UMLS:C0030567 - FACTA Search

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Query: UMLS:C0030567 (Parkinson's disease)
63,064 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Oxidative stress is believed to play an important role in neuronal cell death associated with several neurodegenerative diseases (e.g., Alzheimer disease, Parkinson disease, and cerebral ischemia). Neuronal cell death might be one of the crucial mediators of these diseases. The transcription factor NF-kappaB is well-known for its roles in preventing apoptotic cell death. Data indicated that NF-kappaB activation by pre-conditioning is part of a general brain tolerance program. Here we show that pre-conditioning leading to NF-kappaB activation also protects against oxidative insults generated by Fe2+ ions. Protection was accompanied by a long-lasting (more than 24 h) NF-kappaB activation. Using this paradigm of oxidative insult, we analyzed the effect of hypericin, one of the active principles of St. John's Wort. Hypericin alone was able to induce short-time activation of NF-kappaB, which declined to basal levels after 24 h. Cell death was induced by hypericin at a concentration of 10 microM. A profound synergistic action in inducing apoptosis was detected in co-treatment of hypericin together with FeSO4. In contrast, hypericin in low concentrations was able to partly prevent cell death induced by amyloid-beta-peptide (Abeta). Hypericin (10 microM) synergistically enhanced Abeta neurotoxicity. Since hypericin is a described inhibitor of protein kinase C, we compared its action to staurosporine, another natural neuronal death-promoting PKC inhibitor. Staurosporine induced cell death and activates NF-kappaB. Molecular inhibition of NF-kappaB activation with a transdominant negative IkappaB-alpha protected against staurosporine-induced cell death. In summary, the data describe NF-kappaB in the same primary neuronal culture as stimulus-dependent, anti-apoptotic, or pro-apoptotic factor.
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PMID:Stimulus-dependent activation of NF-kappaB specifies apoptosis or neuroprotection in cerebellar granule cells. 1262 8

Overexpression of human alpha-synuclein in model systems, including cultured neurons, drosophila and mice, leads to biochemical and pathological changes that mimic synucleopathies including Parkinson's disease. We have overexpressed both wild-type (WT) and mutant alanine53-->threonine (A53T) human alpha-synuclein by transgenic injection into Caenorhabditis elegans. Motor deficits were observed when either WT or A53T alpha-synuclein was overexpressed with a pan-neuronal or motor neuron promoter. Neuronal and dendritic loss were accelerated in all three sets of C. elegans dopaminergic neurons when human alpha-synuclein was overexpressed under the control of a dopaminergic neuron or pan-neuronal promoter, but not with a motor neuron promoter. There were no significant differences in neuronal loss between overexpressed WT and A53T forms or between worms of different ages (4 days, 10 days or 2 weeks). These results demonstrate neuronal and behavioral perturbations elicited by human alpha-synuclein in C. elegans that are dependent upon expression in specific neuron subtypes. This transgenic model in C. elegans, an invertebrate organism with excellent experimental resources for further genetic manipulation, may help facilitate dissection of pathophysiologic mechanisms of various synucleopathies.
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PMID:Dopaminergic neuronal loss and motor deficits in Caenorhabditis elegans overexpressing human alpha-synuclein. 1280 36

Neuronal progenitor cells (NPCs) may provide dopaminergic neurons for the treatment of Parkinson's disease (PD). However, transplantation of NPCs into the striatum by current methods has had limited success. It is possible to reverse the symptoms of PD in model rats but difficult to reverse them in humans because the number of dopaminergic neurons generated from NPCs is low. We transduced the von Hippel-Lindau (VHL) gene into NPCs isolated from embryonic rat brain. The NPCs with the transduced VHL gene efficiently differentiated into tyrosine hydroxylase-positive neurons in vitro. NPCs with the transduced VHL gene, which were labeled in advance with bromodeoxyuridine, were transplanted into the striatum of a rat model of PD. Numerous bromodeoxyuridine-tyrosine hydroxylase double-labeled cells were seen close to the transplant site, showing that the transplanted cells efficiently generated new dopaminergic neurons within the host striatum. Moreover, all of the animals with NPCs with VHL showed a remarkable decrease in apomorphine-induced rotations. These findings show that NPCs with the VHL gene can efficiently generate dopaminergic neurons and that a sufficient number of dopaminergic neurons can develop from them to reverse the symptoms of PD in humans. VHL gene transduction provides a new therapeutic approach for treatment of PD.
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PMID:Transfer of the von Hippel-Lindau gene to neuronal progenitor cells in treatment for Parkinson's disease. 1295 67

