Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: 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)

It has been suggested that not only mesostriatal but also mesolimbic pathways are involved in the degeneration of dopaminergic neurons in Parkinson's disease. Using quantitative ligand autoradiography we have investigated dopamine transporter sites in basal ganglia of patients affected by Huntington's chorea, Parkinson's disease and progressive supranuclear palsy. [3H]Mazindol, a ligand for catecholamine uptake, was used in the presence of desipramine to block the binding to norepinephrine uptake sites. Schizophrenic cases were entered in the study to take into account the effects of neuroleptics, commonly administered also to Huntington's disease patients, on dopamine uptake sites. In control cases high densities of [3H]mazindol binding sites were found in the caudate nucleus, putamen and nucleus accumbens, whereas very low densities were present in substantia nigra and ventral tegmental area. In Huntington's chorea the density of [3H]mazindol binding sites was slightly decreased in the caudate nucleus, an area severely affected by the neurodegenerative process. In schizophrenic patients the density of dopamine uptake sites in the basal ganglia was slightly reduced, mainly in the middle third of putamen. Both Parkinson's disease and progressive supranuclear palsy populations were characterized by a marked loss of [3H]mazindol binding sites in the neostriatum (about 75%) and in the nucleus accumbens (about 65%). These results suggest that in Parkinson's disease and progressive supranuclear palsy severe decreases of dopamine uptake sites occur not only in the mesostriatal pathway but also in the mesolimbic tract.
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PMID:Mesostriatal and mesolimbic dopamine uptake binding sites are reduced in Parkinson's disease and progressive supranuclear palsy: a quantitative autoradiographic study using [3H]mazindol. 143 70

Potentially endogenous beta-carboline and 3,4-dihydro-beta-carboline alkaloidal compounds were compared, generally as 2-methylated (quaternary) and normethylated pairs, to the neurotoxin, 1-methyl-4-phenyl-dihydropyridinium ion (MPP+), with respect to inhibition of [3H]dopamine uptake into rat striatal synaptosomal preparations. Although less potent than MPP+, several compounds displayed IC50 values for inhibition in the moderate range (12-24 microM). Notably, quaternization generally did not improve inhibitory potency, and the 3,4-dihydro-compounds often were more effective inhibitors than their heteroaromatic analogs. The partially competitive nature of inhibition by one of the more effective pairs, 2-methyl-harmine and harmine, was consistent with uptake of the beta-carbolines by the synaptosomal dopamine uptake system, as was the fact that the accumulation of 2-[14C]methyl-harmine was significantly reduced by low Na+ media and by nomifensine, a potent inhibitor of the dopamine transporter. When viewed with reports that certain 2-methyl-beta-carbolines show MPP+-like toxicity in vitro and in vivo, these studies support the proposal that a mammalian beta-carbolinium compound may be taken up by nigrostriatal neurons and provoke the neuronal degeneration underlying Parkinson's disease.
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PMID:Dopamine uptake inhibitory capacities of beta-carboline and 3,4-dihydro-beta-carboline analogs of N-methyl-4-phenyl-1,2,3,6-tetrahydropyridine (MPTP) oxidation products. 213 18

In recent years, there has been substantial progress in studying the dopamine transporter, a unique component of the functioning dopaminergic nerve terminal. The transporter has been studied by direct binding techniques using a variety of ligands which function as inhibitors of transport. Analogues of these ligands have been used as photoaffinity labels to solubilize and further characterize the transporter. While a variety of drugs bind to the transporter, it is clear that the transporter may serve as an important drug receptor, particularly for the reinforcing properties of some psychostimulants such as cocaine. An extension of the in vitro ligand-binding studies reveals that it is possible to preferentially label the transporter in vivo. The success of in vivo labeling has lead to successful positron emission tomographic scanning studies of the transporter. These studies in turn have revealed the usefulness of imaging the transporter, a measure of the presence of dopaminergic nerve terminals, as a potential diagnostic tool in Parkinson's disease.
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PMID:Dopamine transporter: biochemistry, pharmacology and imaging. 217 37

The loss of midbrain dopamine in Parkinson's disease is accompanied by a matching loss in the dopamine transporter and a rise in the D1 and D2 receptor densities. This is found in the brain putamen and caudate tissues from unmedicated patients, and may account for the good early clinical response to L-dopa. Long-term L-dopa treatment reverts the receptor densities toward normal levels. Positron emission tomography (PET) data and in vitro data generally concur. In schizophrenia the density of the dopamine transporter as well as that of the D1 dopamine receptor is normal. The D2 receptor density, however, is consistently elevated in postmortem brain putamen and caudate nucleus, even in tissues from neuroleptic-free or drug-naive patients. Three sets of PET and single photon emission computed tomography (SPECT) data support the postmortem findings. Early evidence indicating abnormal D2 structure as well as a reduced link between D1 and D2 warrant a detailed study of the genes for these two receptors in schizophrenia.
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PMID:Dopamine receptors and transporters in Parkinson's disease and schizophrenia. 219 54

