Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts:   Target Concepts:
Query: EC:3.1.1.7 (acetylcholinesterase)
 28,390 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Overproduction of the peptide amyloid beta (Abeta) is thought to be a critical pathogenetic event in Alzheimer's disease (AD). Decreasing A production may therefore slow or halt the progression of AD. In vitro work has indicated that cholinergic muscarinic receptor agonists may reduce cellular production of Abeta. Here we show that systemic administration of physostigmine, an acetylcholinesterase inhibitor, lowers Abeta levels in vivo. Guinea pigs treated for 10 days with s.c. physostigmine had levels of cortical AbetaN-40 and N-42 which were 57% and 72%, respectively, of those in control animals. Levels of cortical beta-amyloid precursor protein were not significantly affected by drug treatment. These results suggest that cholinergic therapy may affect the course of AD by limiting Abeta accumulation.
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PMID:Reduction of cortical amyloid beta levels in guinea pig brain after systemic administration of physostigmine. 1152 48

We have investigated the acute and chronic effect of metrifonate (MTF) and dichlorvos (DDVP), respectively the prodrug and active acetylcholinesterase inhibitor, on the secretory processing of the amyloid precursor protein (APP) in SH-SY5Y neuroblastoma cells. We demonstrate that the acute treatment of SH-SY5Y cells with both compounds results in an increased secretion of the soluble fragment of APP (sAPPalpha) into the conditioned media of cells, with a pattern correlated to the level of acetycholinesterase inhibition. The regulation of APP processing in these conditions is mediated by an indirect cholinergic effect on muscarinic receptors, as demonstrated by inhibition with atropine. We have also followed APP expression and metabolism after long-term treatment with metrifonate. Treated cells showed reduced AChE activity after 24, 48 h and also following 7 days of repeated treatment, a time point at which increased AChE expression was detectable. At all time points sAPPalpha release was unaffected suggesting that enhanced sAPPalpha release by MTF is transitory, nevertheless the sensitivity of cholinergic receptors was unchanged, as indicated by the fact that cholinergic response can be elicited similarly in untreated and treated cells. APP gene expression was unaffected by long-term AChE inhibition suggesting that increased short-term sAPPalpha release does not elicit compensatory effects.
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PMID:Short- and long-term effect of acetylcholinesterase inhibition on the expression and metabolism of the amyloid precursor protein. 1152 66

1. Acetylcholinesterase (AChE, EC 3.1.1.7) and butyrylcholinesterase (BuChE, EC 3.1.1.8) are enzymes that catalyze the hydrolysis of esters of choline. 2. Both AChE and BuChE have been shown to copurify with peptidases. 3. BuChE has also been shown to copurify with other proteins such as transferrin, with which it forms a stable complex. In addition, BuChE is found in association with beta-amyloid protein in Alzheimer brain tissues. 4. Since BuChE copurifies with peptidases, we hypothesized that BuChE interacts with these enzymes and that this association had an influence on their catalytic activities. One of the peptidases that copurifies with cholinesterases has specificity similar to trypsin, hence, this enzyme was used as a model to test this hypothesis. 5. Purified BuChE causes a concentration-dependent enhancement of the catalytic activity of trypsin while trypsin does not influence the catalytic activity of BuChE. 6. We suggest that, in addition to its esterase activity, BuChE may assume a regulatory role by interacting with other proteins.
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PMID:Butyrylcholinesterase-Mediated enhancement of the enzymatic activity of trypsin. 1156 38

Alzheimer disease (AD) is characterized pathologically by cholinergic deficits, amyloid plaques, neurofibrillary tangles, gliosis, and neuronal and synaptic loss. The primary therapeutic approach that has arisen from the pathological analysis of AD brain has been cholinergic augmentation by cholinesterase inhibitors, which modestly improve cognitive function. Research on the underlying pathophysiological dysfunction have focussed on AD-specific processes such as amyloid precursor protein, tau, and cerebral apolipoprotein E metabolism, and more general neurodegenerative processes such as inflammation, oxidation, excitotoxicity, and apoptosis. Rational neuroprotective approaches have led to recent trials of estrogen, antioxidant and anti-inflammatory medications in AD, and to the development of anti-amyloid strategies for delaying progression or preventing development of AD.
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PMID:Alzheimer disease therapeutics. 1158 22

