UMLS:C0030567 - FACTA Search

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)

CGS 15873 is a relatively specific dopamine agonist with preferential activity at the presynaptic autoreceptor and therefore may represent a novel agent for the treatment of schizophrenia and/or Parkinson's disease. Several metabolites have been identified in the rat and monkey using an isotopically enriched dosing solution and pattern recognition techniques coupled with GC/MS and LC/MS. In this study, the metabolism of CGS 15873 was investigated in man using these same techniques. In urine, specific isotope clusters were found that matched the dosing solution pattern. Three metabolites were identified: an O-glucuronide conjugate of the parent drug, N-despropyl CGS 15873, and a keto metabolite of CGS 15873. Thermospray LC/MS allowed for the direct confirmation of the conjugated metabolite. GC/MS required derivatization but afforded greater sensitivity compared to LC/MS.
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PMID:The metabolism of CGS 15873 in man using stable isotope pattern recognition techniques. 135 44

The collected amount of research on D2 agonists is immense. The D2 research field has been, and still is, very dynamic. Despite this fact, only a few compounds have reached the clinic so far. At present there are clinical trials ongoing with partial D2 agonists possessing a range of intrinsic efficacies. Some of these agonists are tested for their potential effects in Parkinson's disease (high intrinsic efficacy), while others are tested for potential anti-psychotic effects (low intrinsic efficacy). An interesting possibility has arisen through the research on the synergism between D1 and D2 receptors. This could possibly be utilized in the alleviation of Parkinsonian symptomatology. The near future will show whether the compounds under evaluation hold promise for being new, valuable medicines for treating major diseases like Parkinson's disease and schizophrenia.
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PMID:Centrally acting dopamine D2 receptor ligands: agonists. 136

D2 dopamine receptor may be related with the pathogenesis of Parkinson's disease and schizophrenia. Furthermore, the antipsychotic drugs have high affinity for D2 dopamine receptor. We carried out the cloning of the genomic DNA for human D2 dopamine receptor and clarified the structure of this gene. Our isolated gene spans about 15 kbp and consists of seven exons interrupted by six introns. However, putative first exon was not yet identified. Spot blot hybridization analysis of cell sorter fractionated human chromosomal DNA with D2 receptor genomic DNA revealed the localization of this gene in the chromosome 11 fraction. We analyzed human genomic DNA by Southern blot hybridization with D2 dopamine receptor genomic DNA as a probe, but so far we could not find RFLP. Northern blot analyses of brain RNA of several animals and rat brain RNA after various treatments were carried out. Developmental changes of D2 dopamine receptor mRNA were observed in the rat brains.
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PMID:Structure and expression of human and rat D2 dopamine receptor genes. 136 62

It is currently thought that genetic predisposition to imbalances in dopaminergic transmission may underlie several neurological disorders, including schizophrenia, manic depression, Tourette syndrome, Parkinson disease, Huntington disease, and alcohol abuse. Originally two receptors, D1 and D2, were thought to account for all of the pharmacological actions of dopamine. However, through homology screening three additional genes, D3, D4, and D5, and two pseudogenes closely related to D5 have been characterized. To begin our genomic and evolutionary analyses of the human D5 dopamine receptor gene and its two pseudogenes, we have mapped each of them to their respective chromosomes. By combining in situ hybridization results with sequence analysis of PCR products from microdissected chromosomes, somatic cell hybrids, and radiation hybrids, we have assigned DRD5 (the locus containing the functional human D5 receptor gene) to chromosome 4p16.1, DRD5P1 (the locus containing D5 pseudogene 1) to chromosome 2p11.1-p11.2, and DRD5P2 (the locus of D5 pseudogene 2) to chromosome 1q21.1.
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PMID:Chromosomal localization of three human D5 dopamine receptor genes. 138 8

Two major pharmacological classes of dopamine receptors exist in the central nervous system. These receptors have been designated as D1 or D2 based upon their differing pharmacology and influence on the cyclic AMP second messenger system. Different genes for the D1 and D2 dopamine receptors have been isolated and are found to be expressed in high abundance. Within the neostriatum, however the cellular distribution of the dopamine receptors is equivocal. Dopamine receptors are the targets for drugs used to treat neurological dysfunctions such as Parkinson's disease and schizophrenia, and thus knowledge of their specific cellular location is important for devising future therapeutic manipulations. Using retrograde labeling methods combined with immunofluorescence of various receptor amino acid sequences, this study has examined the postsynaptic distribution of striatal D2 dopamine receptors. We have found that the D2 dopamine receptor can be visualized on a minimum of 60% of the neurons projecting from the neostriatum to the substantia nigra. However, some 65% of all D2 receptor positive cells are represented by other intrinsic neurons of this basal ganglia nucleus.
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PMID:D2 dopamine receptor localization on striatonigral neurons. 143 5

