/kg (for the high-dosage group). ChE activity was assayed in brain homogenates. Synaptosomal mAChR densities, surface, and total were assayed using 3H-N-methylscopolamine (NMS) and 3H-quinuclidinyl benzilate (QNB), respectively, as ligands. Developmental increases in brain ChE activities and mAChR densities were observed from
PND
6 through
PND
22. On
PND
22, inhibition of ChE activity was observed in the low (26%)-, medium (42%)-, and high (55%)-dosage groups. Significant inhibition was still present on
PND
30 (16-24%) and
PND
40 (12-14%), which were 9 and 19 days after the last treatment, respectively. Densities of 3H-NMS and 3H-QNB binding sites in treated groups were significantly reduced by
PND
22, 1 day following cessation of treatment, and were significantly increased during the recovery period. After MPS exposure, the initial recovery of phosphorylated ChE was more rapid and the density of 3H-NMS binding sites was less readily reduced than following CPS exposure. The lesser effects on surface mAChR may explain why more severe signs appeared after each treatment with the high dosage of MPS than were observed previously with CPS, indicating little or no tolerance had developed to MPS.
...
PMID:The effects of repeated oral exposures to methyl parathion on rat brain cholinesterase and muscarinic receptors during postnatal development. 1451 56
Chlorpyrifos (CPS) is a widely used diethyl organophosphorus insecticide in agricultural settings. Household and urinary residue analysis has suggested that children in agricultural communities are at risk of exposure to diethyl organophosphorus insecticides. The effects of repeated postnatal exposure to CPS and its metabolite chlorpyrifos-oxon (CPO) on total muscarinic acetylcholine receptor (mAChR) binding, nerve growth factor (NGF) levels, and brain derived neurotrophic factor (BDNF) levels in the forebrain of neonatal rats were investigated. Peak inhibition of brain
cholinesterase
(ChE) for CPS and CPO was determined after acute exposure to dosages of each compound (a low and a high for each), which produced similar degrees of initial ChE inhibition. Pups were administered CPS (1.5 or 3.0 mg/kg), CPO (0.25 or 0.35 mg/kg), or the corn oil vehicle by daily gavage from postnatal day 1 (
PND
1) through
PND
6. This exposure paradigm resulted in persistent ChE inhibition by CPS but only transient inhibition by CPO, suggesting that, even though the initial ChE inhibition is similar between compounds, the effects of repeated exposure differ significantly. Forebrain mAChR density, as measured by the binding of 3H-QNB, and NGF levels were significantly reduced on
PND
4 and 7 after CPS but not on
PND
12. No effects on mAChR density or NGF levels were observed with CPO. No effects on BDNF levels were observed with either compound. The data suggest that the persistent ChE inhibition and decreased mAChR binding may play a role in the decreased NGF levels following CPS exposure.
...
PMID:The effect of chlorpyrifos and chlorpyrifos-oxon on brain cholinesterase, muscarinic receptor binding, and neurotrophin levels in rats following early postnatal exposure. 1460 Feb 85
The organophosphate pesticides exhibit their action by inhibiting acetylcholinesterase (AChE) enzyme in central and peripheral nervous system. They are known to affect the young animals to a greater extent, as their developing brain is more susceptible to their toxic effects. Besides inactivating acetylcholine at synaptic terminals AChE also plays an important role in neuronal growth and differentiation. A reduction in AChE activity in plasma has no known physiological function in causing brain or tissue damage, but if a good correlation between brain and plasma AChE inhibition exists, then circulating plasma AChE can be used as a reliable marker for detection of
cholinesterase
inhibitors. Therefore, the present investigation was designed to differentiate age and gender related neurotoxicity of an organophosphate pesticide-triazophos and to explore whether plasma AChE can serve as a biomarker of its neurotoxicity in young, i.e. post natal days 20 (
PND
20) and adult rats i.e. post natal days 90 (
PND
90) after single intraperitoneal administration in different doses.
...
