Gene/Protein Disease Symptom Drug Enzyme Compound
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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)

The purpose of this study was to examine the structural and connective integration of developing hippocampal neurons grafted to ischemic lesions of the adult rat hippocampus. The 4-vessel occlusion model was used to cause transient cerebral ischemia which damages CA1 pyramidal cells in the dorsal hippocampus, but spares nonpyramidal neurons and afferents in the area. One week later, cell suspensions were made from the CA1 region of fetal (E18-20) rats and injected stereotaxically into the lesion. The recipient brains were examined 6 weeks to 6 months later for survival, morphology, and intrinsic and extrinsic connections of the grafts. The methods used included cell stains, histochemical staining for acetylcholinesterase (AChE), immunocytochemical staining for neuropeptides (cholecystokinin (CCK), somatostatin (SS), enkephalin (Enk) and an astrocytic marker, glial fibrillary acidic protein (GFAP), as well as tracing by retrograde axonal transport of fluorochromes and light and electron microscopy of anterograde axonal degeneration. The grafts survived well (80%) and were often quite large. They were well integrated in the lesioned host brain area, contained both pyramidal cells and neuropeptidergic neurons and displayed a near normal GFAP immunoreactivity for astrocytes. The latter contrasted the dense gliosis of the host ischemic lesion. Judged by the AChE staining the grafts were innervated by cholinergic host septohippocampal fibers. Ingrowth of host hippocampal commissural fibers was demonstrated by Fink-Heimer staining for degenerating nerve terminals following acute lesions of the hippocampal commissures. At the ultrastructural level degenerating, electron dense terminals of host commissural origin were found even deep inside the graft neuropil in synaptic contact with mainly dendritic spines. A transplant efferent connection to the host brain was demonstrated by retrograde fluorochrome tracing and consisted of a homotypic projection to more posterior levels of the ipsilateral host CA1 and subiculum. Minor abnormal, efferent projections to the host dentate molecular layer were shown in Timm staining. We conclude that fetal CA1 neurons grafted to one week old ischemic lesions of the dorsal CA1 in adult rats become structurally well incorporated and can establish nerve connections with the host brain.
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PMID:Neural grafting to ischemic lesions of the adult rat hippocampus. 270 27

The effect of scopolamine and a cholinesterase inhibitor on long-term potentiation (LTP) of population spikes was studied in a guinea pig hippocampal slice preparation. After brief application of each drug (10 min), LTP in CA1 and CA3 was induced by tetanus stimulation delivered to commissural/associational fibers and mossy fibers, respectively. Scopolamine at concentration of 10 microM had no effect on LTP in CA1 but significantly suppressed LTP in CA3. The cholinesterase inhibitor, 9-amino-1,2,3,4-tetrahydroacridine-1-ol maleate (HP 029) at concentration of 10 microM significantly enhanced LTP both in CA1 and CA3. These results suggest that the cholinergic system is involved in producing LTP in CA3. Another mechanism of the effect of HP 029 on LTP in CA1 is discussed.
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PMID:Effect of scopolamine and HP 029, a cholinesterase inhibitor, on long-term potentiation in hippocampal slices of the guinea pig. 271 Apr 12

The activity of choline acetyltransferase (ChAT), acetylcholinesterase (AChE), and muscarinic receptors was studied in control rats and in rats growth-retarded in utero because of reduction of the blood supply 5 days before birth. The different markers of the cholinergic system were estimated at P (postnatal day) 6, 9, 12, 15, 22 and 60 in cerebellum, hypothalamus, septum, striatum and CA1, CA3 and fascia dentata of the hippocampus. In control rats, there was a transient increase in ChAT activity in the septum during the second week of postnatal development. In the intrauterine growth retarded rats there was a marked delay in this developmental rise in CA1, CA3 at P6 and P9 and in the fascia dentata at P14 respectively. This delayed rise enzyme activity was associated with a significant reduction of muscarinic binding sites [( 3H]QNB) in the hippocampus. AChE staining showed a similar development in both groups. Therefore, the undernutrition produced by a reduction of the blood supply 5 days before birth is associated with a delayed maturation of cholinergic functions.
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PMID:Development of the cholinergic system in control and intra-uterine growth retarded rat brain. 273 67

