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)

Dopamine (DA) modulates apoptosis in neuronal and non-neuronal cells, and dopaminergic pathways contribute to neurodegenerative disease. Human lymphocytes express dopaminergic receptors and DA transporters, and synthesize endogenous catecholamines, which may modulate apoptosis in these cells. In the present study, dopaminergic modulation of apoptosis was investigated in human peripheral blood mononuclear cells (PBMCs) obtained from healthy donors. Twenty-four-hour DA reduced at 0.1-5 x 3 10(-6) M and enhanced at 1-5 x 310(-4) M spontaneous apoptosis. DA 1 x 310(-6) M was inhibited by the D1-like receptor antagonist SCH 23390 1 x 310(-6) M, but not by the D2-like receptor antagonists domperidone 1 x 3 10(-6) M or haloperidol 1 x 3 10(-6) M, while the effect of DA 5 x 3 10(-4) M was prevented by the antioxidants glutathione 5-10 mM or N-acetyl-l-cysteine 1-10 mM. Intracellular reactive oxygen species were respectively reduced and increased by 1-3 h incubation with DA 0.1-10 x 3 10(-6) M and 1-5x310(-4) M. Twenty-four-hour DA 1 x 3 10(-6) M or 5 x 3 10(-4) M had no effect on PBMC expression of Cu/Zn superoxide dismutase or Bcl-2; however, DA 5 x 3 10(-4) M decreased caspase-3 activity. In human PBMCs, DA seems to promote apoptosis through oxidative mechanisms but may also result in cell rescue from apoptotic death possibly through activation of D1-like receptors. The dual effect of DA on human PBMCs closely resembles that on striatal neurons. Lymphocytes of patients with Parkinson's disease may show reduced DA content and impaired DA transporter immunoreactivity. Human PBMCs may thus represent a simple and readily accessible model to study DA-related mechanisms relevant for neurodegenerative disease.
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PMID:Dopaminergic modulation of apoptosis in human peripheral blood mononuclear cells: possible relevance for Parkinson's disease. 1503 11

Parkinson's disease (PD) involves loss of dopaminergic neurons in the substantia nigra and is characterized by intracellular inclusions, Lewy bodies, consisting primarily of aggregated alpha-synuclein. Two substitution mutations (A53T and A30P) in alpha-synuclein gene have been identified in familial early-onset PD. To understand the biological changes that incur upon alpha-synuclein-induced cytotoxicity in the presence of dopamine, the current studies were undertaken. Human SH-SY5Y neuroblastoma cells coexpressing the human dopamine transporter [hDAT], and either wild type (wt) or mutant alpha-synucleins, were treated with 50 microM dopamine (DA). In cells expressing wt or A30P alpha-synuclein, DA accelerated production of reactive oxygen species and cell death as compared to cells expressing A53T or hDAT alone. The increased sensitivity of such cells to DA was investigated by measuring changes in cellular ionic gradient, by atomic absorption spectrometry, and cell metabolism, by high-resolution nuclear magnetic resonance spectroscopy. Both wt and A30P alpha-synuclein caused rapid decrease in levels of intracellular potassium, followed by mitochondrial damage and cytochrome c leakage, with decreased cellular metabolism as compared to cells expressing A53T or hDAT alone. Collapse of ionic gradient was significantly faster in A30P (t(1/2) = 3.5 h) than in wt (t(1/2) = 6.5 h) cells, and these changes in ionic gradient preceded cytochrome c leakage and depletion of metabolic energy. Neither wt nor mutant alpha-synuclein resulted in significant changes in ionic gradient or cellular metabolism in the absence of intracellular DA. These findings suggest a specific sequence of events triggered by dopamine and differentially exacerbated by alpha-synuclein and the A30P mutant.
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PMID:Differential cytotoxicity of human wild type and mutant alpha-synuclein in human neuroblastoma SH-SY5Y cells in the presence of dopamine. 1512 20

