Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts:   Target Concepts:
Query: EC:3.1.1.8 (cholinesterase)
 12,691 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The pathophysiology of Alzheimer's disease is complex and involves several different biochemical pathways. These include defective beta-amyloid (Abeta) protein metabolism, abnormalities of glutamatergic, adrenergic, serotonergic and dopaminergic neurotransmission, and the potential involvement of inflammatory, oxidative and hormonal pathways. Consequently, these pathways are all potential targets for Alzheimer's disease treatment and prevention strategies. Currently, the mainstay treatments for Alzheimer's disease are the cholinesterase inhibitors, which increase the availability of acetylcholine at cholinergic synapses. Since the cholinesterase inhibitors confer only modest benefits, additional non-cholinergic Alzheimer's disease therapies are urgently needed. Several non-cholinergic agents are currently under development for the treatment and/or prevention of Alzheimer's disease. These include anti-amyloid strategies (e.g. immunisation, aggregation inhibitors, secretase inhibitors), transition metal chelators (e.g. clioquinol), growth factors, hormones (e.g. estradiol), herbs (e.g. Ginkgo biloba), nonsteroidal anti-inflammatory drugs (NSAIDs, e.g. indomethacin), antioxidants, lipid-lowering agents, antihypertensives, selective phosphodiesterase inhibitors, vitamins (E, B12, B6, folic acid) and agents that target neurotransmitter or neuropeptide alterations. Neurotransmitter receptor-based approaches include agents that modulate certain receptors (e.g. nicotinic, muscarinic, alpha-amino-3-hydroxy-5-methyl-4-isoxazole proprionic acid [AMPA], gamma-aminobutyric acid [GABA], N-methyl-D-aspartate [NMDA]) and agents that increase the availability of neurotransmitters (e.g. noradrenergic reuptake inhibitors). Of these strategies, the NMDA receptor antagonist memantine is in the most advanced stage of development in the US and is already approved in Europe as the first treatment for moderately severe to severe Alzheimer's disease. Memantine is proposed to counteract cellular damage due to pathological activation of NMDA receptors by glutamate. Results with Ginkgo biloba have been mixed. Data for neurotrophic therapies and vitamin E (tocopherol) appear promising but require confirmation. NSAIDs and conjugated estrogens have not proven to be of value to date for the treatment of Alzheimer's disease. Statins may have a potential role in reducing the risk or delaying the onset of Alzheimer's disease, although this has yet to be confirmed in randomised trials. There are currently no data to support the use of statins as a treatment for dementia. This article provides an update on the current status of selected agents, focusing primarily on those agents with the most extensive clinical evidence at present.
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PMID:Non-cholinergic strategies for treating and preventing Alzheimer's disease. 1242 Nov 15

A cascade of pathophysiological events is triggered in Alzheimer disease (AD) that ultimately involves common cellular signaling pathways and leads to cellular and network dysfunction, failure of neurotransmission, cell death, and a common clinical outcome. The process is asynchronous, meaning that viable neurons remain as targets for therapy even in the diseased state, and each stage of the cascade affords the possibility for therapeutic intervention. Cholinesterase inhibitors are the only available treatment in the United States for patients with mild to moderate AD, helping maintain cognitive and functional abilities in most patients and conferring beneficial behavioral effects in some. Memantine is an NMDA receptor antagonist that has recently been approved in Europe for treatment of moderately severe to severe AD and is under investigation in the United States. Its mechanism of action may include enhanced neurotransmission in several systems as well as antiexcitotoxic effects. There are data regarding the effectiveness of the combination of memantine with cholinesterase inhibitors that will be useful for the practicing clinician. Other agents have shown some benefit in clinical trials, including the antioxidants vitamin E, selegiline, and Ginkgo biloba extracts, although the weight of evidence regarding their effects is not sufficient to define clinical practice. Potential future therapies currently are in development that target multiple aspects of the illness cascade, including aberrant inflammation, neurotrophic function, and processing of beta amyloid and tau proteins. These newer approaches hold promise for disease modification but are as yet unproven. Whether or not disease-modifying or preventive therapies become a reality, clinicians will be faced with AD patients who require treatment at all stages of illness for the indefinite future. Cholinergic and emerging noncholinergic medications will likely prevail as the standards of treatment for years to come.
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PMID:Current treatment for Alzheimer disease and future prospects. 1451 16

