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)

Basal forebrain cholinergic neurons respond in vitro and in vivo to nerve growth factor (NGF) and to brain-derived neurotrophic factor (BDNF). It is not clear to what extent the neurons that respond to these two factors, or to neurotrophin-3 or -4/5 (NT-3; NT-4/5) are identical or only partially overlapping populations. We have addressed this issue in cultures of basal forebrain neurons derived from 2-week-old postnatal rats, using choline acetyltransferase (ChAT) and acetylcholinesterase (AChE) as cholinergic markers. Cholinergic neuron survival was enhanced in the presence of NGF, BDNF and NT-4/5. NT-4/5 was as effective as BDNF. NT-3 was without effect at this age, although in cultures derived from embryonic forebrain, cholinergic differentiation was induced by NT-3. Cotreatment with NGF and BDNF resulted in small, but consistent increases in the number of ChAT-positive neurons, compared with either factor alone. NT-4/5 was also found to be additive with NGF, whereas cotreatment with BDNF and NT-4/5 showed no additivity. NT-3 had no additive effects with any other neurotrophin on any cholinergic parameters in postnatal cultures. Taken together, the results indicate the existence in postnatal rat brain of a large overlapping population of cholinergic neurons that are responsive to ligands for the neurotrophin receptors TrkA (NGF) and TrkB (BDNF and NT-4/5), but not TrkC (NT-3), and small distinct populations that show specificity for NGF or BDNF but not both. We hypothesize that cholinergic neurons projecting into different regions of the hippocampus may derive trophic support from distinct neurotrophins.
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PMID:Cultured basal forebrain cholinergic neurons from postnatal rats show both overlapping and non-overlapping responses to the neurotrophins. 755 37

In this study, we examined the effects of nerve growth factor (NGF) administration on cholinergic enzyme activity in both normal and ethylcholine mustard aziridinium (AF64A)-treated rats. Choline acetyltransferase (ChAT) and acetylcholinesterase activity were measured in the hippocampus and septum of rats chronically administered NGF (0.36-2.85 micrograms/day) into the lateral ventricle for 14 days. In both normal and AF64A-treated rats, NGF increased cholinergic enzyme activity in a dose-dependent manner. Furthermore, although NGF increased ChAT activity in normal rats by 147%, it had a greater effect in AF64A-treated rats, increasing ChAT activity as much as 273%. NGF increased acetylcholinesterase activity in normal rats by only 125% but produced a 221% increase in this activity in AF64A-treated rats. These data indicate that AF64A produces an increased sensitivity to NGF in cholinergic neurons.
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PMID:Effect of nerve growth factor in ethylcholine mustard aziridinium (AF64A)-treated rats: sensitization of cholinergic enzyme activity in the septohippocampal pathway. 761 46

Ciliary neurotrophic factor is known to exert both survival and differentiative actions on a number of neuronal populations of the peripheral and central nervous systems. In this study we have compared the trophic effects of ciliary neurotrophic factor and nerve growth factor on developing septal neurons of the rat in vitro. Fetal septal neurons were grown in vitro under glass coverslips in sandwich culture. Septal cultures grown for 14 days in the continual presence of nerve growth factor contain a population of cholinergic neurons that stain intensely for the low-affinity nerve growth factor receptor (p75NGFR), choline acetyltransferase and acetylcholinesterase. Without added nerve growth factor, few neurons stain for these markers. Ciliary neurotrophic factor addition for 14 days from plating in the absence of exogenous nerve growth factor results in the appearance of a population of neurons that stains for p75NGFR. This population is similar in number to that seen in nerve growth factor-treated cultures but is not immunoreactive for choline acetyltransferase and is significantly smaller in mean cross-sectional area. Delayed addition of nerve growth factor to ciliary neurotrophic factor-supported cultures at 14 days for a further seven days fails to induce choline acetyltransferase immunoreactivity in these p75NGFR-positive septal neurons. In cultures grown in the continual presence of nerve growth factor from plating, removal of nerve growth factor and addition of nerve growth factor antibodies at 14 days results in the death of over 80% of the cholinergic neurons after a further four days. Addition of ciliary neurotrophic factor during the period of nerve growth factor withdrawal appears to preserve a p75NGFR-positive, choline acetyltransferase-negative neuronal population. However, seven day re-addition of nerve growth factor to ciliary neurotrophic factor-treated, nerve growth factor-withdrawn cultures fails to induce choline acetyltransferase immunoreactivity in the ciliary neurotrophic factor-supported p75NGFR-positive septal neurons. Simultaneous treatment of cultures with both ciliary neurotrophic factor and nerve growth factor for 14 days from plating approximately doubles the number of p75NGFR-positive neurons relative to cultures treated with either ciliary neurotrophic factor or nerve growth factor alone, but the number of choline acetyltransferase-positive neurons in these cultures is not significantly greater than that found in cultures treated solely with nerve growth factor. These results suggest that ciliary neurotrophic factor does not support the survival and differentiation of developing septal cholinergic neurons in vitro, but can support the development of a p75NGFR-immunoreactive population of non-cholinergic septal neurons.
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PMID:Ciliary neurotrophic factor supports p75NGFR-immunoreactive non-cholinergic, but not cholinergic, developing septal neurons in vitro. 765 10

