EC:3.1.1.7 - FACTA Search

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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)

A reduction in the number of acetylcholinesterase (AChE)-positive neurons in the basal nucleus of Meynert complex (NbM, Ch 1 to Ch4) to 83% of control values was observed in rat after ethanol intake (20% v/v) for 12 weeks. Activity of choline acetyltransferase (ChAT) and AChE in the basal forebrain was simultaneously reduced to 74% and 81% and content of acetylcholine (ACh) to 56% of control values respectively. Neuronal loss showed a gradient over the rostro-caudal extension of the cholinergic projection system being most pronounced in the septal-diagonal band area and reaching 27% in the medial septum (Ch1). Number of AChE-positive neurons was insignificantly reduced in the pedunculopontine nucleus (Ch5) and unchanged in the laterodorsal tegmental gray of the periventricular area (Ch6). ACh content and activity of AChE was significantly reduced in target areas of the NbM such as cortex, hippocampus and amygdala, but changes were less pronounced than in the basal nucleus. The results indicate a neurotoxic effect of prolonged intake of ethanol on cholinergic neurons in the NbM leading to a partial cholinergic denervation of cortex, hippocampus and amygdala. Chronic intake of ethanol in rat is suggested to represent an animal model suitable to test the cholinergic hypothesis of geriatric memory dysfunction and to develop strategies for an amelioration of the impairment in memory and cognitive function in dementing disorders associated with a degeneration in the NbM such as postalcoholic dementia and Alzheimer's disease.
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PMID:Loss of neurons in the rat basal forebrain cholinergic projection system after prolonged intake of ethanol. 285 95

Neuronal depolarization and culture media conditioned by certain nonneuronal cells (CM) are known to exert opposite effects on the expression of cholinergic and noradrenergic traits in cultured rat sympathetic neurons. We have compared their effects on the developments of choline acetyltransferase (CAT), tyrosine hydroxylase (TOH), dopa decarboxylase (AADC) and acetylcholinesterase (AcChE) in these cultures. A macromolecular factor which was partially purified from CM increased CAT development in a dose-dependent manner and depressed the development of TOH and AADC by 5- to 10-fold. In the presence of intermediate concentrations of this partially purified factor, both CAT and catecholamine synthesizing enzymes developed to high levels, whereas high concentrations caused a long-lasting, but not total, impairment of TOH development. The effects of CM on both CAT and AADC activities resulted from variations in the number of immunotitratable enzyme molecules. Conversely, K+ ions (30-40 mM) depressed the development of CAT by 90% and stimulated TOH development 2.5-fold. Cultures grown with CM in high K+ medium had similar CAT and TOH activities as compared to those cultures grown without CM in low K+ medium suggesting that CM and K+ ions had antagonistic effects on the expression of these enzymes. However, K+ ions did not affect the development of AADC in these cultures. CM suppressed in a reversible manner the development of the 16 S form of AcChE. In the presence of 40 mM K+, the rate of development of AcChE was reduced. In particular, the development of 16 S AcChE was strikingly impaired, although not totally suppressed. The effect of elevated K+ ions on the percentage of 16 S AcChE was rapidly reversible. It is concluded that CM and elevated K+ ions have antagonistic effects on CAT and TOH, but not on AADC development; AcChE, in particular its asymmetric 16 S form, is regulated independently of the cholinergic/noradrenergic status of sympathetic neurons.
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PMID:Comparison of the effects of elevated K+ ions and muscle-conditioned medium on the neurotransmitter phenotype of cultured sympathetic neurons. 288 54

