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)

Many major neurodegenerative diseases, including Amyotrophic Lateral Sclerosis, Alzheimer's disease, Parkinson's disease, Huntington Disease and other polyglutamine expansion disorders, are associated with degeneration and death of specific neuronal populations due to accumulation of certain abnormal polypeptides. These misfolded species aggregate and form inclusion bodies and their neurotoxicity is associated with the aggregation. To handle a build-up of abnormal proteins cells employ a complicated machinery of molecular chaperones and various proteolytic systems. Chaperones facilitate refolding or degradation of misfolded polypeptides, prevent protein aggregation and play a role in formation of aggresome, a centrosome-associated body to which small cytoplasmic aggregates are transported. The ubiquitin-proteasome proteolytic system is critical for reducing the levels of soluble abnormal proteins, while autophagy plays the major role in clearing of cells from protein aggregates. Accumulation of the aggregation prone proteins activates signal transduction pathways that control cell death, including JNK pathway that controls viability of a cell in various models of Parkinson's and Huntington's diseases. The major chaperone Hsp72 can interfere with this signalling pathway, thus promoting survival. A very important consequence of a build-up and aggregation of misfolded proteins is impairment of the ubiquitin-proteasome degradation system and suppression of the heat shock response. Such an inhibition of the major cell defense systems may play a critical role in neurodegeneration. Here, it is suggested that these changes may reflect a senescence-like programme initiated by the aggregated abnormal polypeptides. Pathways that control the fate of misfolded proteins, for example molecular chaperones or proteolytic systems, may become interesting novel targets for therapy of neurodegenerative disorders.
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PMID:Role of molecular chaperones in neurodegenerative disorders. 1604 38

It is well documented that manganese neurotoxicity induces clinical symptoms similar to those of idiopathic Parkinson's disease. Although microglial cytotoxic mediator-induced neurotoxicity is suggested, the mechanism by which manganese up-regulates cytotoxic mediator, such as nitric oxide (NO), remains poorly understood. Therefore, in this study, we investigated the mechanism of manganese on induction of iNOS in microglial cells. iNOS promoter/luciferase assay revealed that manganese (500 (M) regulated the iNOS expression at the transcriptional level. Immunoblot analysis also revealed that phosphorylation levels of ERK, JNK MAPKs and Akt (PKB, PI 3-kinase downstream effector), were increased. Both protein and mRNA levels of iNOS expression were abrogated by specific inhibitors, SP600125 (JNK inhibitor, 20 microM), PD98059 (ERKs inhibitor, 50 microM), or LY294002 (PI 3-kinase inhibitor, 20 microM), but not by SB203580 (20 microM), a p38 specific inhibitor. These data lead to the conclusion that manganese regulates the iNOS expression at the transcriptional level in BV2 microglial cells and the increased iNOS protein expression is mediated via both JNK-ERK MAPK and PI3K/Akt signaling pathways, but not via p38 MAPK pathway. Increased iNOS protein level was also found in RAW264.7 murine macrophage cells.
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PMID:Manganese induces inducible nitric oxide synthase (iNOS) expression via activation of both MAP kinase and PI3K/Akt pathways in BV2 microglial cells. 1641 67

Accumulation of unfolded and/or misfolded proteins in the endoplasmic reticulum (ER) lumen induces ER stress. ER stress triggers the unfolded protein response (UPR), which includes the attenuation of general protein synthesis and the transcriptional activation of the genes encoding ER-resident chaperones and molecules involved in the ER-associated degradation (ERAD). The UPR coordinately reduces ER stress by restoration of the protein-folding capacity of the ER. However, severe and/or prolonged ER stress eventually leads cells to apoptosis. Several lines of evidence suggest that ER stress-induced apoptosis plays critical roles in the pathogenesis of neurodegenerative diseases such as Alzheimer's disease, Parkinson's disease, polyglutamine (polyQ) diseases and amyotrophic lateral sclerosis (ALS). Apoptosis signal-regulating kinase 1 (ASK1), a member of the MAPKKK family that constitutes the JNK and p38 MAP kinase (MAPK) cascades, is activated by physiological and cytotoxic stresses and induces various stress responses including apoptosis. Recent studies have shown that the ASK1-MAPK cascades are involved in ER stress-induced apoptosis and in the neuronal cell death in some model systems of neurodegenerative diseases. This review highlights the current understanding of regulatory mechanisms of ASK1 with a special focus on the ER stress-dependent and -independent neuronal cell death in the context of neurodegenerative diseases.
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PMID:The ASK1-MAP kinase signaling in ER stress and neurodegenerative diseases. 1647 16