The purpose of this study was to investigate the effects of nerve growth factor (NGF) conjugated to a monoclonal transferrin receptor antibody (OX-26) on septal transplants in oculo. Three different doses of OX-26-NGF conjugate (0.3, 3, and 50 micrograms/injection) were injected into the tail vein of young adult hosts 2, 4, and 6 weeks following intraocular transplantation of fetal forebrain tissue containing septal nuclei. Intravenous injections of OX-26 alone, NGF alone, and saline served as controls. An increase in intraocular tissue growth, as well as an increase in the intensity of immunoreactivity for p75 receptors and acetylcholinesterase, was observed following peripheral OX-26-NGF administration at the two highest doses tested. In addition, aged host rats with 16-month-old intraocular septal grafts were injected intravenously with OX-26 or OX-26-NGF (10 micrograms NGF/injection) every 2 weeks until the transplants were 24 months old. The intensity of choline acetyltransferase-like (ChAT) staining appeared to be greater and the cell bodies were larger with more processes in aged transplants in hosts treated with the OX-26-NGF conjugate than in aged OX-26-treated subjects. The present results suggest that peripheral OX-26-NGF can deliver biologically active NGF across the blood-brain barrier and have dose-dependent positive effects on both aged and developing cholinergic neurons in septal transplants.
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PMID:Effects of transferrin receptor antibody-NGF conjugate on young and aged septal transplants in oculo. 772 Aug 18

SR 57746A (1-[2-(naphth-2-yl)ethyl]-4-(3-trifluoromethylphenyl)-1,2,5,6- tetrahydropyridine hydrochloride) exhibits neurotrophic activities in vivo and in vitro. We used the rat pheochromocytoma PC12 cell line to investigate in vitro cellular changes induced by SR 57746A. A significant increase in the percentage of cells bearing neurite-like processes was obtained in cells treated by SR 57746A and nerve growth factor (NGF) compared with NGF treatment alone. SR 57746A added alone, however, had no effect on morphogenesis or on survival of cells in serum-free medium. In contrast, SR 57746A induced a "priming" effect on PC12 cells for neurite outgrowth within 6 h of addition of the protein tyrosine kinase inhibitor genistein. An increase in alpha-actinin content resulted from treatment with SR 57746A. Expression of NGF-mediated acetylcholinesterase and choline acetyltransferase was enhanced within 5 days by SR 57746A. The molecule also induced rapid F-actin redistribution. Within 2 min of incubation, outgrowth of F-actin-containing filopodia was clearly visible at the cell periphery, as previously shown with NGF. It is interesting that this effect of SR 57746A could be mimicked by protein tyrosine kinase inhibitors and abolished by preincubation with sodium orthovanadate, a protein tyrosine phosphatase inhibitor.
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PMID:Evidence for nerve growth factor-potentiating activities of the nonpeptidic compound SR 57746A in PC12 cells. 772 83