Nuclear medicine has a place in the study of brain trauma, brain tumours, stroke, dementia epilepsy and depression. The development of new tracers labelled with widely available radionuclides, such as technetium-99m (99Tc) and iodine-123, has played a key role here. Practical methodology can now be implemented in the routine setting. Additional applications are reviewed in the context of brain death, encephalitis, post-viral fatigue syndrome, Parkinson's disease and schizophrenia.
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PMID:The role of nuclear medicine in neurology and psychiatry. 146 80

The gene encoding the D2 dopamine receptor (DRD2) is located on human chromosome 11q23 and has been circumstantially associated with a number of human disorders including Parkinson's disease, schizophrenia, and susceptibility to alcoholism. To determine the physical structure of the DRD2 gene, we utilized cosmid cloning, isolation of yeast artificial chromosomes (YACs), and pulsed-field gel electrophoresis to construct a long-range physical map of human chromosome 11q23 linking the genes for the DRD2 and neural cell adhesion molecule (NCAM). The D2 dopamine receptor gene extends over 270 kb and includes an intron of approximately 250 kb separating the putative first exon from the exons encoding the receptor protein. The resulting physical map spans more than 1.5 mb of chromosome band 11q23 and links the DRD2 gene with the gene encoding the NCAM located 150 kb 3' of the DRD2 gene and transcribed from the same DNA strand. We additionally located the sites of at least four hypomethylated HTF islands within the physical map, which potentially indicate the sites of additional genes. High-resolution fluorescent in situ suppression hybridization using cosmid and YAC clones localized this gene cluster between the ApoAI and STMY loci at the interface of bands 11q22.3 and 11q23.1.
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PMID:Structure and linkage of the D2 dopamine receptor and neural cell adhesion molecule genes on human chromosome 11q23. 147 42

Neuronal thread protein (NTP) is a recently characterized molecule that is over-expressed in brains with Alzheimer's disease (AD) lesions. The present study encompasses a detailed analysis of NTP expression in AD compared with other neurodegenerative diseases and aged controls. Using a specific monoclonal antibody, NTP immunoreactivity was evaluated in 309 paraffin-embedded sections from 8 different regions of the frontal, parietal, and temporal lobes of 73 brains with AD, AD + Down's syndrome (DN), AD + Parkinson's disease (PD), PD dementia (PDD), aged controls, and disease controls with Huntington's disease, multi-infarct dementia, or schizophrenia. In 250 adjacent blocks of snap-frozen unfixed tissue the concentration of NTP (ng/mg of protein) was measured using a 3-site forward sandwich monoclonal antibody based immunoradiometric assay (M-IRMA). Immunohistochemical studies demonstrated that brains with AD, AD + PD, and AD + DN contained significantly higher densities of NTP immunoreactive neurons and more frequent immunostaining of neuropil and white matter fibers compared with PDD and aged controls (both P < 0.001) which had few or no AD lesions. In addition, the overall mean concentrations of NTP in AD, AD + PD, and AD + DN were significantly higher than in PDD and aged controls (P < 0.005). Greater degrees of NTP immunoreactivity and higher concentrations of the protein in cerebral tissue were significantly correlated with AD diagnosis and abundant neurofibrillary tangles (P < 0.005). The findings suggest that NTP over-expression may serve as a marker for the type of neuronal degeneration that occurs in AD.
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PMID:Neuronal thread protein over-expression in brains with Alzheimer's disease lesions. 148 53

Thirteen medication-free chronic schizophrenic patients and 11 normal control subjects were administered a trial by trial version of the Stroop Color Naming Task which evaluated separately the processes of interference and facilitation. There was no difference between the groups in the amount of interference to naming the colors of color-incongruent words. However, patients with schizophrenia showed significantly greater speed in naming the colors of color-congruent words when compared with control subjects. Thus, facilitation on the Stroop Task appears to be selectively enhanced in schizophrenia. Similar findings have been recently observed in patients with Parkinson's disease. This result may indicate a selective disruption of an automatic inhibitory process in this patient group and is consistent with the hypothesis that a deficit in mesocortical dopamine projections to the frontal cortex underlies some of the cognitive deficits of chronic schizophrenia.
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PMID:Abnormal processing of irrelevant information in chronic schizophrenia: selective enhancement of Stroop facilitation. 157 40

There is evidence to suggest that glutamate and other excitatory amino acids play an important role in the regulation of neuronal excitation. Glutamate receptor stimulation leads to a non-physiological increase of intracellular free Ca2+. Disturbed Ca2+ homeostasis and subsequent radical formation may be decisive factors in the pathogenesis of neurodegenerative diseases. Decreased glutamatergic activity appears to contribute to paranoid hallucinatory psychosis in schizophrenia and pharmacotoxic psychosis in Parkinson's disease. It has been suggested that a loss of glutamatergic function causes dopaminergic over-activity. Imbalances of glutamatergic and dopaminergic systems in different brain regions may result in anti-akinetic effects or the occurrence of psychosis. The simplified hypothesis of a glutamatergic-dopaminergic (im)-balance may lead to a better understanding of motor behaviour and psychosis.
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PMID:Glutamate receptor antagonism: neurotoxicity, anti-akinetic effects, and psychosis. 168 83

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