EC:3.1.1.8 - FACTA Search

Gene/Protein Disease Symptom Drug Enzyme Compound
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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)

Histochemical localization of butyrylcholinesterase has been carried out in primitive, perivascular, and classic plaques in the brains of both nondemented and Alzheimer disease (AD) patients. Butyrylcholinesterase histochemistry has been compared to amyloid beta-protein (A beta P) immunocytochemistry in adjacent sections. In small primitive plaques, most of the butyrylcholinesterase reaction product appears ultrastructurally located over plasma membranes of healthy-looking cell processes. In more extensive primitive plaques, butyrylcholinesterase reaction product also decorates amyloid filaments, which become identifiable as delicate wisps. In classic plaques, large aggregates of butyrylcholinesterase reaction product colocalize with bundles of amyloid filaments, as well as with the compact amyloid core. Thus, deposition of butyrylcholinesterase in senile plaques follows a close parellelism with the progressive aggregation of amyloid beta-protein, supporting the possibility that cholinesterases may play some role in the maturation of these structures.
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PMID:Ultrastructural localization of butyrylcholinesterase in senile plaques in the brains of aged and Alzheimer disease patients. 916 83

Abnormal deposition and accumulation of Alzheimer's amyloid beta-protein (A beta) and degeneration of forebrain cholinergic neurons are among the principal features of Alzheimer's disease. Studies in rat model systems have shown that forebrain cholinergic deficits are accompanied by induction of cortical beta-amyloid precursor protein (beta-APP) mRNAs and increased levels of secreted beta-APP in the CSF. The studies reported here determined whether the CSF levels of secreted beta-APP could be altered pharmacologically. In different experiments, rats with lesions of the forebrain cholinergic system received injections of vehicle, a muscarinic receptor antagonist scopolamine, or one of two cholinesterase inhibitors - diisopropyl phosphorofluoridate (DFP) or phenserine. Scopolamine was administered to determine whether the levels of beta-APP in the CSF could be increased by anticholinergic agents. The cholinesterase inhibitors were administered to determine whether the forebrain cholinergic system lesion-induced increases in CSF beta-APP could be reduced by cholinergic augmentation. Scopolamine administration led to a significant increase in the CSF levels of secreted beta-APP in sham-lesioned rats. Phenserine, a novel, reversible acetyl-selective cholinesterase inhibitor, significantly decreased the levels of secreted beta-APP in the CSF of forebrain cholinergic system-lesioned rats whereas DFP, a relatively non-specific cholinesterase inhibitor, failed to affect CSF levels of secreted beta-APP. These results suggest that the levels of secreted beta-APP in the CSF can be pharmacologically modulated but that this modulation is dependent upon the status of the forebrain cholinergic system and the pharmacological properties of the drugs used to influence it.
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PMID:Pharmacological modulation of Alzheimer's beta-amyloid precursor protein levels in the CSF of rats with forebrain cholinergic system lesions. 919 Oct 90

One of the main characteristics of Alzheimer's disease (AD) is the cerebrovascular deposition of the amyloid beta-peptide (A beta), which is derived from a larger beta-amyloid precursor protein (beta APP). The majority of beta APP is processed by either a secretory of lysosomal/endosomal pathway. Carboxyl-truncated soluble derivatives of beta APP (sAPP) are generated by the proteolytic processing of full-length beta APP by either alpha- or beta-secretase enzyme. Our objective is to determine whether the processing of beta APP can be regulated by cholinesterase inhibitors, some of which were shown to produce a moderate improvement in memory and cognitive functions in patients with Alzheimer's disease. Here we have analyzed the levels of sAPP derivatives in cultured cells treated with different drugs by immunoblotting samples of conditioned media. The immunoreactive protein bands were developed by probing with the monoclonal antibody 22C11. Treating neuroblastoma, pheochromocytoma and fibroblast cells with high dose of either 3,4-diaminopyridine, metrifonate, or physostigmine did not inhibit the secretion of sAPP. Treating glioblastoma with either 3,4-diaminopyridine or metrifonate showed an increase in secretion of sAPP. However, treatment of cells with tacrine reduced release of sAPP in conditioned media of cell lines studied. The difference in action of metrifonate, physostigmine, and tacrine on beta APP is independent of their anticholinesterase activities. Our results suggests that noncatalytic functions of cholinesterase inhibitors can be utilized to alter the metabolism of beta APP, which might in turn affect the process of deposition of A beta, a key component of the cerebrovascular amyloid detected in AD.
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PMID:Effects of cholinesterase inhibitors on the secretion of beta-amyloid precursor protein in cell cultures. 932 15