Existing protocols for the neural differentiation of mouse embryonic stem (ES) cells require extended in vitro culture, yield variable differentiation results or are limited to the generation of selected neural subtypes. Here we provide a set of coculture conditions that allows rapid and efficient derivation of most central nervous system phenotypes. The fate of both fertilization- and nuclear transfer-derived ES (ntES) cells was directed selectively into neural stem cells, astrocytes, oligodendrocytes or neurons. Specific differentiation into gamma-aminobutyric acid (GABA), dopamine, serotonin or motor neurons was achieved by defining conditions to induce forebrain, midbrain, hindbrain and spinal cord identity. Neuronal function of ES cell-derived dopaminergic neurons was shown in vitro by electron microscopy, measurement of neurotransmitter release and intracellular recording. Furthermore, transplantation of ES and ntES cell-derived dopaminergic neurons corrected the phenotype of a mouse model of Parkinson disease, demonstrating an in vivo application of therapeutic cloning in neural disease.
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PMID:Neural subtype specification of fertilization and nuclear transfer embryonic stem cells and application in parkinsonian mice. 1450 3

The death of dopaminergic neurons induced by systemic administration of mitochondrial respiratory chain complex I inhibitors such as 1-methyl-4-phenylpyridinium (MPP(+); given as the prodrug 1-methyl-1,2,3,6-tetrahydropyridine) or the pesticide rotenone have raised the question as to whether this family of compounds are the cause of some forms of Parkinsonism. We have examined the neurotoxic potential of another complex I inhibitor, annonacin, the major acetogenin of Annona muricata (soursop), a tropical plant suspected to be the cause of an atypical form of Parkinson disease in the French West Indies (Guadeloupe). When added to mesencephalic cultures for 24 h, annonacin was much more potent than MPP(+) (effective concentration [EC(50)]=0.018 versus 1.9 microM) and as effective as rotenone (EC(50)=0.034 microM) in killing dopaminergic neurons. The uptake of [(3)H]-dopamine used as an index of dopaminergic cell function was similarly reduced. Toxic effects were seen at lower concentrations when the incubation time was extended by several days whereas withdrawal of the toxin after a short-term exposure (<6 h) arrested cell demise. Unlike MPP(+) but similar to rotenone, the acetogenin also reduced the survival of non-dopaminergic neurons. Neuronal cell death was not excitotoxic and occurred independently of free radical production. Raising the concentrations of either glucose or mannose in the presence of annonacin restored to a large extent intracellular ATP synthesis and prevented neuronal cell demise. Deoxyglucose reversed the effects of both glucose and mannose. Other hexoses such as galactose and fructose were not protective. Attempts to restore oxidative phosphorylation with lactate or pyruvate failed to provide protection to dopaminergic neurons whereas idoacetate, an inhibitor of glycolysis, inhibited the survival promoting effects of glucose and mannose indicating that these two hexoses acted independently of mitochondria by stimulating glycolysis. In conclusion, our study demonstrates that annonacin promotes dopaminergic neuronal death by impairment of energy production. It also underlines the need to address its possible role in the etiology of some atypical forms of Parkinsonism in Guadeloupe.
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PMID:The mitochondrial complex I inhibitor annonacin is toxic to mesencephalic dopaminergic neurons by impairment of energy metabolism. 1452 88