The regulation of hippocampal muscarinic M1 and M2 receptors was studied by autoradiographic methods following cholinergic denervation and reinnervation from embryonic septal transplant. In young adult male rats the density of M1 sites, labeled either with 3H-pirenzepine (PZ) or 3H-N-methylscopolamine (NMS, in the presence of excess carbachol), exceeded by 4- to 5-fold the density of M2 sites, labeled with 3H-NMS in the presence of excess PZ. Both receptors appeared to be densest in hippocampal regions lowest in acetylcholinesterase or 3H-hemicholinium-3 binding. The distribution of M1 receptors did differ from the distribution of M2 receptors within subregions of the hippocampus. Along the mediolateral axis from the subiculum to the lateral CA 1, the density of M1 receptors is uniform, but the density of M2 receptors decreases. Also apparent is the relatively small difference in density between the CA1 and dentate gyrus for M1 receptors but a significantly greater difference for M2 receptors. However, the response of M1 and M2 receptors to long-term cholinergic denervation following fimbriafornix transection of the septal cholinergic input and to cholinergic innervation by embryonic septal transplants was similar. Long-term denervation (40-60 d) resulted in a 30-60% increase in both M1 and M2 receptors within regions of the hippocampal formation. Receptor levels were reduced to normal in regions innervated by septal transplants. For both receptors, the changes in the density of sites were due to alterations in the Bmax and not the Kd for the radioligands. The specificity of this regulation is supported by the evidence that (1) the degree and topography of the normalization of muscarinic receptor density was entirely dependent on the degree and pattern of cholinergic reinnervation by the fibers of the septal transplant, (2) cholinergic fiber reinnervation by embryonic striatal grafts also down-regulated the density of M1 and M2 receptors, and (3) successfully surviving transplants (e.g., cerebellar and striatal) that did not provide innervation to the hippocampus did not induce down-regulation of muscarinic receptors. Changes in the density of sites were not related to changes in the width of the hippocampus following denervation and reinnervation. The data support the view that the majority of M1 and M2 receptors are located postsynaptically on neurons within the hippocampus and not presynaptically on cholinergic fibers.
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PMID:Regulation of muscarinic receptors in hippocampus following cholinergic denervation and reinnervation by septal and striatal transplants. 276 66

A monoclonal antibody raised against the receptor for nerve growth factor (NGF) was used to examine the distribution and morphology of NGF receptor-containing neurons within the central nervous system of Cebus apella monkeys. Most somata demonstrating positive immunoreactivity were localized within the Ch1-4 regions of the basal forebrain. Neurons in the Ch1 region displayed morphological features typical of cholinergic medial septal neurons. These perikarya were primarily vertically oriented (40-50 micron along the vertical axis) with both apical and basal neuritic processes. Magnocellular (40-50 micron) neurons within the Ch2 (vertical limb of the diagonal band), Ch3 (horizontal limb of the diagonal band) and Ch4 (nucleus basalis of Meynert) regions were multipolar and had rounded perikarya that often displayed an eccentric nucleus. Fibers presumably originating from the Ch1-2 regions were observed throughout the fimbria-fornix system and were found to terminate preferentially within the CA1 and CA3 regions of the hippocampal formation and within the dentate gyrus of the hippocampus. An intense fiber network was also observed in the olfactory tubercle and other rhinencephalic structures, presumably originating from the Ch3 region of the basal forebrain. Beaded processes emanating from the Ch4 region primarily coursed within the external capsule and terminated preferentially within layers I, II, and IV of the cerebral cortex. In a pattern similar to that of cortical acetylcholinesterase (AChE) staining, NGF receptor immunopositive fibers were oriented in a tangential plane within the molecular layer of the cortex and in both a radial and tangential fashion within the cortical granular cell layers. In addition to neural innervation, there was an extensive vascular apposition by NGF receptor-containing neurites on both large caliber vessels and microcapillaries. NGF receptor immunoreactivity was extensively, but not exclusively, colocalized with choline acetyltransferase (ChAT) and AChE in the basal forebrain. A small population of cholinergic neurons were observed that were not NGF receptor-immunoreactive. Conversely, a few NGF receptor-containing neurons that were noncholinergic were also observed in this brain region. NGF receptor-containing somata were also identified in the putamen. The number of immunoreactive neurons observed in this structure, however, would not appear to be sufficient to account for the homologous NGF receptor binding densities described in rodents.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Nerve growth factor receptor immunoreactivity in the nonhuman primate (Cebus apella): distribution, morphology, and colocalization with cholinergic enzymes. 285 Mar 4

A series of experiments was conducted to characterize the long term behavioural consequences of acute intoxication with trimethyltin (TMT) (5,6,7, mg/kg p.o.). The acute toxicity syndrome, including weight loss, convulsions, irritability and hyper-reactivity was confirmed in treated rats. These symptoms subsided to reveal marked increases in locomotor activity in a novel environment but no lasting effects on consummatory behaviour or sensorimotor integration. Neither two-way active avoidance nor passive avoidance learning were impaired by doses of up to 7 mg/kg p.o. although intertrial activity was elevated in the shuttle box and extinction responding was increased. Place navigation in a water maze was impaired, particularly at the highest dose of TMT (7 mg/kg p.o.) and when a brief training phase (8 trials) was used. Finally, TMT lesioned rats were compared with controls on spatial and non-spatial discrimination tasks. Following 7 mg/kg p.o. TMT rats were highly impaired on the spatial discrimination but not the non-spatial discrimination despite the greater difficulty of the latter task. Histological studies confirmed the pathological effects of TMT in limbic structures, particularly the pyramidal cells of CA1 and CA4, and also revealed increased acetylcholinesterase activity within the molecular layer of the dentate gyrus. The selective, long term behavioural impairments caused by TMT are discussed in the light of their qualitative similarity to the effects of hippocampectomy or hippocampal denervation. TMT lesioned rats may provide a suitable functional model for the partial hippocampal and temporal lobe pathology characteristic of Alzheimer's disease.
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PMID:Selective behavioural impairment after acute intoxication with trimethyltin (TMT) in rats. 339 3