Quinolinic acid, a metabolite of tryptophan, behaves as an excitotoxic amino acid. It has been proposed that quinolinic acid might be implicated in neurodegenerative diseases. The related metabolite, kynurenic acid, has been found to be a powerful antagonist of quinolinic acid. The ability of quinolinic acid, alone or in combination with kynurenic acid, to destroy cholinergic neurons projecting to the cortex was examined by morphological and biochemical criteria. The compounds were injected unilaterally into the nbm of the rat. Neuronal destruction of the basal forebrain occurred with quinolinic acid alone; however, no cell loss was observed when kynurenic and quinolinic acid were co-injected. Quinolinic acid lesions of the nucleus basalis caused significant decreases in cortical choline acetyltransferase, acetylcholinesterase, high affinity choline uptake and 3H-acetylcholine release. These reductions in cortical cholinergic markers were prevented by co-injecting kynurenic with quinolinic acid. A significant decrease in cortical choline acetyltransferase activity was observed three months following quinolinic acid lesions of the nucleus basalis. The results indicate that quinolinic acid can be used as an endogenous neurotoxin to produce lesions of the nbm resulting in impaired cortical cholinergic function similar to that seen in Alzheimer's disease.
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PMID:Quinolinic acid neurotoxicity in the nucleus basalis antagonized by kynurenic acid. 293 45

Neuronal membrane enzyme activities were determined in naive and ethanol-treated (30 min after 2 g/kg) male and female rats of lines developed for more (ANT) and less (AT) ethanol-induced motor impairment. Ethanol did not affect acetylcholinesterase, (Na+K)-ATPase or 5'-nucleotidase activities, but adenylate cyclase activities were lowered in both cerebellum and cerebrum. Cerebral acetylcholinesterase activities were higher in ANT than AT rats. No consistent line difference was observed regarding (Na+K)-ATPase activities. Slightly higher cerebellar 5'-nucleotidase activities were found in the ANT line. Cerebellar adenylate cyclase levels were substantially higher in the AT line. No line differences were displayed in the activation of adenylate cyclase activity by dopamine or norepinephrine. It is concluded that ethanol in vivo may inhibit neuronal adenylate cyclase activity and that cerebellar phosphorylation may be a regulator of motor impairment. Cholinergic mechanisms may also be connected to the ethanol-induced motor impairment.
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PMID:Neuronal membrane enzymes in rat lines selected for differential motor impairment by ethanol. 301 92

Dissociated cerebral hemisphere cells from 4- to 7-day-old chick embryos were cultured either on a collagen or a polylysine substrate in a serum-containing medium. Neurons were characterized by the demonstration of acetylcholinesterase, the presence of D2/N-CAM glycoprotein and neurofilament proteins. The proliferation of neuronal precursor cells was shown by morphological observations, autoradiographic analysis and measurements of [3H]-thymidine incorporation. Neuronal precursors derived from the 6-day-old embryos showed the highest proliferative activity. Neuroblast proliferation was found to be dependent on the culture substrates (i.e. polylysine or collagen), which yielded either isolated cells or cell aggregates, and the latter favored the mitogenic effect.
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PMID:Comparison of the proliferative activity of neuroblasts from chick embryo cerebral hemispheres of different ages in culture. 314 57

Luteinizing hormone-releasing hormone immunoreactivity was studied in the olfactory system of the rat in combination with acetylcholinesterase histochemistry. Neuronal perikarya containing luteinizing hormone-releasing hormone lie in the medial septal nucleus, the vertical limb of the diagonal band of Broca, the olfactory tubercule and the ganglionated plexus of the terminal nerve. Labelled fibres spread in the superficial layers of the main and accessory olfactory bulbs, some encompassing the strongly acetylcholinesterase-positive atypical glomeruli. Others are observed on the medial side of the bulb, running along the terminal nerve bundles and ganglia. These fibres join the vomeronasal nerve branches and proceed distally towards the nasal cavity. In the septal submucosa, immunoreactive fibres are partly associated with the terminal nerve network. Conspicuous endings filled with luteinizing hormone-releasing hormone are observed on blood vessels of the olfactory mucosa. Such well-differentiated terminals might be the neurosecretory afferents of a new neurohemal area. Immunoreactive terminals are also observed around the excretory ducts of the anterior medial glands. We have failed to observe any labelled fibres in the olfactory and vomeronasal epithelia. The results of the present study are discussed with respect to possible functional interpretations. It is suggested that significant amounts of luteinizing hormone-releasing hormone could be released in the submucosal capillaries in spite of the scarcity of immunoreactive fibres. Similar afferents could also modulate the secretory activity of some nasal glands. Synaptic events involving the neuropeptide might occur in the olfactory bulb, particularly in atypical glomerular areas previously characterized by their high acetylcholinesterase content. Finally, no anatomical support for a chemosensory function of fibres containing luteinizing hormone-releasing hormone has been brought out by our work.
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PMID:Immunocytochemical identification of luteinizing hormone-releasing hormone-positive fibres and terminals in the olfactory system of the rat. 328 98