Neuronal ubiquitin C-terminal hydrolase (UCH-L1) has been linked to Parkinson's disease (PD), the progression of certain nonneuronal tumors, and neuropathic pain. Certain lung tumor-derived cell lines express UCH-L1 but it is not expressed in normal lung tissue, suggesting that this enzyme plays a role in tumor progression, either as a trigger or as a response. Small-molecule inhibitors of UCH-L1 would be helpful in distinguishing between these scenarios. By utilizing high-throughput screening (HTS) to find inhibitors and traditional medicinal chemistry to optimize their affinity and specificity, we have identified a class of isatin O-acyl oximes that selectively inhibit UCH-L1 as compared to its systemic isoform, UCH-L3. Three representatives of this class (30, 50, 51) have IC(50) values of 0.80-0.94 micro M for UCH-L1 and 17-25 micro M for UCH-L3. The K(i) of 30 toward UCH-L1 is 0.40 micro M and inhibition is reversible, competitive, and active site directed. Two isatin oxime inhibitors increased proliferation of the H1299 lung tumor cell line but had no effect on a lung tumor line that does not express UCH-L1. Inhibition of UCH-L1 expression in the H1299 cell line using RNAi had a similar proproliferative effect, suggesting that the UCH-L1 enzymatic activity is antiproliferative and that UCH-L1 expression may be a response to tumor growth. The molecular mechanism of this response remains to be determined.
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PMID:Discovery of inhibitors that elucidate the role of UCH-L1 activity in the H1299 lung cancer cell line. 1452 54

Mutations in the PARK7 gene DJ-1 are associated with recessive hereditary Parkinson's disease (PD). Fibrillar inclusions of alpha-synuclein comprise the neuropathological hallmarks of PD and related Lewy body diseases as well as multiple system atrophy (MSA). Moreover, neuronal and glial inclusions containing tau have been observed in alpha-synucleinopathy patients. Using a collection of antibodies against DJ-1, we have performed a comprehensive investigation of DJ-1 in alpha-synucleinopathies and tauopathies. DJ-1 was abundantly expressed in reactive astrocytes of patients with neurodegenerative diseases. Likewise, DJ-1 antiserum immunostained reactive astrocytes that became abundant with disease progression in the brain stem of transgenic mice expressing mutant [A30P]alpha-synuclein. Human Lewy bodies as well as Lewy body-like inclusions in the alpha-synuclein transgenic mice were DJ-1 negative. Neuronal tau inclusions were DJ-1 immunopositive in Pick's disease (PiD), corticobasal degeneration (CBD), progressive supranuclear palsy (PSP), and Alzheimer's disease. In addition, we found DJ-1-immunopositive glial inclusions in CBD, PSP and MSA. Biochemical extraction experiments revealed the specific presence of insoluble, modified DJ-1 in PiD and MSA. Our results suggest that DJ-1 is up-regulated in reactive astrocytes as well as in neuronal and glial cells with specific alpha-synucleinopathy and tauopathy.
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PMID:Pathological properties of the Parkinson's disease-associated protein DJ-1 in alpha-synucleinopathies and tauopathies: relevance for multiple system atrophy and Pick's disease. 1499 85

Neuronal precursors play an important role in potential regenerative therapeutic strategies in different neurodegenerative diseases, e.g. Parkinson's disease. To understand proliferation and differentiation of these cells in vitro and in vivo, it is important to characterize functional properties of neuronal precursors in detail. The aim of the present study was to analyse the electrophysiological characteristics of ligand-gated channels of neuronal precursors prepared from the rat ventral mesencephalon (VM) of embryonic stage 12.5 during their in vitro differentiation. For the experiments we used the patch-clamp technique in combination with a system for ultrafast solution exchange and immunocytochemistry. It could be shown that functional active AMPA-type glutamate as well as GABA(A) receptor channels are expressed at an early stage of neuronal development. In culture we observed excitatory as well as inhibitory postsynaptic currents (defined by their different kinetics) which correspond to the activation of AMPAergic and GABAergic receptor channels. Two populations of glutamate-activated currents could be differentiated by their different time course of desensitization whereas the time course of resensitization and deactivation was normally distributed in all cells. GABAergic currents could be blocked by bicuculline and their kinetics correspond to that of GABA(A) receptor channel currents. Summarizing the results, in the present study it was shown for the first time that neuronal embryonic precursors of the rat VM express both functional AMPA-type glutamate and functional GABA(A) receptor channels in vitro.
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PMID:Ligand-gated channels in early mesencephalic neuronal precursors: immunocytochemical and electrophysiological analysis. 1512 91