6-hydroxydopamine (6-OHDA)-induced apoptosis in dopaminergic neuronal cells is a common cell model of Parkinson's disease (PD). The role of apoptosis signal-regulating kinase 1 (ASK1) in this model has not been well studied. We observed significant activation of ASK1, p38 and JNK, as well as apoptosis in human dopaminergic neuroblastoma SH-SY5Y cells exposed to 6-OHDA. Over-expressing kinase-dead mutant ASK1(K709M) or knock-down of endogenous ASK1 by its small interfering RNA (siRNA) greatly suppressed activation of these kinases and apoptosis in the cells. It was found that the activation of p38 and JNK was suppressed to almost the same extent as that of ASK1 in the ASK1-knock-down cells, suggesting that activated ASK1 is almost totally responsible for activation of p38/JNK. It was also observed that the 6-OHDA-induced cell apoptosis could be effectively prevented by over-expressing the dominant-negative mutant of p38 or p38 inhibitor SB203580, demonstrating that activation of p38/JNK signalling is required for initiating the programmed cell death. Furthermore, suppression of the 6-OHDA-generated reactive oxygen species (ROS) by pre-incubation of cells with N-acetyl-L-cysteine effectively inhibited the 6-OHDA-induced activation of ASK1, p38 and JNK, and protected the cells from apoptosis. This study clearly shows the route from ROS generation by 6-OHDA to initiation of p38/JNK signalling via activation of ASK1 in the studied PD model.
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PMID:Critical role of ASK1 in the 6-hydroxydopamine-induced apoptosis in human neuroblastoma SH-SY5Y cells. 1651 47

Increasing evidence has suggested an important role for rotenone in the pathogenesis of Parkinson's disease (PD). In this report, sequential linking of two culture systems, monocytic THP-1 cell line and SH-SY5Y neuroblastoma, was utilized. The supernatant from rotenone-stimulated THP-1 cells was used as the incubating medium for the second culture which adopted cells of the SH-SY5Y neuroblastoma. At 6.25-50 nM, concentrations that were nontoxic to SH-SY5Y directly, rotenone induced dose-dependent cell death on SH-SY5Y through stimulating monocyte THP-1 within a period of 48 h. Cytotoxicity was determined by 3-(4,5-dimethyl-2-thiazolyl)-2,5-diphenyl tetrazolium bromide (MTT) assay. Hoechst 33258 staining revealed that the treatment of SH-SY5Y with rotenone-stimulated THP-1 supernatant resulted in condensed nuclei and a decrease in cell size. Apoptotic rate measured by flow cytometric analysis indicated that at 25 and 50 nM, the percentage of apoptotic SH-SY5Y cells accumulated to 31.5% and 37.0% respectively. We further investigated whether rotenone (50 nM) activated mitogen-activated protein kinase (MAPK) cascades, and found it had effect on p38 MAPK and ERK in THP-1 cells, but not JNK. Pretreatment of THP-1 cells with the MAPK kinase inhibitor, PD98059, inhibited THP-1 cell-mediated rotenone neurotoxicity towards SH-SY5Y, whereas the p38 MEK inhibitor, SB203580, had no effect. These results suggested that activation of microglia intracellular signaling pathway may also involve in microglia-enhanced rotenone neurotoxicity.
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PMID:Monocyte-mediated rotenone neurotoxicity towards human neuroblastoma SH-SY5Y: role of mitogen-activated protein kinases. 1681 71