Immunolesions of the cholinergic basal forebrain were produced in rats using various intraventricular doses of the immunotoxin 192 immunoglobulin G-saporin: 0.34, 1.34, 2.0, 2.7 and 4.0 micrograms/rat. A battery of behavioral tests, chosen on the basis of reported sensitivity to conventional medial septal or nucleus basalis lesions, was administered. Dose-dependent impairments were found in acquisition, spatial acuity and working memory in the water maze. Dose-dependent hyperactivity in the open field and in swimming speed was observed. The highest dose group (4.0 micrograms) exhibited motoric disturbances which were particularly apparent in swimming and in clinging to an inclined screen. Response and habituation to acoustic startle were diminished in the three higher dose groups. Histological results from acetylcholinesterase and low-affinity nerve growth factor receptor staining showed that the lesion was selective for cholinergic neurons bearing p75 nerve growth factor receptors in the basal forebrain nuclei. However, some Purkinje cells in the superficial layers of the cerebellum were also destroyed at the higher doses of immunotoxin. The activity of choline acetyltransferase, used as a marker of cholinergic deafferentation in regions innervated by the basal forebrain nuclei, was decreased with increasing doses to a plateau level of about 90% (average depletion) for the two highest dose groups. These two groups were the only ones to exhibit consistent and severe behavioral impairments on all behavioral tests performed. Thus, for a relatively selective cholinergic basal forebrain lesion, almost a 90% reduction in choline acetyltransferase activity is needed to produce substantial behavioral deficits. It appears that either a considerable safety factor exists or robust compensatory mechanisms can ameliorate behavioral deficits from a major, but incomplete loss of cholinergic basal forebrain innervation.
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PMID:192 immunoglobulin G-saporin produces graded behavioral and biochemical changes accompanying the loss of cholinergic neurons of the basal forebrain and cerebellar Purkinje cells. 777 61

Transection of the fimbria-fornix bundle in adult rats results in degeneration of the septohippocampal cholinergic pathway, reminiscent of that occurring in aging as well as Alzheimer disease. We report here a study of the effect of a treatment with acetyl-L-carnitine (ALCAR) in three-month-old Fischer 344 rats bearing a partial unilateral fimbria-fornix transection. ALCAR is known to ameliorate some morphological and functional disturbances in the aged central nervous system (CNS). We used choline acetyltransferase (ChAT) and acetyl cholinesterase (AChE) as markers of central cholinergic function, and nerve growth factor (NGF) levels as indicative of the trophic regulation of the medio-septal cholinergic system. ChAT and AChE activities were significantly reduced in the hippocampus (HIPP) ipsilateral to the lesion as compared to the contralateral one, while no changes were observed in the septum (SPT), nucleus basalis magnocellularis (NBM) or frontal cortex (FCX). ALCAR treatment restored ChAT activity in the ipsilateral HIPP, while AChE levels were not different from those of untreated animals, and did not affect NGF content in either SPT or HIPP.
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PMID:Acetyl-L-carnitine restores choline acetyltransferase activity in the hippocampus of rats with partial unilateral fimbria-fornix transection. 779 6

We found depolarization-dependent promotion of survival of cultured basal forebrain cholinergic neurons from postnatal 2-week-old rats. Over 30 mM KCl (high K+) as well as nerve growth factor (NGF) induced considerably high choline acetyltransferase (ChAT) activity and the increase was potentiated by the addition of BAY K8644, a Ca2+ channel agonist. The increase in ChAT activity by high K+ was due to the increased number of viable acetylcholinesterase-positive and ChAT-positive neurons. Also, a cyclic AMP analog gave the same effect as high K+, but its ability to induce the ChAT activity was higher than that of high K+. On the other hand, both high K+ and NGF had very little effects on the survival of the cultured cholinergic neurons from 10-week-old rats. Cyclic AMP analog induced considerable increase in ChAT activity and promotion of survival of cholinergic neurons in the 10-week-old culture. These findings showed that the neuronal death occurring just of the end of synapse formation in rat basal forebrain cholinergic neurons could be prevented by NGF and high K+, but the death of older cholinergic neurons could not. We propose the possibility that the death of postnatal 2-week-old basal forebrain cholinergic neurons in culture might be programmed cell death.
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PMID:High potassium and cyclic AMP analog promote neuronal survival of basal forebrain cholinergic neurons in culture from postnatal 2-week-old rats. 781 43