The impact of pro-inflammatory cytokines such as tumor necrosis factor-alpha (TNF-alpha) in the pathology of Parkinson's disease (PD) and in MPTP neurotoxicity remains unclear. Here, male TNF-alpha (-/-) deficient mice and C57bL/6 mice were treated with MPTP (4 x 15 mg/kg, 24 h intervals) and in one series, thalidomide was administered to inhibit TNF-alpha synthesis. Real-time RT-PCR revealed that the striatal mRNA levels of TNF-alpha, of the astrocytic marker glial fibrillary acidic protein (GFAP) and of the marker for activated microglia, macrophage antigen complex-1 (MAC-1), were significantly enhanced after MPTP administration. Thalidomide (50 mg/kg, p.o.) partly protected against the MPTP-induced dopamine (DA) depletion, and TNF-alpha (-/-) mice showed a significant attenuation of striatal DA and DA metabolite loss as well as striatal tyrosine hydroxylase (TH) fiber density, but no difference in nigral TH and DA transporter immunoreactivity. TNF-alpha deficient mice suffered a lower mortality (10%) compared to the high mortality (75%) seen in wild-type mice after acute MPTP treatment (4 x 20 mg/kg, 2 h interval). HPLC measurement of MPP(+) levels revealed no differences in TNF-alpha (-/-), wild-type and thalidomide treated mice. This study demonstrates that TNF-alpha is involved in MPTP toxicity and that inhibition of TNF-alpha response may be a promising target for extending beyond symptomatic treatment and developing anti-parkinsonian drugs for the treatment of the inflammatory processes in PD.
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PMID:Genetic ablation of tumor necrosis factor-alpha (TNF-alpha) and pharmacological inhibition of TNF-synthesis attenuates MPTP toxicity in mouse striatum. 1514 Jan 82

The direct modulation of subthalamic nucleus (STN) neurons by dopamine (DA) neurons of the substantia nigra (SN) is controversial owing to the thick caliber and low density of DA axons in the STN. The abnormal activity of the STN in Parkinson's disease (PD), which is central to the appearance of symptoms, is therefore thought to result from the loss of DA in the striatum. We carried out three experiments in rats to explore the function of DA in the STN: (i) light and electron microscopic analysis of tyrosine hydroxylase (TH)-, dopamine beta-hydroxylase (DbetaH)- and DA-immunoreactive structures to determine whether DA axons form synapses; (ii) fast-scan cyclic voltammetry (FCV) to determine whether DA axons release DA; and (iii) patch clamp recording to determine whether DA, at a concentration similar to that detected by FCV, can modulate activity and synaptic transmission/integration. TH- and DA-immunoreactive axons mostly formed symmetric synapses. Because DbetaH-immunoreactive axons were rare and formed asymmetric synapses, they comprised the minority of TH-immunoreactive synapses. Voltammetry demonstrated that DA release was sufficient for the activation of receptors and abolished by blockade of voltage-dependent Na+ channels or removal of extracellular Ca2+. The lifetime and concentration of extracellular DA was increased by blockade of the DA transporter. Dopamine application depolarized STN neurons, increased their frequency of activity and reduced the impact of gamma-aminobutyric acid (GABA)-ergic inputs. These findings suggest that SN DA neurons directly modulate the activity of STN neurons and their loss may contribute to the abnormal activity of STN neurons in PD.
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PMID:Synaptic release of dopamine in the subthalamic nucleus. 1538

The monoamine vesicular transporter 2 (VMAT-2) has been associated with dopamine (DA) sequestration and protection against neurodegeneration caused by the intracellular oxidation of this monoamine. The data presented herein suggest that methylphenidate treatment enhances the amount of VMAT-2 protein and possibly its activity in the presynaptic cytosol, where it is able to increase the sequestration of DA and likely protect against its instability. In contrast, methamphetamine (METH) has an opposite effect on cytosolic VMAT-2 resulting in degradation of DA terminals. The fact that posttreatment of methylphenidate after a neurotoxic regimen of METH protects against resulting loss of DA parameters suggests that treatment with methylphenidate, or other DA transporter blockers, may be protective against degenerative disorders of DA pathways, such as Parkinson's disease.
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PMID:Psychostimulants and vesicle trafficking: a novel mechanism and therapeutic implications. 1554 12

