Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UMLS:C0030567 (Parkinson's disease)
 63,064 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Dementia in Parkinson's disease has previously been attributed to the presence in the cerebral cortex of Alzheimer-type neuropathological abnormalities. New evidence suggests, however, that dementia in this disease usually occurs in the absence of substantial Alzheimer-type changes in the cortex and may be related to abnormalities in the cortical cholinergic system. Thus, in Parkinsonian patients with dementia there were extensive reductions of choline acetyltransferase and less extensive reductions of acetylcholinesterase in all four cortical lobes. Choline acetyltransferase reductions in temporal neocortex correlated with the degree of mental impairment assessed by a test of memory and information but not with the extent of plaque or tangle formation. In Parkinson's but not Alzheimer's disease the decrease in neocortical (particularly temporal) choline acetyltransferase correlated with the number of neurons in the nucleus of Meynert suggesting that primary degeneration of these cholinergic neurons may be related, directly or indirectly, to declining cognitive function in Parkinson's disease.
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PMID:Cholinergic correlates of cognitive impairment in Parkinson's disease: comparisons with Alzheimer's disease. 399 51

Delta-9-tetrahydrocannabinol (THC), a substance in marihuana, was found to produce a profound potentiation of reserpine-induced hypokinesia in rats as measured with a bar test. In these experiments, THC had no hypokinetic effect by itself but produced a more than 20-fold increase in the hypokinesia produced by reserpine. Reserpine-induced hypokinesia has been viewed as animal model of Parkinson's Disease. THC potentiation of reserpine-induced hypokinesia was observed to be both time- and dose-dependent (1 to 10 mg/kg THC). When administered by gavage to reserpine-pretreated subjects (7.5 mg/kg IP, 24 hours before), THC produced a potentiation of hypokinesia that developed fully within 1 hour, lasted at least 5 hours, and was absent by 12 hours after THC administration. This THC effect was slightly increased by physostigmine, a cholinesterase inhibitor, relatively unaffected by scopolamine, a muscarinic antagonist, and almost completely blocked by ethopropazine, an anticholinergic antiparkinson drug. The effect was completely unaffected by naloxone. Insofar as reserpine has been used with some clinical efficacy in hyperkinetic movement disorders such as Huntington's disease and tardive dyskinesia, it may be that potentiation of reserpine's hypokinetic effect by a drug such as THC could greatly increase the clinical value of reserpine or related drugs in the treatment of these disorders.
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PMID:Tetrahydrocannabinol potentiates reserpine-induced hypokinesia. 627 40

We examined the relationship of disease laterality to neuropsychological and neurochemical features in patients with idiopathic Parkinson's disease (PD). We tested patients with PD, patients with Alzheimer's type of senile dementia, and a control group neuropsychologically, and we determined their CSF levels of homovanillic acid, 3,4-dihydroxyphenylacetic acid, 3-methoxy-4-hydroxyphenylglycol, 5-hydroxyindolacetic acid, serotonin, and acetylcholinesterase. The patients with PD were divided into two groups depending on the side of the body with greater disease involvement. Both parkinsonian groups, those more affected on the left (group L) and those more affected on the right (group R), were otherwise similar in all other clinical and historical features. Group L patients showed greater neuropsychological impairments than group R patients. Group L also had significantly higher CSF levels of homovanillic acid and acetylcholinesterase than group R. These findings of neuropsychological and neurochemical differences between groups L and R suggest functional or anatomic asymmetries of dopaminergic systems in the CNS.
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PMID:Parkinson's disease. The possible relationship of laterality to dementia and neurochemical findings. 647 29