Alzheimer disease follows a pattern of gradual cognitive, behavioral, and functional decline. Other causes of dementia have overlapping presentations, but with important differences. Most patients with mild to moderate dementia should be treated with cholinesterase inhibitors to temporarily stabilize symptoms and delay clinically important end points. Memantine, an N-methyl-D-aspartate antagonist, may soon be available to treat moderate to severe dementia.
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PMID:Does this patient have Alzheimer disease? Diagnosing and treating dementia. 1451 71

Memantine has been demonstrated to be safe and effective in the symptomatic treatment of Alzheimer's disease (AD). While the neurobiological basis for the therapeutic activity of memantine is not fully understood, the drug is not a cholinesterase inhibitor and, therefore, acts differently from current AD therapies. Memantine can interact with a variety of ligand-gated ion channels. However, NMDA receptors appear to be a key target of memantine at therapeutic concentrations. Memantine is an uncompetitive (channel blocking) NMDA receptor antagonist. Like other NMDA receptor antagonists, memantine at high concentrations can inhibit mechanisms of synaptic plasticity that are believed to underlie learning and memory. However, at lower, clinically relevant concentrations memantine can under some circumstances promote synaptic plasticity and preserve or enhance memory in animal models of AD. In addition, memantine can protect against the excitotoxic destruction of cholinergic neurons. Blockade of NMDA receptors by memantine could theoretically confer disease-modifying activity in AD by inhibiting the "weak" NMDA receptor-dependent excitotoxicity that has been hypothesized to play a role in the progressive neuronal loss that underlies the evolving dementia. Moreover, recent in vitro studies suggest that memantine abrogates beta-amyloid (Abeta) toxicity and possibly inhibits Abeta production. Considerable attention has focused on the investigation of theories to explain the better tolerability of memantine over other NMDA receptor antagonists, particularly those that act by a similar channel blocking mechanism such as dissociative anesthetic-like agents (phencyclidine, ketamine, MK-801). A variety of channel-level factors could be relevant, including fast channel-blocking kinetics and strong voltage-dependence (allowing rapid relief of block during synaptic activity), as well as reduced trapping (permitting egress from closed channels). These factors may allow memantine to block channel activity induced by low, tonic levels of glutamate--an action that might contribute to symptomatic improvement and could theoretically protect against weak excitotoxicity--while sparing synaptic responses required for normal behavioral functioning, cognition and memory.
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PMID:The neuropharmacological basis for the use of memantine in the treatment of Alzheimer's disease. 1453 Jul 99

Current treatment of Alzheimer's disease (AD) has focused on the use of cholinesterase inhibitors. This review emphasizes emerging therapies for the treatment and/or prevention of AD with a focus on glutamatergic excitotoxicity in dementia and the therapeutic promise of the uncompetitive, low to moderate affinity N-methyl-D-aspartate (NMDA) receptor antagonist, memantine. Preclinical studies and clinical trials in AD, as well as the extensive clinical use of memantine for neurodegenerative conditions in Europe since 1982 support the safety, tolerability, and efficacy of this agent. Memantine was recently approved in Europe for the treatment of moderately severe to severe AD and is an investigational drug in the United States.
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PMID:Alzheimer's disease and the glutamate NMDA receptor. 1456 13

