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Query: EC:3.1.1.7 (
acetylcholinesterase
)
28,390
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Rats were administered the organophosphorus insecticide acephate at 1.0 or 10.0 mg/kg.day for 15 weeks. Blood and brain samples were collected at the end of the treatment and analyzed for
cholinesterase
,
acetylcholinesterase
, and
glutamic acid decarboxylase
activities and catecholamine and amino acid levels. No significant inhibition in the activity of brain AChE was noted at doses of 1.0 or 10.0 mg/kg.day. Low levels of acephate exposure (1.0 mg/kg.day), which did not alter plasma
cholinesterase
or RBC
acetylcholinesterase
activity levels, resulted in a significant elevation of plasma epinephrine and norepinephrine levels. Decreased GABA, dopamine, and tyrosine levels and
glutamic acid decarboxylase
activity were observed in brains of these rats. Similar changes occurred in rats exposed to 10 mg of acephate/kg.day; however, plasma
cholinesterase
and RBC
acetylcholinesterase
activities were inhibited. These observations suggest that chronic exposure to acephate altered the activity of the noncholinergic system without altering the cholinergic activity, and that low-level chronic exposure to organophosphorous compounds cannot be predicted by measuring the ChE or AChE enzyme activities.
...
PMID:Neurotoxic effects of low-level chronic acephate exposure in rats. 360 37
The brains of seizure-sensitive (SS) and seizure-resistant (SR) gerbils were studied with an immunocytochemical method to localize
glutamic acid decarboxylase
(
GAD
) to determine whether a defect existed in the inhibitory GABAergic system similar to that which has been reported in animal models of focal epilepsy in which GABAergic cell bodies and terminals are decreased in number. A major difference between the two strains of gerbils was found in the number of GABAergic neurons in the hippocampal formation. Specifically, a paradoxical increase occurred in the number of glutamate decarboxylase
GAD
-immunoreactive neurons: there were approximately 65% more GABAergic cells within the dentate gyrus and the CA3 region of the hippocampus in the SS gerbils. Furthermore, the density of
GAD
-immunoreactive puncta, the light microscopic correlates of synaptic boutons, was greater in the SS animals. Other histological methods were used to determine if the difference between SS and SR gerbils was specific for the GABAergic system. Nissl-stained preparations showed that the number of granule cells in the dentate gyrus was 20% greater in SS gerbils than in SR gerbils. An examination of some hippocampal afferents, efferents, and intrinsic connections with
acetylcholinesterase
histochemistry and the Timm's stain for heavy metals demonstrated no differences between the two strains. In addition, Golgi-stained preparations of the dentate gyrus indicated that the morphology of basket cells did not differ between the two strains nor between the gerbil and the rat. Several brain regions in addition to the hippocampus were studied to determine whether or not the increased number of
GAD
-immunoreactive neurons was specific for the hippocampal formation. These regions included the substantia nigra, motor cortex, and nucleus reticularis thalami and were selected because they contain large populations of GABAergic neurons and have been implicated in seizure activity. No differences between the two strains were detected in any of these regions. Therefore, a major morphological difference between the brains of SS and SR gerbils exists in the hippocampal formation of SS gerbils in which an increase occurs in the number of GABAergic neurons and granule cells. If these additional inhibitory neurons act mainly to inhibit other inhibitory neurons, the net effect would be increased disinhibition of the principal excitatory neurons of the hippocampal formation. This could lead to seizure activity within the hippocampal formation and at distant sites through multiple synaptic connections.
...
PMID:Hippocampus of the seizure-sensitive gerbil is a specific site for anatomical changes in the GABAergic system. 361 18
The neuronal properties of separate dissociated cell cultures of dorsal and ventral halves of the embryonic mouse spinal cord (E 13.5) were investigated. Ventral-half cultures grew on a variety of substrates and in a variety of media; dorsal-half cultures required a non-neuronal feeder layer and supplemented medium for survival. The two types of cultures differed in their morphological and biochemical properties. Ventral-half neurons remained well separated on the culture plate, whereas dorsal-half neurons tended to aggregate. Lucifer yellow fills showed that ventral-half neurons were substantially larger and had more processes than dorsal-half neurons. Because of the large size and good separation of the neurons, ventral-half cultures provide an especially attractive system for electrophysiologic and morphologic studies. Ventral-half cultures were highly enriched for choline acetyltransferase (ChAT) activity and had more neurons that stained for intracellular
acetylcholinesterase
(
AChE
); dorsal-half cultures were enriched for
glutamic acid decarboxylase
(
GAD
) activity, and high-affinity gamma-aminobutyric acid (GABA) uptake. The clear differences between the two cultures indicate that many morphological and biochemical properties are already specified on embryonic day 13.5.