To better understand the pathogenesis of brain dysfunction in Gaucher disease (GD), we studied brain pathology in seven subjects with type 1 GD (four also exhibited parkinsonism and dementia), three with type 2 GD and four with type 3 GD. Unique pathologic patterns of disease involving the hippocampal CA2-4 regions and layer 4b of the calcarine cortex were identified. While these findings were common to all three GD phenotypes, the extent of the changes varied depending on the severity of disease. Cerebral cortical layers 3 and 5, hippocampal CA2-4, and layer 4b were involved in all GD patients. Neuronal loss predominated in both type 2 and type 3 patients with progressive myoclonic encephalopathy, whereas patients classified as type 1 GD had only astrogliosis. Adjacent regions and lamina, including hippocampal CA1 and calcarine lamina 4a and 4c were spared of pathology, highlighting the specificity of the vulnerability of selective neurons. Elevated glucocerebrosidase expression by immunohistochemistry was found in CA2-4. Hippocampal (45)Ca(2+) uptake autoradiography in rat brain was performed demonstrating that hippocampal CA2-4 neurons, rather than CA1 neurons, were calcium-induced calcium release sensitive (CICR-sensitive). These findings match recent biochemical studies linking elevated glucosylceramide levels to sensitization of CA2-4 RyaR receptors and 300% potentiation of neuronal CICR sensitivity. In two patients with type 1 GD and parkinsonism, numerous synuclein positive inclusions, similar to brainstem-type Lewy bodies found in Parkinson disease, were also found hippocampal CA2-4 neurons. These findings argue for a common cytotoxic mechanism linking aberrant glucocerebrosidase activity, neuronal cytotoxicity, and cytotoxic Lewy body formation in GD.
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PMID:Neuropathology provides clues to the pathophysiology of Gaucher disease. 1523 32

The proteins of the bcl-2 family play an important role during apoptosis and may also regulate cell death in response to oxidative stress, which has been implicated in Parkinson's disease. In this study we examined the localization of the pro-apoptotic protein bax, and the anti-apoptotic proteins bcl-2 and bcl-x(L) in the substantia nigra (SN) of the adult rat and their response to oxidative stress caused by striatal injections of 6-hydroxydopamine (6-OHDA). Our data show that bcl-2, bcl-x and bax proteins are present in the SN. Bcl-2 and bax are localized primarily in neurons including all those positive for tyrosine hydroxylase (TH). The intraneuronal distribution of bcl-2 and bax were different. Bcl-2 was diffuse throughout the cell while bax was localized in well-defined structures around the nucleus and within processes. Bcl-x staining in neurons was weak, though it was strongly expressed in GFAP-positive astrocytes. 6-OHDA injections, which resulted in loss of dopamine neurons between 7-14 days post-lesion, altered the distribution of bax, bcl-2 and bcl-x proteins in the SN. Bcl-2 and bax were decreased in the TH-positive cells of the SN from 3 to 14 days post-lesion and many TH-positive neurons were bcl-2 negative. Neuronal bcl-x was initially unchanged after lesion, but increased in astrocytes between 3-7 days post-lesion before the increase in GFAP immunoreactivity, which was detectable at days 10-14. While the neuronal distribution of bcl-2 and bcl-x does not change following lesion, bax became evenly distributed thought the soma. Morphological features of apoptosis, including TUNEL labeling and chromatin condensation was not observed. These data suggest that striatal 6-OHDA lesions do not result in classical apoptosis in the SN of the adult rat, even though there are changes in the content and distribution of members of the bcl-2 family of proteins.
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PMID:Alterations in the cellular distribution of bcl-2, bcl-x and bax in the adult rat substantia nigra following striatal 6-hydroxydopamine lesions. 1532 79

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