PMID:Plasma acetylcholinesterase as a biomarker of triazophos neurotoxicity in young and adult rats. 2178 14
Studies incorporating both toxicokinetic and dynamic factors provide insight into chemical sensitivity differences across the life span. Tissue (brain, plasma, liver) levels of the N-methyl carbamate carbaryl, and its metabolite 1-naphthol, were determined and related to brain and RBC
cholinesterase
(ChE) inhibition in the same animals. Dose-response (3, 7.5, 15, or 22.5 mg/kg, 40-45 min postdosing) and time course (3 or 15 mg/kg at 30, 60, 120, or 240 min postdosing) of acute effects of carbaryl (oral gavage) in preweanling (postnatal day [
PND
] 18) and adult male Brown Norway rats from adolescence to senescence (1, 4, 12, 24 mo) were compared. At all ages there were dose-related increases in carbaryl and 1-naphthol in the dose-response study, and the time-course study showed highest carbaryl levels at 30 min postdosing. There were, however, age-related differences in that the 1- and 4-mo rats showed the lowest levels of carbaryl and 1-naphthol, and PND18 and 24-mo rats had similar, higher levels. The fastest clearance (shortest half-lives) was observed in 1- and 4-mo rats. Carbaryl levels were generally higher than 1-naphthol in brain and plasma, but in liver, 1-naphthol levels were similar to or greater than carbaryl. Brain ChE inhibition closely tracked brain carbaryl concentrations regardless of the time after dosing, but there was more variability in the relationship between RBC ChE and plasma carbaryl levels. Within-subject analyses suggested somewhat more brain ChE inhibition at lower carbaryl levels only in the PND18 rats. These findings may reflect maturation followed by decline in kinetic factors over the life span.
...
PMID:Carbaryl and 1-naphthol tissue levels and related cholinesterase inhibition in male Brown Norway rats from preweaning to senescence. 2427 16
Factors impacting life stage-specific sensitivity to chemicals include toxicokinetic and toxicodynamic changes. To evaluate age-related differences in the biochemical and behavioral impacts of two typical N-methyl carbamate pesticides, we systematically compared their dose-response and time-course in preweanling (postnatal day,
PND
, 18) and adult male Brown Norway rats (n=9-10/dose or time) ranging from adolescence to senescence (1, 4, 12, 24 mo). Carbaryl was administered orally at 3, 7.5, 15, or 22.5mg/kg and data were collected at 40 min after dosing, or else given at 3 or 15 mg/kg and data collected at 30, 60, 120, and 240 min. Methomyl was studied only in adult and senescent rat (4, 12, 24 mo) in terms of dose-response (0.25. 0.6, 1.25, 2.5mg/kg) and time-course (1.25mg/kg at 30, 60, 120, 240 min). Motor activity as well as brain and erythrocyte (RBC)
cholinesterase
(ChE) activity were measured in the same animals. In the carbaryl dose-response, PND18 rats were the most sensitive to the brain ChE-inhibiting effects of carbaryl, but 12- and 24-mo rats showed more motor activity depression even at similar levels of brain ChE inhibition. We have previously reported that brain ChE inhibition, but not motor activity effects, closely tracked carbaryl tissue levels. There were no age-related differences in methomyl-induced ChE inhibition across doses, but greater motor activity depression was again observed in the 12- and 24-mo rats. Carbaryl time-course data showed that motor activity depression reached a maximum later, and recovered slower, in the 12- and 24-mo rats compared to the younger ages; slowest recovery and maximal effects were seen in the 24-mo rats. Acetylcholinesterase sensitivity (concentration-inhibition curves) was measured in vitro using control tissues from each age. Inhibitory concentrations of carbaryl were somewhat lower in PND18, 12-, and 24-mo tissues compared to 1- and 4-mo, but there were no differences with methomyl-treated tissues. Thus, in the dose-response and time-course, there were dissociations between brain ChE inhibition and the magnitude as well as recovery of motor activity changes. The explanation for this dissociation is unclear, and is likely due to early development followed by aging-related decline in both kinetic parameters and neurological responsiveness.
...
PMID:Assessment of biochemical and behavioral effects of carbaryl and methomyl in Brown-Norway rats from preweaning to senescence. 2570 86