By some estimates moderate-to-severe Alzheimer's disease accounts for 50% of all patients with Alzheimer's disease. However, there are numerous issues that remain to be resolved in the management of patients with more advanced Alzheimer's disease. The first prospective, randomised, controlled trial of the cholinesterase inhibitor donepezil in more advanced Alzheimer's disease has reported quite encouraging results, with further studies being undertaken. Post-hoc analyses of rivastigmine and galantamine in patients with more advanced Alzheimer's disease have supported the hypothesis that acetylcholinesterase inhibitors are likely be efficacious in this subgroup. Memantine, a glutamate NMDA receptor antagonist, is newly licensed in Europe for the treatment of more advanced Alzheimer's disease and will provide the first non-cholinesterase inhibitor option for the treatment of Alzheimer's disease. The combination of donepezil and memantine has been shown to have superior efficacy than donepezil alone in this severe Alzheimer's disease subgroup, potentially supporting a role for dual treatment in more advanced Alzheimer's disease. Further studies of all aspects of more advanced Alzheimer's disease are clearly needed. The problems of translating clinical trial results to routine clinical practice are even more complex and challenging in this patient group, with the true impact of any one given treatment ranging over a spectrum of clinical domains from improved cognition to reduced caregiver burden. Increased attentiveness by clinicians to treatment response across this multidisciplinary spectrum in more advanced Alzheimer's disease is warranted.
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PMID:What are the treatment options for patients with severe Alzheimer's disease? 1522 74

Dementia is an acquired global impairment of cognitive capacities. Approximately 5% of people aged over 65 yr are affected by dementia, and some 70% of cases are thought to be due primarily to Alzheimer's disease. Descriptions of the clinical manifestations of Alzheimer's disease have been increasingly refined in the last decade but there is no diagnostic test for what remains fundamentally a pathologically defined condition. At the present time interventions for Alzheimer's disease are limited to those that modify the manifestations of the disease, and foremost amongst the candidates available are the cholinesterase inhibitors. The rationale for the use of cholinergic drugs for Alzheimer's disease lies in enhancing the secretion of, or prolonging the half-life of, acetylcholine in the brain. Several potential compounds have been tested, but short half-lives and a high incidence of cholinergic and other adverse effects have eliminated most. Only three are widely licensed for use, donepezil, galantamine and rivastigmine. Their efficacy is relatively modest. These drugs have been tested in 32 randomized, placebo-controlled trials. The trials assess cognitive function primarily, and in addition they may assess global function, activities of daily living, quality of life and behavioural disturbance typically over 3 or 6 months. The performance of each drug is summarized in a Cochrane review, a systematic review carried out according to strict guidelines. There was a significant benefit in favour of treatment compared with placebo for cognition and activities of daily living, but withdrawals due to adverse events were significantly higher for treatment than placebo for all three drugs. There is little evidence from direct comparisons between the three drugs. There are several economic analyses of the cost-effectiveness of these drugs, but the findings cannot be considered robust owing to inadequate data. A range of other pharmacological treatments have been tested, including selegiline, piracetam, vitamin E, Ginkgo biloba, anti-inflammatory drugs and hormone replacement therapy, but, so far, Cochrane reviews have not established the efficacy of these interventions for Alzheimer's disease. A Cochrane review of memantine shows benefits on cognitive and global function of the same order of magnitude as seen for the cholinesterase inhibitors. Memantine has been licensed in Europe for treatment of patients with moderately severe to severe Alzheimer's disease.
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PMID:Evidence-based pharmacotherapy of Alzheimer's disease. 1522 42

Rivastigmine, a cholinesterase inhibitor, is successfully used for the symptomatic therapy of Alzheimer's disease (AD) in the clinic. The drug has a very low potential for drug-drug interactions, as has been demonstrated within large clinical trials. Memantine, recently approved by the FDA for the treatment of moderate to severe AD, acts as a low affinity, non-competitive NMDA-antagonist, on a completely different neurotransmitter system, the glutamatergic system. Given the different sites of action, the possibility to combine a cholinergic with a glutamatergic intervention as potentially superior AD therapy has recently been proposed. In vitro studies have demonstrated that memantine, when added to reversible AChE inhibitors, such as tacrine, donepezil or galantamine, did not interfere with the inhibitory action of any of these drugs. The results from the present study provide evidence that rivastigmine as a pseudo-irreversible (or slow-reversible) AChE inhibitor shares this property described for reversible inhibitors, since memantine (1-100 microM), irrespective of whether given prior to or after rivastigmine did not influence rivastigmine's AChE inhibition in vitro. A similar observation was also made under in vivo conditions (ex vivo measurements): following a 21 day chronic, oral administration of 6 micromol/kg rivastigmine alone or of a combination of rivastigmine plus memantine (6 micromol/kg p.o. of either of the two compounds), an identical degree of AChE inhibition was observed. The concentrations of rivastigmine, its metabolite NAP 226-90 and memantine were measured in the brain of the same animals. Following an equimolar oral dose (6 micromol/kg) of both compounds, the brain level of memantine exceeded that of rivastigmine + metabolite, by a factor of around 30, when measured 2 h after the final dosing, irrespective of the duration of treatment (acute, for 3 or 21 days). This indicates that neither of the two drugs showed accumulation but also, and more importantly, that memantine does not modulate the prime therapeutic action of rivastigmine (AChE inhibition) in vitro or in vivo. Clinical trials using a combination of both drugs will provide a final proof of whether a combination therapy would lead to an increased efficacy in AD patients.
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PMID:Co-administration of memantine has no effect on the in vitro or ex vivo determined acetylcholinesterase inhibition of rivastigmine in the rat brain. 1527 30