The senile plaque in Alzheimer's disease (AD) consists mainly of the amyloid beta-peptide (A beta) derived from a larger beta-amyloid precursor protein (betaAPP). The majority of betaAPP is processed by either a secretory or lysosomal/endosomal pathway. Soluble derivatives of betaAPP (sAPP) and A beta generated by the proteolytic processing of full-length betaAPP are normally secreted into the conditioned medium of cultured cells. Tacrine, a centrally active potent cholinesterase inhibitor that has been shown to improve cognitive functions in some patients with AD, inhibits the secretion of sAPP. Here we have investigated whether leupeptin, a lysosomal protease inhibitor, could influence this effect of tacrine. We analyzed levels of betaAPP derivatives in cultured HeLa cells by immunoblotting cell lysates and conditioned media using the monoclonal antibody 22C11. Levels of sAPP normally present in conditioned media were severely reduced by treating cells with tacrine. The treatment of cells with tacrine resulted in a small decrease in the intracellular levels of betaAPP. The effect of treating the cells with tacrine did not depend upon the growing state of the cells as a similar effect was observed when the drug was added either during initial plating of the cells or after the attachment of the cells. The effect of tacrine was not affected by preincubating the cells with low serum in the culture medium. The treatment of cells with tacrine plus leupeptin reduced the secretion of sAPP in the medium to the same degree as did the treatment with tacrine alone, suggesting that the tacrine-mediated inhibition of sAPP release may not involve leupeptin-sensitive proteolytic pathways. The results suggest that the inhibitory effect of tacrine on sAPP secretion is not due to the proteolytic cleavage of the holoprotein in the medium.
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PMID:The effect of tacrine and leupeptin on the secretion of the beta-amyloid precursor protein in HeLa cells. 936 5

Alzheimer's disease (AD) is the most common neurodegenerative disorder that causes cognitive deficits in the elderly. Its neuropathology is characterized by amyloid deposition and specific cholinergic degeneration. To address the link between amyloid formation and cholinergic loss, we examined histologically the amyloid precursor protein (APP) changes following selective immunolesion of the basal forebrain cholinergic system with 192 IgG-saporin in rats at 6 months post-lesion. In such rats with cognitive deficits observed in Morris water maze tests, we found increased levels of APP by optical density measurements in regions of cholinergic denervation. APP elevation and performance in the water maze task correlate with reduction of acetyl-cholinesterase (AChE) activity in the frontal cortex and CA3 subfield of hippocampus. The data indicate that loss of cholinergic innervation can affect APP expression.
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PMID:Chronic cognitive deficits and amyloid precursor protein elevation after selective immunotoxin lesions of the basal forebrain cholinergic system. 951 4

Metrifonate is a cholinesterase inhibitor with a long-lasting inhibition that raises brain acetylcholine levels. It is well-absorbed and has limited binding to serum proteins. In preliminary studies of its utility in the treatment of Alzheimer disease's (AD), it led to improvements of cognition or reduced the rate of decline of cognition compared with placebo. It also benefited the global function of these patients. Side effects include nausea, cramping, and diarrhea. Metrifonate has promise as a well-tolerated treatment of the symptoms of AD.
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PMID:Metrifonate: overview of safety and efficacy. 954 64

Acetylcholinesterase (AChE), the enzyme involved in the hydrolysis of the neurotransmitter acetylcholine, has been implicated in non-cholinergic actions which may play a role in neurodegenerative diseases such as Alzheimer's disease. To study the potential cytotoxicity of brain AChE, the effects of affinity purified AChE were analyzed on neuronal (Neuro 2a) and glial-like (B12) cells. LDH release and MTT reduction assays showed that AChE was toxic; the toxicity was dependent on the enzyme concentration, time of incubation and cellular density. The toxic effect of AChE was not related to its catalytic activity, since the anti-cholinesterase drug BW284C51 and heat inactivation were unable to block the effects of the enzyme. When cells were incubated at 4 degrees C, toxicity was completely blocked, in contrast to cells incubated at 37 degrees C. The presence of serum in the culture medium inhibited the toxic effects of AChE. Cytoplasmic shrinkage, condensation and fragmentation of nucleus as well as DNA strand breaks detected with the TUNEL technique indicated that apoptotic cell death is involved in the effect of AChE. Considering that we have previously shown that AChE promotes the assembly of beta-amyloid peptide into neurotoxic amyloid fibrils, it is conceivable that the neurotoxicity of AChE shown here may play a role in the neuronal degeneration observed in Alzheimer's disease.
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PMID:Toxic effects of acetylcholinesterase on neuronal and glial-like cells in vitro. 967

