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)

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

Eptastigmine is a new acetylcholinesterase (AChE) inhibitor currently under development for the symptomatic treatment of Alzheimer disease. This study was conducted to establish the maximum tolerated dose and the pharmacodynamics of eptastigmine in nine healthy elderly volunteers. Subjects received single oral doses of 8 mg, 20 mg, 32 mg, and 40 mg eptastigmine and placebo according to a double-blind, randomized, rising-dose, five-way crossover design. Adverse events, blood pressure, heart rate, body temperature, forced expiratory volume, salivary flow, and pupilar activity were closely monitored during treatment. Pharmacodynamic activity of eptastigmine was evaluated with an assay of AChE activity in red blood cells. Eptastigmine doses of 8 mg, 20 mg, and 32 mg were well tolerated. Two of four subjects receiving the 40-mg dose developed profound AChE inhibition (58-59%) and reported severe adverse events (nausea, vomiting, syncope, and bradycardia), precluding further administration in the remaining subjects. Eptastigmine administration produced a weak effect on supine heart rate, body temperature, and pupil diameter. There were no effects on blood pressure, forced expiratory volume, salivary flow, and near point of focus. Acetylcholinesterase activity was inhibited in a dose-related fashion according to a sigmoidal (logistic) function. The mean (+/- SEM) maximum inhibition of AChE activity (Imax) was 14.5+/-3.3%, 20.4+/-2.3%, 28.7+/-2.9%, 45.2+/-1.3% and 53.6+/-2.9% after placebo, 8 mg, 20 mg, 32 mg, and 40 mg of eptastigmine, respectively. The theoretical maximum response (Emax) was 72.9%, and the dose that produced half of the maximum response (ED50) was 29.5 mg. At 24 hours, residual AChE inhibition ranged from 9% to 15%, with a half-life of recovery of the enzyme of approximately 10 hours. The maximum tolerated dose of eptastigmine after single-dose oral administration in healthy elderly subjects is 32 mg. Single oral doses of eptastigmine produce sustained, dose-related inhibition of AChE activity. Adverse events are related to the degree of AChE inhibition.
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PMID:Maximum tolerated dose and pharmacodynamics of eptastigmine in elderly healthy volunteers. 970 45

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

Extracellular recordings of field potential from CA1 region of rat hippocampal slices were used to observe the effects of a shorter synthetic fragment of beta-amyloid peptide (A beta31-35) on the induction of long-term potentiation (LTP) and the action of (-)huperzine A, a potent acetylcholinesterase (AChE) inhibitor on these processes was also observed. The results showed that: (1) 0.1 microM A beta31-35 suppressed the induction of LTP in a similar mode as the longer fragment A beta25-35, did, while they did not change the amplitude of the baseline population spike (PS); (2) when PSs were recorded separately in Mg2+-free medium, which unveils the N-methyl-D-aspartate (NMDA)-mediated responses, both A beta31-35 and A beta25-35 showed little effect on the components of multiple PSs; (3) two concentrations of 0.1 microM or 1.0 microM (-)huperzine A showed no effects on the PS amplitude while the latter could enhance the LTP and (4) co-administration of (-)huperzine A with 0.1 microM concentration could block most of the suppressive action induced by A beta31-35 or A beta25-35 upon the LTP. The results suggest that the shorter fragment A beta31-35, is long enough to suppress the induction of LTP and these two fragments might suppress the induction of LTP through a NMDA receptor-independent pathway that involves cholinergic terminals in hippocampus.
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PMID:Suppressive action produced by beta-amyloid peptide fragment 31-35 on long-term potentiation in rat hippocampus is N-methyl-D-aspartate receptor-independent: it's offset by (-)huperzine A. 1058 Jul 6

Cultured muscle fibers from patients with sporadic inclusion-body myositis (s-IBM), similar to normal control muscle fibers, 1) did not have beta-amyloid precursor protein (betaAPP) immunoreactivity; and 2) became normally innervated, as evidenced by the following features: full cross-striation, continuous contraction, and acetylcholinesterase and acetylcholine receptors accumulated only at neuromuscular junctions. Thus, factors responsible for betaAPP accumulation and denervation-like changes in s-IBM muscle biopsies are not operative in the relatively short-term, non-aged, cultured s-IBM muscle fibers.
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PMID:Cultured inclusion-body myositis muscle fibers do not accumulate beta-amyloid precursor protein and can be innervated. 1059 4