The influence of the excitotoxin kainic acid (KA) on cultivated explants of rat hippocampus was investigated. Addition of 3 microM KA to the culture medium over 24-48 h induced a destruction of the pyramidal cells in the CA3 region, whereas the CA1 pyramidal cells and the granule cells were left undamaged. Higher concentrations (10-100 microM) of KA destroyed also the latter cell groups. The selectivity of the KA lesion at 3 microM was further indicated by the fact that the acetylcholinesterase-positive neurons in the hippocampus were not destroyed through KA administration and that the stereoisomer dihydrokainic acid was ineffective in inducing lesions. Application of tetrodotoxin did not protect the CA3 pyramidal cells from KA lesion, whereas gamma-glutamylaminomethylsulphonic acid (GAMS) only offered a very small, statistically not significant, protection. Baclofen protected the cultures slightly from KA lesions but not when added together with GAMS. Possible mechanisms responsible for the KA lesions in these cultures are discussed.
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PMID:Selective kainic acid lesions in cultured explants of rat hippocampus. 367 9

The actions of cholinomimetics and of physostigmine were tested on two parameters reflecting hippocampal activity, namely theta activity and pyramidal cell excitability. In rats pretreated with methylscopolamine and anaesthetized with urethane i.v. administration of the cholinomimetics oxotremorine and arecoline and the cholinesterase blocker physostigmine evoked theta wave activity in the hippocampus, which was blocked by scopolamine. Spectral analysis demonstrated that the frequency of the theta waves induced was dose-related, ranging from about 3 Hz to between 5 and 6 Hz. theta Activity could not be induced by arecoline in animals with large septal lesions. Pyramidal cell excitability is known to be increased by endogenous acetylcholine released from cholinergic fibres. In the present study, however, i.v. injections of oxotremorine, arecoline and physostigmine in doses that induce theta activity diminished the excitability of CA1 pyramidal cells in a dose-dependent manner, as judged by the reduction in the amplitude of the population spike and the dendritic epsp. These depressant effects were attenuated by scopolamine but not by methylscopolamine. The depressant effect of arecoline was attenuated in rats with extensive lesions in the medial septal area. The present findings demonstrate that exogenously administered cholinomimetics only partly mimic the action of endogenous acetylcholine in the hippocampus. The central sites of action of exogenously administered cholinomimetics for mediation of theta activity and alteration of pyramidal cell excitability remain to be elucidated.
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PMID:Cholinomimetics induce theta rhythm and reduce hippocampal pyramidal cell excitability. 369 42

Cell suspensions from the fetal septal region were injected stereotaxically into the hippocampus of fornix-fimbria-transected adult rats. The host rats were sacrificed up to 3 months after the operation and the hippocampus sliced into 350 microns transverse slices. Intracellular recording was made from CA1 neurons adjacent to the graft. Electrical stimulation of the graft produced a voltage-dependent depolarization in some recorded neurons. This was associated with an increase in spontaneous and anodal break action potential discharges. In addition, a slow after-hyperpolarization (AHP) which typically follows a burst discharge was blocked during the depolarization indicating that the stimulation may block a Ca2+-dependent K+ current. The effects of the stimulation were antagonized by atropine. A response to the stimulation was seen 2 weeks but not 1 week after grafting. Over time, cells that were located away from the graft became activated by the stimulation. This was correlated with the extent of proliferation of acetylcholinesterase-containing fibers around the graft. These results suggest that grafted septal neurons make viable cholinergic connections with a host hippocampus.
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PMID:Transplanted septal neurons make viable cholinergic synapses with a host hippocampus. 400 87

A review of the author's studies of properties and mechanisms of long-term potentiation (LTP) is presented. LTP of field potentials and neuronal responses at hippocampal CA1 and CA3 regions of unanaesthetized rabbit was found. Excitatory and inhibitory post-synaptic potentials increased after tetanization. Microiontophoretic and histochemical studies revealed no appropriate changes in acetylcholine sensitivity or in acetylcholinesterase activity to explain LTP. Quantal analysis of EPSP evoked by microstimulation indicated increase in the number of transmitter quanta released by a presynaptic spike. LTP of field potentials evoked by white matter stimulation at neocortical slices and sensorimotor cortex of unanaesthetized rabbit are described. Changes in short-latency neuronal responses and "indirect" component of pyramidal tract response suggest monosynaptic LTP at neocortex. It is concluded that the main mechanism of both hippocampal and neocortical LTP consists of an increase in efficacy of excitatory synapses. It is suggested that these synapses are used in learning and memory processes.
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PMID:[Synaptic plasticity at the levels of the archicortex and neocortex]. 609 37


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