Memantine is an NMDA receptor antagonist with moderate affinity, which results in neuroprotective potential due to reducing overstimulation caused by glutamate (excitotoxicity) and simultaneous lack of adverse events (especially psychosis) typical for an antagonist with higher affinity like phencyclidine. In randomized, controlled studies it has been shown that memantine is beneficial in the treatment of moderate to severe dementia of Alzheimer's type and it became the very first compound to be registered for this purpose both in Europe (including Poland) and in the United States. Further investigation require usefulness of memantine in less advanced stages of Alzheimer's disease as well as other types of dementia especially vascular; promising results are shown in dual therapy: memantine + cholinesterase inhibitor.
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PMID:[The clinical relevance of memantine use]. 1530 96

Alzheimer's disease is the fourth largest cause of death for people over 65 years of age. Dementia of Alzheimer's type is the commonest form of dementia, the other two forms being vascular dementia and mixed dementia. At present, the therapy of Alzheimer's disease is aimed at improving both, cognitive and behavioural symptoms and thereby, quality of life for the patients. Since the discovery of Alzheimer's disease by Alois Alzheimer, many pathological mechanisms have been proposed which led to the testing of various new treatments. Until recently the available drugs for the treatment of Alzheimer's disease are cholinesterase inhibitors, which have limited success because these drugs improve cognitive functions only in mild dementia and cannot stop the process of neurodegeneration. Moreover, drugs of this category show gastrointestinal side effects. As the cells of central and peripheral nervous system cannot regenerate, newer strategies are aimed at preserving the surviving neurons by preventing their degeneration. NMDA-receptor-mediated glutamate excitotoxicity plays a major role in Abeta-induced neuronal death. Hence, it was thought that NMDA receptors could be a promising target for preventing the progression of Alzheimer's disease. All the compounds synthesized initially in this category showed toxicity mainly because of their high affinity for NMDA receptors. Memantine (1-amino adamantane derivative), NMDA-receptor antagonist was reported to be effective therapeutically in Alzheimer's disease. It was available in Germany as well as European Union and has been approved for moderate to severe dementia in United States of America recently. It is an uncompetitive, moderate affinity antagonist of NMDA receptors that inhibits the pathological functions of NMDA receptors while physiological processes in learning and memory are unaffected. Memantine is also reported to have beneficial effects in other CNS disorders viz., Parkinson's disease (PD), stroke, epilepsy, CNS trauma, amyotrophic lateral sclerosis (ALS), drug dependence and chronic pain. Mechanisms of neuroprotection, preclinical and clinical evidence for effectiveness of memantine have been provided. Pharmacology and pharmacokinetics of memantine and other NMDA-receptor antagonists in comparison with currently approved drugs for dementia treatment have been discussed. The focus is on 'glutamate excitotoxicity' and glutamate receptors as drug target. Various other novel strategies for the treatment of dementia of neurodegenerative disorders have also been discussed.
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PMID:Dementia of Alzheimer's disease and other neurodegenerative disorders--memantine, a new hope. 1551 30


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