Limitations associated with conventional acetylcholinesterase inhibitors have led to interest in therapies with more than one mode of action. Galantamine is a novel treatment for Alzheimer disease with a dual mode of action. The mechanisms involved may result in better long-term cognitive function, and may specifically affect behavioral symptoms. Three acetylcholinesterase inhibitors available in the USA, donepezil, rivastigmine and tacrine, have demonstrated improvements in activities of daily living. However, data are mixed and much is questionable because of the outcome measures used. Galantamine showed evidence of functional benefit in three pivotal Phase III studies of up to 6 months' duration. Furthermore, galantamine stabilized instrumental and basic activities of daily living in an open-label 12-month study. This long-term maintenance of functional ability would be expected to be an important benefit for patients and carers. Open-label studies have suggested that donepezil and tacrine might have beneficial effects on behavioral symptoms. In a 5-month pivotal study, galantamine significantly slowed the progression of behavioral symptoms in patients with mild-to-moderate Alzheimer disease. These behavioral benefits were associated with reduced caregiver distress and translated into reduced caregiver time. These benefits would be expected to make an important difference to the quality of life of patients and caregivers.
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PMID:Maintaining functional and behavioral abilities in Alzheimer disease. 1166 8

Analysis of the expressed protein complement of cells requires knowledge of the diversity of post-translational modifications that can occur and which can be transient or permanent. The modifications range from amino acid changes through to the addition of macromolecules: lipid, carbohydrate or protein. Many variants of the common amino acids can occur, which can affect the structure or function of the protein. The major class of modification, however, is represented by glycosylation, N-linked, O-linked, or glycosylphosphatidylinositol(GPI)-linked. Such modifications have roles in protein stability and folding, targeting and recognition. Glycosylated proteins can be found in all cellular compartments and, intracellularly, O-GlcNAc modification is commonplace. Lipid modification of proteins (acylation, prenylation, GPI-anchoring) is also common, resulting in membrane association, and can play an important role in cell signalling. Targeting and turnover of proteins can also be mediated via covalent protein addition, for example by members of the ubiquitin family. Limited proteolysis as a post-translational modification will be discussed, focusing on the family of membrane protein secretases, in particular in relation to the Alzheimer's amyloid precursor protein. Finally, acetylcholinesterase will be used as a model example to illustrate the diversity of modifications occurring on a single protein.
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PMID:Post-translational modifications of proteins: acetylcholinesterase as a model system. 1167 79

The introduction of cholinesterase inhibitors to improve the cognitive function and activities of daily living in patients with Alzheimer disease, raises the question whether these drugs also have the potential to improve the quality of life of these patients. In this article a model is presented to measure quality of life in patients with dementia, in which psychological well-being is chosen as the central measure. The presented model might be the starting point to develop instruments to measure quality of life in dementia. After a short introduction concerning the developments in quality of life research, the two most important characteristics of the concept--multidimensionality and subjectivity--are discussed against the background of the relevant literature on dementia. The dementia-specific dimensions--individual characteristics, psychological, social and physical dimension, and environment--and domains are presented, and put in a hierarchical model.
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PMID:[Quality of life and dementia. I. Model of assessment of wellbeing in dementia patients]. 1178 14