Baby hamster kidney (BHK) cells were genetically modified to secrete high levels of human nerve growth factor (BHK-hNGF). Following polymer encapsulation, these cells were implanted into the lateral ventricle of four cynomolgus monkeys immediately following a unilateral transection/aspiration of the fornix. Three control monkeys received identical implants, with the exception that the BHK cells were not genetically modified to secrete hNGF and thus differed only by the hNGF construct. One monkey received a fornix transection only. All monkeys displayed complete transections of the fornix as revealed by a comprehensive loss of acetylcholinesterase-containing fibers within the hippocampus ipsilateral to the lesion. Control monkeys that were either unimplanted or received BHK-control (non-NGF secreting) cell implants did not differ from each other and displayed extensive losses of choline acetyltransferase and p75 NGF receptor (NGFr)-immunoreactive neurons within the medial septum (MS; 53 and 54%, respectively) and vertical limb of the diagonal band (VLDB; 21 and 30%, respectively) ipsilateral to the lesion. In contrast, monkeys receiving implants of BHK-hNGF cells exhibited a only a modest loss of cholinergic neurons within the septum (19 and 20%, respectively) and VLDB (7%). Furthermore, only implants of hNGF-secreting cells induced a dense sprouting of cholinergic fibers within the septum, which ramified against the ependymal lining of the ventricle adjacent to the transplant site. Examination of the capsules retreived from monkeys just prior to their death revealed an abundance of cells that produced detectable levels of hNGF in a sufficient concentration to differentiate PC12A cells in culture. These findings support the use of polymer-encapsulated cell therapy as a potential treatment for neurodegenerative diseases such as Alzheimer disease where basal forebrain degeneration is a consistent pathological feature. Moreover, this encapsulated xenogeneic system may provide therapeutically effective levels of a number of neurotrophic factors, alone or in combination, to select populations of neurons within the central nervous system.
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PMID:Implants of polymer-encapsulated human NGF-secreting cells in the nonhuman primate: rescue and sprouting of degenerating cholinergic basal forebrain neurons. 785 23

The immunotoxin 192 IgG-saporin has been hypothesized to selectively lesion cholinergic neurons that bear the low-affinity p75 nerve growth factor (NGF) receptor. To evaluate the usefulness of this toxin in studies intended to determine the functions of cholinergic afferents of cortical areas, relatively small concentrations and volumes of the immunotoxin (0.01-0.05 micrograms/0.5-1.0 microliters) were infused into cortical areas of one hemisphere of rats, while the vehicle was infused into homologous areas of the contralateral hemisphere. The effects of these infusions on the density of cortical acetylcholinesterase (AChE)-positive fibers and of normal fibers (as revealed by a reduced silver stain) were quantified. The infusion of the immunotoxin did not produce local gliosis in excess of the gliosis resulting from the infusion of vehicle. When compared with the frontoparietal cortex of the intact hemisphere, the number of cortical AChE-positive fibers was reduced by 36-39% and the density of the silver-stained fibers was decreased by 20-25%. While the loss of AChE-positive fibers and silver-stained fibers correlated significantly in layers V/VI, a linear regression analysis suggested that the magnitude of the loss of AChE-positive fibers was greater than would be predicted on the basis of the residual density of normal fibers. Thus, the data suggest that infusions of 192 IgG-saporin into the cortex did not result in the loss of non-cholinergic afferents. Intracortical infusions of relatively small concentrations and volumes of 192 IgG-saporin appear to provide a useful approach for the examination of the functions of cholinergic inputs to specific cortical regions.
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PMID:Cortical cholinergic deafferentation following the intracortical infusion of 192 IgG-saporin: a quantitative histochemical study. 787 12


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