An in vitro mammalian model neuronal system to evaluate the intrinsic toxicity of soman and other neurotoxicants as well as the efficacy of potential countermeasures was investigated. The link between soman toxicity, glutamate hyperactivity and neuronal death in the central nervous system was investigated in primary dissociated cell cultures from rat hippocampus and cerebral neocortex. Exposure of cortical or hippocampal neurons to glutamate for 30 min produced neuronal death in almost 80% of the cells examined at 24 h. Hippocampal neurons exposed to soman for 15-120 min at 0.1 microM concentration caused almost complete inhibition (> or = 90%) of acetylcholinesterase but failed to show any evidence of effects on cell viability, indicating a lack of direct cytotoxicity by this agent. Acetylcholine (ACh, 0.1 mM), alone or in combination with soman, did not potentiate glutamate toxicity in hippocampal neurons. Memantine, a drug used for the therapy of Parkinson's disease, spasticity and other brain disorders, significantly protected hippocampal and cortical neurons in culture against glutamate and N-methyl-D-aspartate (NMDA) excitotoxicity. In rats a single dose of memantine (18 mg/kg) administered 1 h prior to a s.c. injection of a 0.9 LD50 dose of soman reduced the severity of convulsions and increased survival. Survival, however, was accompanied by neuronal loss in the frontal cortex, piriform cortex and hippocampus.
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PMID:Assessment of primary neuronal culture as a model for soman-induced neurotoxicity and effectiveness of memantine as a neuroprotective drug. 749 76

Acetylcholinesterase has an action in the central nervous system, independent of hydrolysis of acetylcholine. This study explored the possible interaction between the two molecules: the effects of acetylcholinesterase on the autoxidation of the catecholamine were tested, and, in turn, modification of the catalytic activity of the enzyme by products of dopamine oxidation were studied. Acetylcholinesterase selectively inhibited the speed of quinone production from dopamine as well as accumulation of hydrogen peroxide, whilst the rate of generation of superoxide was increased. Analysis of absorption spectra revealed the formation of a new product, which appeared after mixing acetylcholinesterase and dopamine in neutral pH. In all cases, butyrylcholinesterase was ineffective. Incubation of acetylcholinesterase in the presence of dopamine resulted in a significant decrease in the catalytic activity of the enzyme. The effects of application of preparations modifying autoxidation of dopamine (SOD, catalase, peroxidase) suggested that inactivation of the enzyme occurred as a result of the direct interaction of a quinone and/or semiquinone oxidation product with enzyme, as opposed to any effects of reactive oxygen species. Because acetylcholinesterase and dopamine are co-released from the neurons degenerating in Parkinson's disease, a direct chemical interaction between these two molecules could have significance both for the normal functioning of the substantia nigra and for related pathological states.
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PMID:A possible interaction between acetylcholinesterase and dopamine molecules during autoxidation of the amine. 774 5

125I-Nerve growth factor (NGF) binding sites were analyzed by autoradiography in the striatum of 3 control subjects, 3 patients with Parkinson's disease and 3 patients with progressive supranuclear palsy. A high level of 125I-NGF binding was observed (0.3-0.4 fmol/mg of tissue equivalent) in the striatum and the nucleus basalis of Meynert of control patients. Pockets of lower 125I-NGF binding corresponding to acetylcholinesterase-poor striosomes were detected in the striatum of control subjects and patients with Parkinson's disease or progressive supranuclear palsy. When compared to controls, the density of 125I-NGF binding sites was reduced by 30% in the striatum of patients with progressive supranuclear palsy but not reduced in that of patients with Parkinson's disease. 125I-NGF binding was not significantly decreased in the nucleus basalis of Meynert in either diseases. Since NGF receptors are thought to be localized on cholinergic neurons in the striatum, the decrease in NGF binding is compatible with the loss of cholinergic neurons reported in the striatum from PSP patients.
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PMID:Loss of striatal high affinity NGF binding sites in progressive supranuclear palsy but not in Parkinson's disease. 789 88

This article has discussed various possible pharmacologic approaches to Alzheimer's disease. Despite generally encouraging results, no agent to date has proved to be dramatically effective. At present, treatment options are limited for the clinicians. Tacrine is available on the market. In the doses recommended, efficacy is modest, and side effects require vigilance in monitoring. Other cholinesterase inhibitors may be approved for clinical use in the near future but are likely to have similar modest clinical effects. L-deprenyl is marketed for Parkinson's disease but has not been adequately tested for efficacy in Alzheimer's disease. Newer drugs in earlier stages of development are generally intended to affect cholinergic systems in various other ways. The effects of these drugs on behavioral symptoms, in severe dementia, and in non-Alzheimer's dementia have not been adequately assessed. In the absence of known cause, and in the face of uncertainty regarding pathophysiology, efforts in the near future will focus on encouraging theoretical leads, sensible empiric trials, and symptomatic treatment research. Although public anticipation will be raised over each announced "breakthrough," only results from carefully conducted trials should be accepted.
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PMID:Emerging drugs for Alzheimer's disease. Mechanisms of action and prospects for cognitive enhancing medications. 802 37