Recent studies in cell cultures have shown that modulating the cholinergic activity can influence the processing and metabolism of amyloid precursor protein (APP). To investigate whether acetylcholinesterase inhibitors (ChEIs) could decrease production of amyloid beta-peptide (A(beta)) and slow down the accumulation of A(beta) also in vivo, we chronically administered metrifonate (100 mg/kg, po), a second-generation ChEI, to 7-month-old doubly transgenic APP+PS1 mice and their nontransgenic littermate controls for 7 months. Behavioral studies, including open field test, T maze, and water maze, were conducted after 6 months treatment with metrifonate, and the mice were sacrificed at the age of 14 months for biochemical and histological analyses. The long-term treatment with metrifonate failed to inhibit the marked overproduction and deposition of A(beta) in the APP+PS1 mice; in contrast, it increased both A(beta)40 and A(beta)42 levels in the hippocampus. However, the A(beta)42 to 40 ratio was significantly reduced by the treatment. In addition, the number of amyloid plaques in the hippocampus did not differ between the treatment and the control groups. Tolerance to cholinesterase inhibition might be induced in the mouse brain because the inhibition rate of AChE was attenuated from about 80 to 50% during the experiment in both APP+PS1 and nontransgenic mice. The metrifonate treatment did not affect cognitive testing parameters but reduced swimming speed and locomotor activity in both genotypes. Our results do not support the idea that ChEIs would slow down the progression of amyloid pathology in Alzheimer's disease.
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PMID:The effects of long-term treatment with metrifonate, a cholinesterase inhibitor, on cholinergic activity, amyloid pathology, and cognitive function in APP and PS1 doubly transgenic mice. 1182 83

The incidence, distribution and chemical composition of amyloid-beta (A beta) peptide-positive deposits were investigated in the lower primate species common marmoset (Callithrix jacchus). No A beta deposits were observed in the brains of 7 marmosets below 7 years of age. In 15 marmosets above 7 years, 60% displayed cortical A beta-immunoreactive plaques, 80% had A beta deposited in intracortical vessels and 87% displayed A beta deposits in meningeal vessels. The cerebral cortex of the oldest animal (15 years) contained a substantial density of deposits. A beta-immunoreactive plaques were found predominantly in association cortical zones followed by a lower density in paralimbic cortical areas. Deposits within vessels were most frequent in occipital cortex. A beta40 was found primarily in vascular deposits, while A beta42 was present in plaques. Approximately 20% of plaques and most vascular deposits displayed thioflavin S staining, indicative of the presence of fibrillar A beta. Varying proportions of A beta deposits contained acetylcholinesterase or butyrylcholinesterase activities and apolipoprotein E and alpha1-antichymotrypsin immunoreactivity. A few plaques contained immunoreactivity for amyloid precursor protein in swollen neurites. However, no abnormally phosphorylated tau immunoreactivity was present in these neurites. Survival analysis in a colony of marmosets indicated that only 6% of animals can be expected to survive beyond 7 years of age. These results indicate that the aged marmoset brain displays A beta deposits with a distribution and chemical composition similar to those found in the human. These similarities suggest that the aged marmoset may be a useful lower primate model for the study of the pathological effects of A beta. However, the relatively small number of animals which can be expected to reach old age severely limits the utility of this species as a model of A beta deposition.
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PMID:Amyloid-beta deposits in the cerebral cortex of the aged common marmoset (Callithrix jacchus): incidence and chemical composition. 1183 47

We examined presynaptic cholinergic markers and beta-secretase activity during progressive central nervous system amyloidogenesis in Tg2576 Alzheimer mice (transgenic for human amyloid precursor protein Swedish mutation; hAPPswe). At 14, 18, and 23 months of age there were no significant differences between wild-type and transgenic mice in four distinct central nervous system cholinergic indices--choline acetyltransferase and acetylcholinesterase activities, and binding to vesicular acetylcholine transporter and Na(+)-dependent high-affinity choline uptake sites. A novel enzyme-linked immunosorbent assay measuring only the secreted human beta-secretase cleavage product (APPsbetaswe) of APPswe also revealed no change with aging in Tg2576 mouse brain. In contrast, transgenic but not wild-type mice exhibited an age-dependent increase in soluble Abeta40 and Abeta42 levels and progressive amyloid deposition in brain. Thus, aging Tg2576 mice exhibited presynaptic cholinergic integrity despite progressively increased soluble Abeta40 and Abeta42 levels and amyloid plaque density in brain. Older Tg2576 mice may best resemble preclinical or early stages of human Alzheimer's disease with preserved presynaptic cholinergic innervation. Homeostatic APPsbetaswe levels with aging suggest that progressive amyloid deposition in brain results not from increased beta-secretase cleavage of APP but from impaired Abeta/amyloid clearance mechanisms.
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PMID:Stable beta-secretase activity and presynaptic cholinergic markers during progressive central nervous system amyloidogenesis in Tg2576 mice. 1183 59


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