...
PMID:Morphological and biochemical differences expressed in separate dissociated cell cultures of dorsal and ventral halves of the mouse spinal cord. 367 64
C57BL/6J mice, age 6-8 weeks were inoculated intracerebrally with brain homogenate from mice previously infected with the 139A strain of scrapie; control mice were identically treated with brain homogenate from non-infected normal mice. The activities of choline acetyltransferase (CAT), acetyl
cholinesterase
(AChE), and
glutamic acid decarboxylase
(
GAD
) were determined in the forebrain and hindbrain of these animals after 67, 126 and 151 days post-inoculation. There were no significant differences in the activities of CAT and
GAD
between scrapie and control mice at early, middle or late stages of the disease in the scrapie-infected animals; there was an about 20% decline in AChE activity in the scrapie brain.
...
PMID:Brain glutamate decarboxylase and cholinergic enzyme activities in scrapie. 403 59
The activity of choline acetyltransferase is over twice as high in the hippocampus of Wistar Kyoto (WKY) than in Brown Norway (BN) rats, and this is paralleled by a comparable difference in
acetylcholinesterase
staining intensity within the hippocampal formation. However, the size of the whole hippocampus is smaller in WKY than in BN rats. There are no strain differences in the activities of the neurotransmitter-synthesizing enzymes: tyrosine hydroxylase in the septum and
glutamic acid decarboxylase
in the hippocampus. The findings indicate the existence of strain-dependent inverse relationship between the septo-hippocampal cholinergic system and the size of the hippocampus.
...
PMID:Stain-dependent differences between the septo-hippocampal cholinergic system and hippocampal size. 611 23
Immunocytochemical evidence is presented for the existence of choline acetyltransferase (ChoAcTase), cysteine sulfinic acid decarboxylase (CSADCase), tyrosine hydroxylase (TyrOHase), and
glutamic acid decarboxylase
(GluDCase) in large motor neurons of the hypoglossal nucleus and the spinal cord and in nerve terminals of motor end plates in tongue and skeletal muscle of five mammalian species, including man. These enzymes, which are responsible for the synthesis of acetylcholine (AcCho), taurine, dopamine, and gamma-aminobutyrate (GABA), respectively, were detected by immunocytochemical studies with monoclonal or polyclonal antibodies raised against the enzymes. Electron microscopy of the neuromuscular junctions showed that the immunoreactivity in each case was confined to the cytoplasmic matrix of presynaptic nerve terminals. Immunoreactivity obtained for each enzyme antibody varied with the species. It was highest in fresh, unfixed muscle and lowest in aldehyde-fixed specimens. Negative controls were obtained with preimmune sera and antisera preabsorbed with pure ChoAcTase, CSADCase, or GluDCase antigen. Double-labeling studies with ChoAcTase antibodies and
acetylcholinesterase
(AcChoEase) antibodies, AcChoEase enzyme activity, or alpha-bungarotoxin binding indicated that ChoAcTase, AcChoEase, and AcCho receptors were colocalized at the same end plates.
...
PMID:Synthesizing enzymes for four neuroactive substances in motor neurons and neuromuscular junctions: light and electron microscopic immunocytochemistry. 612 35
Several markers of chick neuroretinal differentiation were monitored in vivo and in culture. All increase markedly between 7 and 20 days of embryonic development in vivo. In vitro, endogenous GABA levels decrease almost immediately, while other neuronal markers increase as in vivo for 2 to 5 days before declining (choline acetyltransferase, acetyl
cholinesterase
,
glutamic acid decarboxylase
). Neuronal cell surface markers (binding sites for tetanus toxin, alpha-bungarotoxin, muscimol), however, reach maximal levels only after 8 days in vitro. Glial markers such as carbonic anhydrase and hydrocortisone-induced glutamine synthetase activities are also expressed only transiently in culture.
...