Current treatment approaches in Alzheimer's disease are primarily symptomatic, with the major therapeutic strategy based on acetylcholinesterase inhibition. Alzheimer's disease research should advance over ensuing decade(s) to yield better symptomatic therapies, drugs designed to slow the rate of progression, and disease preventing agents. The next generation of cholinergic agents will include long acting cholinesterase inhibitors with a good safety profile and brain specific muscarinic agonists. The most critical advances in Alzheimer's disease treatment, however, will target slowing of disease progression and prevention of dementia. Therapeutic agents are being developed that interfere with the synthesis, deposition and aggregation of beta-amyloid protein. Clinical trials are presently being conducted with small molecules having nerve growth factor like activity (e.g. AIT-082, cerebrolysin). In addition, estrogen, anti-inflammatory agents (e.g. cyclooxygenase inhibitors) and antioxidant approaches (e.g. vitamin E) are currently being proposed or utilized in disease prevention trials.
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PMID:Perspectives in clinical Alzheimer's disease research and the development of antidementia drugs. 970 Jun 63

The amyloid beta-protein (Abeta) is an approximately 4 kD secreted protein normally found in human plasma and cerebrospinal fluid. Abeta is invariably deposited as insoluble amyloid fibrils in the brains of patients with Alzheimer's disease (AD), and there is increasing evidence that Abeta deposition plays an important role in AD pathogenesis. Abeta is released from the larger beta-amyloid precursor protein (betaAPP) through cleavage on the amino and carboxyl side of Abeta by proteolytic activities referred to as beta and gamma secretase, respectively. betaAPP is also cleaved at Abeta16 by a third protease, alpha secretase, which may prevent amyloid deposition by bisecting the Abeta peptide. Tacrine, a cholinesterase inhibitor, has been shown to improve memory and cognitive functions in some patients with AD, and we have previously demonstrated that it significantly reduces the levels of the secretion of soluble betaAPP fragments (sAPP) in cultured cells. In this study, we extended our studies by analysis of Abeta40 and Abeta42 and report that in a human neuroblastoma cell line tacrine reduced the levels of total Abeta, Abeta40 and Abeta42 in addition to sAPP. These inhibitory results cannot be attributed to a reduction in total betaAPP synthesis as tacrine treatment did not cause a significant change in the rate of betaAPP synthesis. Furthermore, significant toxicity was not observed in tacrine-treated cultures as determined by analysis of lactate dehydrogenase (LDH) in the conditioned media. Taken together, these results suggest that tacrine affects the processing of betaAPP by alterations in betaAPP trafficking and/or increased intracellular proteolysis. This study raises the possibility that tacrine may aid in the treatment of AD due to its effects on betaAPP processing as well as by its effects on the cholinergic pathway.
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PMID:The secretion of amyloid beta-peptides is inhibited in the tacrine-treated human neuroblastoma cells. 981 82

This paper reviews available and potential treatments for the cognitive disturbances associated with Alzheimer's disease. The neurochemical, neuropathological, and molecular-biological abnormalities associated with this disorder, as well as possible sites for pharmacological intervention, are discussed. These sites include genetic alterations in apolipoprotein E, amyloid precursor protein, and presenilin. Additionally, modification of amyloid processing, tau processing, and calcium regulation may have a role in future treatment. Intriguing epidemiological findings involving antiinflammatories, antioxidants, and estrogen for the cognitive deficits associated with Alzheimer's disease suggest the need for clinical trials of these agents. The current status of cholinesterase inhibitors, muscarinic receptor agonists, nicotine, and adrenergic and glutaminergic approaches to treatment are described.
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PMID:Experimental approaches to cognitive disturbance in Alzheimer's disease. 1037 Apr 29

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