[3H]GBR 12935 bound with high affinity to dopamine uptake sites in rat striatum where a close parallelism was observed between the subcellular localization profiles for [3H]dopamine uptake and [3H]GBR 12935 specific binding. Using the same ligand, we characterized the dopamine uptake sites in human striatum: the mean KD value was 3.2 nM and the specific binding was inhibited by several dopamine uptake blockers but with slightly lower affinities than those observed in the rat. The subcellular localization profile revealed a synaptosomal enrichment of the specific binding in human striatum. [3H]GBR 12935 binding was decreased in the putamen and caudate nucleus of subjects with Parkinson's disease (33 and 46% of control values, respectively) and progressive supranuclear palsy (38 and 57% of control values, respectively). It is very unlikely that the remaining binding sites in both diseases correspond to piperazine acceptor sites that are not involved in dopamine uptake. However, we cannot exclude the possibility that some of these remaining dopamine transporter sites are not functional, since the reduction in [3H]GBR 12935 specific binding was less marked than the decrease in the dopamine content of the same areas.
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PMID:[3H]GBR 12935 binding to dopamine uptake sites: subcellular localization and reduction in Parkinson's disease and progressive supranuclear palsy. 321 81

The dopamine transporter (DAT) is a primary site for the action of cocaine in inducing euphoria. Its action is necessary for the selectivities of dopaminergic neurotoxins that provide the best current experimental models of Parkinson's disease. In the present report, rat dopamine transporter-like immunoreactivity (iDAT) was assessed by immunohistochemistry using newly developed polyclonal antisera raised against conjugated peptides corresponding to sequences found in the dopamine transporter's carboxy- and amino-termini. Dense iDAT was observed in patterns consistent with neural processes and terminals in the striatum, nucleus accumbens, olfactory tubercle, nigrostriatal bundle, and lateral habenula. Perikarya in the substantia nigra pars compacta were immunostained with moderate intensity using one of two immunohistochemical methods, while scattered ventral tegmental area perikarya were stained with somewhat less intensity. Immunoreactive neuronal processes with axonal and dendritic morphologies were stained in the substantia nigra and the paranigral and parabrachialis pigmentosus nuclei of the ventral tegmental area, while sparser processes were noted more medially in the ventral tegmental area. Neuronal processes were found in several laminae in the cingulate cortex, with notable fiber densities in the superficial aspects of lamina I and laminae II/III. The intensities of immunoreactivities in striatum and cerebral cortex were dramatically attenuated ipsilateral to nigrostriatal bundle 6-hydroxydopamine lesions. Specificity of immunostaining was supported by agreement of the results using sera directed against two distinct DAT segments, studies with preimmune and preadsorbed sera and studies of the extracted protein. These antisera identify and reveal details of the distribution of DAT immunoreactivity in rat brain and display variations in levels of DAT expression of likely functional significance.
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PMID:Dopamine transporter immunoreactivity in rat brain. 749 33

Parkinsonism occurs in approximately 35 to 40% of patients with Alzheimer's disease (AD) even with little or no neuronal degeneration in the substantia nigra, which in idiopathic Parkinson's disease (PD) results in the severe loss of striatal dopamine transporter sites. It is not known if there is a loss of striatal dopamine transporter sites in AD with coexistent parkinsonism (AD/parkinsonism). We quantified the pattern of these sites in the striatum and midbrain of patients with the clinical diagnosis of PD, AD, and AD/parkinsonism in comparison with a group of age-matched control subjects. We also quantified the number of D2 receptors and the levels of tyrosine hydroxylase in the substantia nigra and ventral tegmental area of the same groups. The results showed that in AD the loss of dopamine transporter sites was restricted to the nucleus accumbens. The loss of these sites in the AD/parkinsonism group was more extensive than in the AD group, with the most severe losses in the rostral caudate and putamen and least in the caudal caudate and putamen. While the PD group showed an equally severe reduction in numbers of sites, the caudal to rostral gradient of loss differed from that in the AD/parkinsonism group. The PD group also showed a marked loss of dopamine transporter sites, tyrosine hydroxylase, and D2 autoreceptors (located on dopamine neurons) in the substantia nigra and ventral tegmental area. In contrast, no reductions in dopamine transporter sites, tyrosine hydroxylase, and D2 autoreceptors were observed in the substantia nigra and ventral tegmental area of the AD or AD/parkinsonism groups. Thus, the loss of striatal dopamine transporter sites in AD/parkinsonism may be related to the clinical parkinsonian symptoms. However, the loss is not simply the result of neuronal degeneration in the substantia nigra, but must derive from other processes.
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PMID:Damage to dopamine systems differs between Parkinson's disease and Alzheimer's disease with parkinsonism. 769 30