The Nurr1 gene, which codes for a transcriptional factor in the nuclear receptor superfamily, plays an important role in the development of the mesencephalic dopaminergic (DAergic) system. To study the age-dependent effects of Nurr1 expression in maintaining mature nigrostriatal DAergic neuronal function, we examined motor behaviors, determined nigrostriatal dopamine (DA) levels and the number of nigral DAergic neurons, and measured the expression of several DAergic neuron-associated genes in heterozygous Nurr1-deficient (Nurr1+/-) and wild-type mice of different ages. In contrast to the same-aged, wild-type mice, old Nurr1+/- mice (>15 months) had a significant decrease in both rotarod performance and locomotor activities, suggesting a motor impairment that is analogous to parkinsonian deficit. Furthermore, the abnormal motor behaviors in old Nurr1+/- mice were associated with decreased DA levels in the striatum, decreased number of DAergic neurons in the nigra, and reduced expression of Nurr1 and DA transporter in the nigra. Our data indicate that Nurr1 plays an important role in the functional maintenance and survival of nigral DAergic neurons and suggest that the Nurr1+/- mouse is a useful animal model to study the pathogenesis of Parkinson disease (PD) and to explore disease-modifying strategies.
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PMID:Age-dependent dopaminergic dysfunction in Nurr1 knockout mice. 1558 22

The putative dopaminergic (DA) neurons intrinsic to the human striatum were studied by applying immunofluorescence and quantitative methods to postmortem tissue from seven normal individuals. Stringent morphological and chemical criteria were used to identify striatal DA neurons, including immunostaining for tyrosine hydroxylase, DA transporter and neuronal nuclear protein. The DA neurons were scattered throughout the striatum, but abounded particularly in its ventral portion. Frequency distribution of surface areas of DA cell bodies reveals that the most frequent DA neurons (x =58.0%, S.D.=12.8%) had a medium-sized (approximately 200+/-15 microm2) perikaryon with 3-5 varicose dendrites, whereas others (x =35.5%, S.D.=14.0%) had a smaller (approximately 140+/-15 microm2) perikaryon with 3-4 varicose dendrites. There was a small number (x =6.5%, S.D.=8.5%) of larger DA neurons (209-584 microm2) with spiny dendrites and a few TH-immunoreactive cells displaying mixed neuron-glia morphology. Despite significant inter-individual variations in neuron density, the human striatum (mean volume of 8.76 cm3) harbored a mean of 331.9 DA neurons (S.D.=199.2). A prolific zone, containing about 3000 cells, occurred in the ventral striatum in two brains. The addition of these cells would increase by about 10 times the total number of striatal DA neurons, which should not be confounded with segments of nigrostriatal DA fibers that displayed large (8-12 microm) varicosities and looked like small bipolar neurons. The function of striatal DA neurons is unknown but the fact that their number increases markedly following lesion of nigral DA input or administration of various growth factors, opens up new therapeutic avenues for treatment of Parkinson's disease.
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PMID:Morphology and distribution of dopaminergic neurons intrinsic to the human striatum. 1558 97