PMID:Expression of differentiation markers by chick embryo neuroretinal cells in vivo and in culture. 614 Feb 94
The effects of chronic and life-span (i.e. over 2 years) treatment with manganese (1 mg MnCl2.4H2O per ml of drinking water) on a number of neurochemical parameters were studied. In development Mn-treatment led to transient but age-dependent decreases in synaptosomal dopamine uptake in hypothalamus, striatum and mid-brain and decreases in synaptosomal choline uptake in hypothalamus but increase in synaptosomal choline uptake in striatum. However, synaptosomal noradrenaline and serotonin uptake in these brain regions remained unaltered. Mn-treatment in development led to small decreases in choline acetyltransferase activities in cerebellum and mid-brain of 2 month old rats but did not affect the regional distribution of
glutamic acid decarboxylase
or
acetylcholinesterase
. The same treatment did not alter regional distribution of NAD-linked isocitric dehydrogenase although treatment with a high dose (10 mg MnCl2.4H2O per ml) resulted in transient but age-dependent decreases in the activities of this enzyme but not those of glucose-6-phosphate dehydrogenase in cerebral cortex and mid-brain. Lifespan Mn-treatment (1 mg MnCl2.4H2O per ml) exerted antagonistic effects on the age-related changes in activities of several enzymes. These results suggest that chronic Mn toxicity selectively affects several neurochemical paradigms and the long-term effects of Mn toxicity on brain development and aging are different.
...
PMID:Differences in the neurotoxic effects of manganese during development and aging: some observations on brain regional neurotransmitter and non-neurotransmitter metabolism in a developmental rat model of chronic manganese encephalopathy. 614 83
The organization of the interpeduncular nucleus (IPN) in the adult rat was analyzed using cytoarchitectonic, histochemical and immunohistochemical methods. Four paired and four unpaired subnuclei can be distinguished in the IPN on the basis of neuronal size, morphology, staining characteristics and packing density. The rostral portion of the IPN contains a rostral dorsal, a rostral ventral and paired rostral lateral and dorsal lateral nuclei. The dorsal lateral nuclei continue into the caudal IPN, which also contains a caudal dorsal, a caudal ventral and paired caudal lateral nuclei. The distribution of extrinsic afferents and of chemically identified intrinsic neuronal and fiber populations within subdivisions of the IPN was examined using immunohistochemistry,
acetylcholinesterase
histochemistry, catecholamine histofluorescence and the autoradiographic tracing method. Six immunohistochemically distinct neuronal groups are identified in the IPN. Perikarya and axons showing substance P-, leu-enkephalin-, somatostatin-, avian pancreatic polypeptide-, serotonin- and
glutamic acid decarboxylase
-like immunoreactivity are localized to specific IPN subnuclei. Acetylcholinesterase-positive staining, extrinsic norepinephrine-containing fibers and afferents from the dorsal tegmental nuclei are also distributed specifically to IPN subnuclei. These findings demonstrate a cytoarchitectonic and cytochemical complexity in the rat IPN that implies an important functional role for this poorly understood nuclear complex.
...
PMID:Interpeduncular nucleus organization in the rat: cytoarchitecture and histochemical analysis. 614 33
Colchicine, injected bilaterally into the forebrain of day-old chicks at times before and after one-trial avoidance learning, produced transient amnesia for one to three hours after learning, that could not be accounted for as a perceptual or attentional defect. The amnesia was dose dependent and was produced only when injections occurred within a limited period before and after learning. No amnesia occurred when injections were given 120 min before or 60 min later than the learning trial, nor at times prior to the retrieval test. During the amnesic period, new learning could occur and be retrieved 15 min later. The amnesia could be overcome by retention-testing or by a new, related, learning experience before or up to 30 min after onset of amnesia. Control birds injected with saline or lumicolchicine, a biologically inactive derivative of colchicine, showed normal retention. Vinblastine sulphate, which also interrupts microtubular networks and hence axonal flow, had no amnesic properties. Colchicine injections had no effect on the levels of
acetylcholinesterase
, choline acetyltransferase,
glutamic acid decarboxylase
, and muscarinic acetylcholine receptors in the whole forebrain or in forebrain synaptosomes during the amnesic period. Nor did colchicine injections affect amino acid uptake and protein or glycoprotein synthesis before or during the amnesic period, although there was 10-20% inhibition of protein synthesis 5 h after injection. Thus over the amnesic period, there was no evidence of gross perturbation of brain function. Electron microscopy showed microtubules intact within 1 mm of the injection site 2.5 after injection. Oedema was found at this time in chicks injected with a high dose (100 micrograms) shown to disturb behaviour grossly, but not with a low dose (5 micrograms) which caused amnesia. Transient amnesia for one-trial avoidance learning is most probably caused by secondary effects of colchicine on nerve cell function. We suggest that the amnesic episode represents destruction of one of the stages of a multiple independent parallel process of memory consolidation.
...
PMID:The effects of colchicine and vinblastine on memory in chicks. 616 77
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