Dysfunction of dopamine neural systems is hypothesized to underlie neuropsychiatric disorders and psychostimulant drug abuse. At least three dopamine systems have been characterized in the brain-nigrostriatal, mesolimbic, and mesocortical. Abnormalities of nigrostriatal dopamine neurons cause motor impairment leading to Parkinson's disease, whereas dysfunction of mesolimbic and mesocortical dopamine neurons are most implicated in psychotic disorders such as schizophrenia and in drug addition. One of the primary neural sites of action of potent antipsychotic agents and psychostimulant drugs of abuse are dopamine receptors and dopamine transporters which, respectively, mediate the induction and termination of dopamine's actions. Very limited information is, however, available about which particular set of dopaminergic cells in the human brain actually express the genes for these dopamine-specific proteins. In this study, we observed that the dopamine transporter and D2 receptor messenger RNAs are differentially expressed within the human mesencephalon: highest expression in ventral subpopulations of the substantia nigra pars compacta neurons with lowest expression in the mesolimbic/mesocortical ventral tegmental area and retrorubral cell groups. These findings suggest that motor- and limbic-related mesencephalic neurons in the human brain differ in the degree of dopamine transporter and D2 receptor gene expression.
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PMID:The dopamine transporter and dopamine D2 receptor messenger RNAs are differentially expressed in limbic- and motor-related subpopulations of human mesencephalic neurons. 789 51

A number of neurodegenerative diseases selectively affect distinct neuronal populations, but the mechanisms responsible for selective cell vulnerability have generally remained unclear. The toxin 1-methyl-4-phenyl-1,2,3,6-tetrahydropyridine (MPTP) reproduces the selective degeneration of dopaminergic neurons in the substantia nigra characteristic of Parkinson's disease. The plasma membrane dopamine transporter mediates this selective toxicity through accumulation of the active metabolite N-methyl-4-phenylpyridinium (MPP+). In contrast, the vesicular amine transporter protects against this form of injury by sequestering the toxin from its primary site of action in mitochondria. Together with the identification of defects in glutamate transport from patients with amyotrophic lateral sclerosis, these observations suggest that neurotransmitter transport may have a major role in neurodegenerative disease. The recent cloning of cDNAs encoding these transport proteins will help to explore this hypothesis.
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PMID:Neural degeneration and the transport of neurotransmitters. 790 65

Parkinson's disease (PD) and Alzheimer's disease (AD) may share certain abnormalities since a subset of PD patients suffer from dementia, and some AD individuals show extrapyramidal symptoms. In vitro quantitative autoradiography was used to examine different subtypes of excitatory amino acid (EAA) receptors (NMDA, KA, and AMPA) and dopamine transporter sites in the striatum (caudate, putamen) and nucleus accumbens (NAc) from idiopathic PD, pure AD, and mixed PD/AD patients. PD and AD groups, and to a lesser extent the PD/AD groups, showed substantially increased binding to NMDA receptors in the striatum and NAc. No statistically significant changes in binding to KA and AMPA receptors were found in any patient group. 3H-mazindol binding to dopamine transporter sites was significantly decreased in the striatum and NAc of PD and PD/AD patients, but only in the putamen and NAc of AD patients. The data indicate that (1) the majority of striatal EAA receptors are not located on dopaminergic nigrostriatal nerve terminals, and (2) elevated binding to striatal NMDA receptors correlates with binding to dopamine transporter sites in PD patients, but not in AD and PD/AD individuals. Thus, the mechanisms of NMDA receptor changes in the striatum of AD and PD patients may be different. However, it is postulated that increased binding to NMDA receptors in Parkinson and Alzheimer striatum occurs in response to an insult(s) within the striatothalamocortical circuits and that this may contribute to the clinical similarities described for subsets of PD and AD patients.
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PMID:Selective increase of NMDA-sensitive glutamate binding in the striatum of Parkinson's disease, Alzheimer's disease, and mixed Parkinson's disease/Alzheimer's disease patients: an autoradiographic study. 796 38


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