Exposure to sublethal stress can trigger endogenous protection against subsequent, higher levels of stress. We tested for this preconditioning phenomenon in a model of Parkinson's disease by applying 6-hydroxydopamine to the dopaminergic MN9D cell line. Exposure to sublethal concentrations of 6-hydroxydopamine (5-10 microM) protected against the toxic effects of a subsequent exposure to a higher concentration (50 microM), as measured by the Hoechst assay for nuclear viability. This was accompanied by little or no protection against 6-hydroxydopamine-induced lactate dehydrogenase release, decline in ATP, or reduction in (3)H-dopamine uptake. The antioxidant, N-acetyl cysteine (20 mM), when applied during preconditioning, abolished protection, as did the protein synthesis inhibitor, cycloheximide (0.2 microM). Preconditioning did not affect superoxide dismutase or glutathione peroxidase enzymes, or levels of heat shock protein-72. However, Bcl-2 protein levels rose with preconditioning. Preconditioning rapidly increased phosphorylation of kinases ERK1/2, Akt and JNK, and was abolished by pharmacological inhibitors of their activity. Finally, sublethal 6-hydroxydopamine preconditioned against the toxicity of proteasome inhibitor, MG-132 (1 microM). Thus, exposure of a dopaminergic cell line to sublethal oxidative stress can protect against additional oxidative stress due to translational and post-translational modifications, as well as confer 'cross-tolerance' against a different insult, proteasome inhibition.
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PMID:Effect of sublethal 6-hydroxydopamine on the response to subsequent oxidative stress in dopaminergic cells: evidence for preconditioning. 1695 75

Oxidative stress is a key player in a variety of neurodegenerative disorders including Parkinson's disease. Widely used as a parkinsonian mimetic, 6-hydroxydopamine (6-OHDA) generates reactive oxygen species (ROS) as well as coordinated changes in gene transcription associated with the unfolded protein response (UPR) and apoptosis. Whether 6-OHDA-induced UPR activation is dependent on ROS has not yet been determined. The present study used molecular indicators of oxidative stress to place 6-OHDA-generated ROS upstream of the appearance of UPR markers such as activating transcription factor 3 (ATF3) and phosphorylated stress-activated protein kinase (SAPK/JNK) signaling molecules. Antioxidants completely blocked 6-OHDA-mediated UPR activation and rescued cells from toxicity. Moreover, cytochrome c release from mitochondria was observed after the appearance of early UPR markers, suggesting that cellular stress pathways are responsible for its release. Mechanistically, the 6-OHDA-induced UPR was independent of intracellular calcium changes. Rather, evidence of protein oxidation was observed before the expression of UPR markers, suggesting that the rapid accumulation of damaged proteins triggered cell stress/UPR. Taken together, 6-OHDA-mediated cell death in dopaminergic cells proceeds via ROS-dependent UPR up-regulation which leads to an interaction with the intrinsic mitochondrial pathway and downstream caspase activation.
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PMID:Oxidative stress-triggered unfolded protein response is upstream of intrinsic cell death evoked by parkinsonian mimetics. 1698 35