Centrifugal projections from the brain to the cochlea have been well described in rodents and cats. In order to gain a better understanding of the general mammalian features of this efferent projection system--the olivocochlear (OC) system--we have begun to extend its description to other mammalian orders, particularly primates. This report describes the origin, cellular morphology, and cholinergic nature of OC neurons in squirrel monkey. Olivocochlear neurons were identified after cochlear injection and subsequent retrograde transport of one of the tracers, horseradish peroxidase, True Blue, or Diamidino Yellow. One series of sections was processed to demonstrate the tracer and an adjacent series was processed to demonstrate acetylcholinesterase (AChE). In some cases, a series of sections was immunohistochemically processed to identify the presence of choline acetyltransferase (CAT), the synthesizing enzyme for acetylcholine. Approximately 1,700-1,800 OC neurons were contained in five distinct regions surrounding the major nuclei of the superior olivary complex (SOC), namely: dorsal to medial superior olive (MSO); between MSO and lateral superior olive (LSO); lateral to LSO; medial to SOC; and in the ventral nucleus of the trapezoid body (VTB). These neurons were larger in the regions dorsal to MSO, lateral to LSO, and within VTB; they tended to be smaller in the regions between MSO and LSO and medial to SOC. Neuronal shapes varied among regions and included oval, elongate, round, and multipolar cells. In further support of their cholinergic nature as implied by AChE reactivity, OC neurons also stained positively for the cholinergic marker, CAT.
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PMID:Olivocochlear neurons in the squirrel monkey brainstem. 354 42

Acetylcholinesterase-containing neurons were investigated in primary cultures of cerebral cortex. Neuronal cholinesterase staining was essentially totally attributable to acetylcholinesterase based on its pattern of sensitivity to pharmacological inhibitors. The mean percentage of stained neurons in the cultures was 2.17. Stained neurons of all morphologies were detected: however, the majority of the cells possessed bipolar morphology. The stained bipolar neurons were not a homogeneous morphological population.
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PMID:Morphology of acetylcholinesterase-containing neurons in primary cultures of dissociated rat cerebral cortex. 408 6

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.
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PMID:Expression of differentiation markers by chick embryo neuroretinal cells in vivo and in culture. 614 Feb 94

Using interspecific grafting of neural crest between quail and chick embryos, it was determined that the cardiac ganglia originate from the cranial region (somites 1-2) of the vagal neural crest (somites 1-7). Neuronal uptake of [3H]choline was used as an index of neuronal development in the chick atrium. Normal uptake was found to be quite high between Days 8 and 14 of incubation. Following extirpation of neural crest over somites 1 to 3 at stages 8 to 10, neuronal uptake in 8-day chick atrium was decreased by 25-60% depending on the stage at which the lesion was performed. It is thought that the residual uptake represents preganglionic terminals from the dorsal motor nucleus of the vagus. Embryos with extirpations of neural crest over somites 1-3 performed at stage 9 showed the greatest decrease of neuronal choline uptake and did not live beyond 11 days of incubation. However, hearts from embryos with partial lesions (performed at stage 10) were treated on incubation Days 12 and 15 for demonstration of acetylcholinesterase in the subepicardial plexus. These hearts showed much less extensive neural plexus with sparse, small cardiac ganglia.
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PMID:Neural crest origin of cardiac ganglion cells in the chick embryo: identification and extirpation. 685 74

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