1. Due to their involvement in the termination of neurotransmission at cholinergic synapses and neuromuscular junctions, cholinesterases are the target proteins for numerous drugs of neuro-psychopharmacology importance. 2. In order to perform structure-function relationship studies on human cholinesterases with respect to such drugs, a set of expression vectors was engineered, all of which include cloned cDNA inserts encoding various forms of human acetyl- and butyrylcholinesterase. These vectors were designed to be transcribed in vitro into their corresponding mRNA products which, when microinjected into Xenopus oocytes, are efficiently translated to yield their catalytically active enzymes, each with its distinct substrate specificity and sensitivity to selective inhibitors. 3. A fully automated microtiter plate assay for evaluating the inhibition of said enzymes by tested cholinergic drugs and/or poisons has been developed, in conjunction with computerized data analysis, which offers prediction of such inhibition data on the authentic human enzymes and their natural or mutagenized variants. 4. Thus, it was found that asp70-->gly substitution renders butyrylcholinesterase succinylcholine insensitive and resistant to oxime reactivation while ser 425-->Pro with gly70 gives rise to the "atypical" butyrylcholinesterase phenotype, abolishing dibucaine binding. 5. Furthermore, differences in cholinesterase affinities to physostigmine, ecothiophate and bambuterol were shown in these natural variants. 6. Definition of key residues important for drug interactions may initiate rational design of more specific cholinesterase inhibitors, with fewer side effects. This, in turn, offers therapeutic potential in the treatment of clinical syndromes such as Alzheimer's and Parkinson's disease, glaucoma and myasthenia gravis.
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PMID:Structure-function relationship studies in human cholinesterases reveal genomic origins for individual variations in cholinergic drug responses. 827 1

The effect of the neurotoxicant, 1-methyl-4-phenylpyridinium ion (MPP+) on acetylcholinesterase (AchE) activity was investigated. The MPP+ was found to inactivate the enzyme in a dose dependent manner. The kinetic parameter, Km for the substrate (acetylthiocholine), was found to be 0.216 mM and Ki for MPP+ for the inactivation of AChE was found to be 0.197 mM. It was found that MPP+ is neither a substrate of AChE nor the time-dependent inactivator. The studies of reaction kinetics indicate the inactivation of AChE to be a linear mixed-type inhibition. The inactivation of AChE by MPP+ was partially recovered by either dilution or gel exclusion chromatography. These data suggest that once MPP+ enters the basal ganglia of the brain, it can inactivate the AChE and thereby increase the acetylcholine level in the basal ganglia, leading to potential cell dysfunction. It appears likely that the nigrostriatal toxicity by MPP+ leading to Parkinson's disease-like syndrome may, in part, be mediated via the AChE inactivation.
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PMID:Acetylcholinesterase inhibition by 1-methyl-4-phenylpyridinium ion, a bioactivated metabolite of MPTP. 830 94

Using Ellman spectrophotometric method we measured the total cholinesterase (ChE) activity in lumbar cerebrospinal fluid (CSF) of 13 persons without neurological disorder, 10 non-demented patients with cerebral infarcts, 17 patients with dementia of Alzheimer's type (DAT) (11 presenile, 6 senile cases), 10 patients with multi-infarct dementia (MID), 1 patient with Parkinson's disease associated with dementia. The ChE activity in CSF was significantly lower in the DAT group compared with age-matched control subjects (p < 0.001). This paper also analyses the possibility of using CSF ChE activity as a marker of DAT, and the relationships between its level of activity and the age of the patient at onset, stage of illness and severity of dementia as well as discrepancies in the data published so far. Previous work has shown that ChE activity in the brain tissue and CSF of MID is normal: therefore, if low ChE activity is found in the CSF of MID patients, as was obtained in 8 out of 10 cases in our series, the diagnosis of mixed dementia should be considered.
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PMID:CSF cholinesterase in early-onset and late-onset Alzheimer's disease and multi-infarct dementia of Chinese patients. 842 8


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