L-Dihydroxyphenylalanine (L: -DOPA), the anti-parkinsonian drug affording the greatest symptomatic relief of parkinsonian symptoms, is still misunderstood in terms of its neurotoxic potential and the mechanism by which generated dopamine (DA) is able to exert an effect despite the absence of DA innervation of target sites in basal ganglia. This review summaries important aspects and new developments on these themes. On the basis of L: -DOPA therapy in animal models of Parkinson's disease, it appears that L: -DOPA is actually neuroprotective, not neurotoxic, as indicated by L: -DOPA's reducing striatal tissue content of the reactive oxygen species, hydroxyl radical (HO(*)), and by leaving unaltered the extraneuronal in vivo microdialysate level of HO(*). In addition, the potential beneficial anti-parkinsonian effect of L: -DOPA is actually increased because of the fact that the basal ganglia are largely DA-denervated. That is, from in vivo microdialysis studies it can be clearly demonstrated that extraneuronal in vivo microdialysate DA levels are actually higher in the DA-denervated vs. the intact striatum of rats - owing to the absence of DA transporter (i.e., uptake sites) on the absent DA nerve terminal fibers in parkinsonian brain. In essence, there are fewer pumps removing DA from the extraneuronal pool. Finally, the undesired motor dyskinesias that commonly accompany long-term L: -DOPA therapy, can be viewed as an outcome of L: -DOPA's sensitizing DA receptors (D(1)-D(5)), an effect easily replicated by repeated DA agonist treatments (especially agonist of the D(2) class) in animals, even if the brain is not DA-denervated. The newest findings demonstrate that L: -DOPA induces BDNF release from corticostriatal fibers, which in-turn enhances the expression of D(3) receptors; and that this effect is associated with motor dyskinesias (and it is blocked by D(3) antagonists). The recent evidence on mechanisms and effects of L: -DOPA increases our understanding of this beneficial anti-parkinsonian drug, and can lead to improvements in L: -DOPA effects while providing avenues for reducing or eliminating L: -DOPA's deleterious effects.
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PMID:Peculiarities of L: -DOPA treatment of Parkinson's disease. 1575 Aug 45

6-Hydroxydopamine (6-OHDA) is widely used to produce animal models of Parkinson's disease (PD) by selectively destroying the nigro-striatal dopaminergic systems, but selective toxicity of 6-OHDA towards dopaminergic cells in vitro remains controversial. Mutant (A30P and A53T) alpha-synuclein isoforms cause increased vulnerability of cells towards various toxic insults and enhance dopamine transporter (DAT)-mediated toxicity of the selective dopaminergic neurotoxin and mitochondrial complex I inhibitor MPP(+) in vitro. Here we extend our recent studies on DAT-mediated toxicity to elucidate the mechanisms involved in selective dopaminergic toxicity of 6-OHDA. We studied the cytotoxicity as well as the toxic mechanisms of 6-OHDA in human embryonic kidney HEK-293 cells ectopically co-expressing mutant alpha-synucleins and the human DAT protein. 6-OHDA showed half-maximal toxic concentration (TC(50)) of 88 microM in HEK-hDAT cells without alpha-synuclein expression after 24 h, whereas the TC(50) values significantly decreased to 58 and 39 microM by expression of A30P and A53T alpha-synuclein, respectively. alpha-Synuclein expression did not affect 6-OHDA toxicity in HEK-293 cells not expressing the DAT. Analysis of intracellular parameters of cellular energy metabolism revealed that the co-expression of mutant alpha-synucleins in HEK-hDAT cells accelerates the reduction of intracellular net ATP levels and ATP/ADP ratios induced by 6-OHDA. Uptake function of the DAT was not altered by expression of alpha-synuclein isoforms. Our data suggest a mechanism of 6-OHDA-induced dopaminergic toxicity involving an interaction of mutant alpha-synucleins with the DAT molecule and subsequent acceleration of cellular energy depletion that might be relevant for the pathogenesis of PD.
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PMID:Dopamine transporter-mediated cytotoxicity of 6-hydroxydopamine in vitro depends on expression of mutant alpha-synucleins related to Parkinson's disease. 1640 46

We describe the development of a novel animal model of acute severe dopamine (DA) deficiency by using genetically altered mice lacking the DA transporter (DAT-KO mice). In the absence of a DAT-mediated recycling mechanism in these mice, striatal DA concentrations become entirely dependent on its de novo synthesis, and acute pharmacologic inhibition of tyrosine hydroxylase induces transient (up to 16 hours) elimination of brain DA. Dopamine-deficient DAT-KO mice (DDD mice) demonstrate a striking behavioral phenotype manifested as severe akinesia, rigidity, tremor, and ptosis. We propose that DDD mice represent a novel acute model of severe DA deficiency that might be used to identify compounds with potential therapeutic use for the treatment of Parkinson's disease (PD). This model is particularly promising as a tool for evaluating the efficacy of compounds that may induce movement independently of DA. The advantages and limitations of DDD mice in comparison to other rodent PD models are discussed.
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PMID:DDD mice, a novel acute mouse model of Parkinson's disease. 1703 Jul 35


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