Cholinergic dysfunction in Alzheimer's disease has been attributed to stress-induced increases in acetylcholinesterase (AChE) activity. Interleukin-1 (IL-1) is overexpressed in Alzheimer's disease, and stress-related changes in long-term potentiation, an ACh-related cerebral function, are triggered by interleukin-1. Microglial cultures (N9) synthesized and released IL-1 in response to conditioned media obtained from glutamate-treated primary neuron cultures or PC12 cells. This conditioned media contained elevated levels of secreted beta-amyloid precursor protein (sAPP). Naive PC12 cells cocultured with stimulated N9 cultures showed increased AChE activity and mRNA expression. These effects on AChE expression and activity could be blocked by either preincubating the glutamate-treated PC12 supernatants with anti-sAPP antibodies or preincubating naive PC12 cells with IL-1 receptor antagonist. These findings were confirmed in vivo; IL-1-containing pellets implanted into rat cortex also increased AChE mRNA levels. Neuronal stress in Alzheimer's disease may induce increases in AChE expression and activity through a molecular cascade that is mediated by sAPP-induced microglial activation and consequent overexpression of IL-1.
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PMID:Neuronal-glial interactions mediated by interleukin-1 enhance neuronal acetylcholinesterase activity and mRNA expression. 1062 91

Human amyloid-beta1-42 has been suggested to be a pathogenetic factor in Alzheimer's disease. The precise mechanism by which this peptide causes the degeneration of neurons in the affected brain is not yet fully understood. By using immunohistochemistry we explored the inhibitory effects of human amyloid-beta1-42 applied in vivo on the fast axonal transport of acetylcholinesterase, the amyloid precursor protein, the vesicular acetylcholine transporter and synaptophysin in the sciatic nerve of rat. Our findings provide evidence for the in vivo neurotoxic effect of human amyloid-beta peptide.
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PMID:Human amyloid-beta1-42 applied in vivo inhibits the fast axonal transport of proteins in the sciatic nerve of rat. 1064 15

A randomized, double-blind, placebo-controlled, parallel-group study was undertaken to evaluate the safety and tolerability of a once-daily oral administration of metrifonate in patients with probable mild to moderate Alzheimer disease. Metrifonate was given as a loading dose of 125-225 mg based on weight (2.5 mg/kg) for 2 weeks, followed by a maintenance dose of 50-90 mg based on weight (1.0 mg/kg) for 4 weeks. Twenty-nine patients received metrifonate, and 10 patients received placebo. Metrifonate produced a mean erythrocyte acetylcholinesterase inhibition at the end of treatment of 86.3%. The proportion of patients who experienced at least one adverse event was comparable between the metrifonate (76%) and placebo (80%) groups. Selected adverse events in disfavor of metrifonate (defined as those for which the incidence in the metrifonate and placebo groups differed by at least 10%) were diarrhea, nausea, leg cramps, and accidental injury. Adverse events were predominantly mild in intensity and transient. No severe adverse events were experienced by any patient. The most notable hemodynamic change observed during metrifonate treatment was a clinically insignificant mean decrease in the heart rate (by electrocardiogram) of approximately 9 beats/min, compared with an approximate 3-beats/min decrease for the placebo group. No muscle weakness was observed in this study. No clinically relevant laboratory abnormalities, such as liver toxicity, or changes in exercise tolerance or pulmonary function tests were found with metrifonate treatment. This metrifonate dose provided a high level of acetylcholinesterase inhibition, which was associated in these patients with a favorable safety and tolerability profile. Indeed, the magnitude of the peripheral acetylcholinesterase inhibition is the highest tolerable inhibition level yet observed.
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PMID:Randomized, double-blind, placebo-controlled, multicenter study to evaluate the safety and tolerability of metrifonate in patients with probable Alzheimer disease. The Metrifonate Study Group. 1071 3

Continuing our work on tetracyclic tacrine analogues, we synthesized a series of acetylcholinesterase (AChE) inhibitors of 11H-indeno-[1,2-b]-quinolin-10-ylaminic structure. Selected substituents were placed in synthetically accessible positions of the tetracyclic nucleus, in order to explore the structure-activity relationships (SAR) and the mode of action of this class of anticholinesterases. A molecular modeling investigation of the binding interaction of the lead compound (1a) with the AChE active site was performed, from which it resulted that, despite the rather wide and rigid structure of 1a, there may still be the possibility to introduce some small substituent in some positions of the tetracycle. However, from the examination of the experimental IC50 values, it derived that the indenoquinoline nucleus probably represents the maximum allowable molecular size for rigid compounds binding to AChE. In fact, only a fluorine atom in position 2 maintains the AChE inhibitory potency of the parent compound, and, actually, increases the AChE-selectivity with respect to the butyrylcholinesterase inhibition. By studying the kinetics of AChE inhibition for two representative compounds of the series, it resulted that the lead compound (1a) shows an inhibition of mixed type, binding to both the active and the peripheral sites, while the more sterically hindered analogue 2n seems to interact only at the external binding site of the enzyme. This finding seems particularly important in the context of Alzheimer's disease research in the light of recent observations showing that peripheral AChE inhibitors might decrease the aggregating effects of the enzyme on the beta-amyloid peptide (betaA).
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PMID:Acetylcholinesterase inhibitors for potential use in Alzheimer's disease: molecular modeling, synthesis and kinetic evaluation of 11H-indeno-[1,2-b]-quinolin-10-ylamine derivatives. 1073 65


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