Nix, a pro-apoptotic BH3-only protein, promotes apoptosis of non-neuronal cells, although the mechanisms involved remain incompletely understood. Using a yeast two-hybrid screen with POSH (plenty of SH3 domains, a scaffold involved in activation of the apoptotic JNK/c-Jun pathway) as the bait, we identified an interaction between POSH and Nix. Co-immunoprecipitation and in vitro binding studies confirmed a direct interaction between POSH and Nix in mammalian cells. When overexpressed in HEK293 cells, Nix promotes apoptosis along with enhanced phosphorylation/activation of JNKs and their target c-Jun. These effects appear to be dependent on POSH because Nix does not promote either JNK/c-Jun phosphorylation or apoptosis of 293 cells that do not express POSH. Nix and POSH appear to mutually stabilize one another and this effect could contribute to their promotion of death. Past work showed induction of Nix transcripts in a cellular model of Parkinson disease based on neuronal PC12 cells exposed to 6-hydroxydopamine. Here, we confirm elevation of Nix protein in this model and that Nix over-expression causes apoptotic death of PC12 cells by a mechanism dependent on c-Jun activation. Expression of s-Nix, a dominant-negative form of Nix, protects neuronal PC12 cells from 6-hydroxydopamine but not from nerve growth factor deprivation. These results indicate that Nix promotes cell death via interaction with POSH and activation of the JNK/c-Jun pathway and that Nix protein is induced and contributes to cell death in a cellular model of Parkinson disease.
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PMID:Proapoptotic Nix activates the JNK pathway by interacting with POSH and mediates death in a Parkinson disease model. 1709 3

Parkinson's disease (PD), a neurodegenerative disorder, causes severe motor impairment due to loss of dopaminergic neurons in substantia nigra pars compacta (SNpc). MPTP, a neurotoxin that causes dopaminergic cell loss in mice, was used in an animal model to study the pathogenic mechanisms leading to neurodegeneration. We observed the activation of apoptosis signal regulating kinase (ASK1, MAPKKK) and phosphorylation of its downstream targets MKK4 and JNK, 12 h after administration of a single dose of MPTP. Further, Daxx, the death-associated protein, translocated to the cytosol selectively in SNpc neurons seemingly due to MPTP mediated down-regulation of DJ-1, the redox-sensitive protein that binds Daxx in the nucleus. Coadministration of alpha-lipoic acid (ALA), a thiol antioxidant, abolished the activation of ASK1 and phosphorylation of downstream kinases, MKK4, and JNK and prevented the down-regulation of DJ-1 and translocation of Daxx to the cytosol seen after MPTP. ALA also attenuated dopaminergic cell loss in SNpc seen after subchronic MPTP treatment. Our studies demonstrate for the first time that MPTP triggers death signaling pathway by activating ASK1 and translocating Daxx, in vivo, in dopaminergic neurons in SNpc of mice and thiol antioxidants, such as ALA terminate this cascade and afford neuroprotection.
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PMID:Activation of apoptosis signal regulating kinase 1 (ASK1) and translocation of death-associated protein, Daxx, in substantia nigra pars compacta in a mouse model of Parkinson's disease: protection by alpha-lipoic acid. 1736 8

The 6055G>A mutation in the leucine-rich repeat kinase 2 (LRRK2) gene results in a G2019S substitution in the mixed-lineage kinase domain of Lrrk2, causing autosomal dominant Parkinson's disease (PD). We hypothesized the mutation alters cellular mitogen-activated protein kinase (MAPK) signalling cascades, and might be detectable in tissues other than in the brain. We therefore compared total levels and activation of the signalling proteins Src, HSP27, p38 MAPK, JNK, and ERK, in extracts of leukocytes isolated from patients with PD carrying the G2019S mutation, healthy mutation carriers, patients with idiopathic PD, and healthy controls. Phosphorylation of Src, HSP27, and JNK was reduced significantly in cell extracts from patients with G2019S-associated PD compared to healthy controls. Similarly, phosphorylation was reduced significantly in Src and HSP27 in the group of healthy carriers of the mutation, as well as in patients with idiopathic PD. Significant reductions in total Src were also observed in these three groups compared to the controls. The results of this pilot project therefore indicate significant alterations in key signalling proteins in leukocytes from patients with PD, and were most pronounced in G2019S-associated PD. Changes in MAPK-signalling may thus be common to PD pathophysiology, regardless of aetiology. Such changes may also be shown in blood samples during the preclinical stage of LRRK2-associated PD, which could be particularly important for the development of neuroprotective strategies to delay onset, or slow progression of PD.
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PMID:MAPK-pathway activity, Lrrk2 G2019S, and Parkinson's disease. 1738 69


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