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)

To identify spinal motor neuron subtype-specific transcripts, we employed a single cell subtractive screen of mRNAs in chick embryos. We cloned a differentially expressed gene that termed spinal cord G-protein-coupled receptor 1 (SCGPR1) from its expression pattern that change dynamically in the developing spinal cord. The vertebrate orthologue of SCGPR1 is termed Gpr37 (GPCR/CNS1, ET(B)R-LP-1, Pael-R), however the specific ligand of this receptor has not been identified. Recent studies indicate that Pael-R can associate with parkin, a ubiquitin ligase which accumulates in Lewy bodies in dopaminergic neurons and is associated with Parkinson's disease. Although SCGPR1 (Gpr37) expression has been examined in adult tissues, the embryonic expression has not reported. Here, we have defined the expression pattern of SCGPR1 by in situ hybridization during chick development. SCGPR1 was first detected at HH stage 7 in the neural tube and notochord. As development progressed, SCGPR1 expression became restricted to the ventral neural tube. SCGPR1 expression was also present in the developing telencephalon, mesencephalon, retina, visceral-class motor neurons, myotome and thyroid invagination.
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PMID:Cloning and developmental expression of a chick G-protein-coupled receptor SCGPR1. 1725 Oct 65

The C-terminus Hsp70 interacting protein (CHIP) has dual function as both co-chaperone and ubiquitin ligase. CHIP is increasingly implicated in the biology of polyglutamine expansion disorders, Parkinson's disease and tau protein in Alzheimer's disease. We investigated the involvement of CHIP in the metabolism of the beta-amyloid precursor protein and its derivative beta-amyloid (Abeta). Using immunoprecipitation, fluorescence localization and crosslinking methods, endogenous CHIP and betaAPP interact in brain and cultured skeletal myotubes as well as when they are expressed in stable HEK cell lines. Their interaction is confined to Golgi and ER compartments. In the presence of the proteasome inhibitor with MG132, endogenous and expressed betaAPP levels are significantly increased and accordingly, the interaction with CHIP enhanced. Concurrently, levels of Hsp70 were most consistently induced by proteasome inhibition among the various heat shock proteins (HSPs) tested. Thus, complexes of CHIP, Hsp70 and holo-betaAPP (as well as C-terminal fragments) were stabilized by the action of MG132. Moreover, CHIP itself is shown to both increase cellular holo-betaAPP levels and protect it from oxidative stress and degradation. Interestingly, CHIP also promotes the association of ubiquitin with betaAPP, implying that a smaller pool of betaAPP is destined for proteasomal processing. In neuronal cultures, CHIP and Hsp70/90 expression reduce steady-state cellular Abeta levels and hasten its degradation in pulse-chase experiments. The functional significance of CHIP and HSP interactions, especially with Hsp70, was tested using siRNA and in neuronal cells where protection from Abeta-induced toxicity is shown. We conclude that CHIP, as a bimolecular switch, interacts with HSP to stabilize normal holo-betaAPP on the one hand while also assisting in the ubiquitination of a subpopulation of betaAPP molecules that are destined for proteasome degradation. CHIP also hastens the clearance of Abeta in a manner consistent with its known neuroprotective properties.
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PMID:CHIP and HSPs interact with beta-APP in a proteasome-dependent manner and influence Abeta metabolism. 1731 85

Loss of parkin function is a predominant cause of familial Parkinsonism. Emerging evidence also suggests that parkin expression variability may confer a risk for sporadic Parkinson disease. We have recently demonstrated that a wide variety of Parkinson disease-linked stressors, including dopamine (DA), induce parkin solubility alterations and promote its aggregation within the cell, a phenomenon that may underlie the progressive susceptibility of the brain to degeneration. The vulnerability of parkin to stress-induced modification is likely due to its abundance of cysteine residues. Here, we performed a comprehensive mutational analysis and demonstrate that Cys residues residing both within and outside of the RING-IBR (in between RING fingers)-RING domain of parkin are important in maintaining its solubility. The majority of these Cys residues are highly conserved in parkin across different species and potentially fulfil important structural roles. Further, we found that both parkin and HHARI (human homologue of Drosophila ariadne), another RING-IBR-RING-type ubiquitin ligase, are comparably more susceptible to solubility alterations induced by oxidative and nitrosative stress when compared with other non-RING-IBR-RING Cys-containing enzymes. However, parkin appears to be uniquely sensitive to DA-mediated stress, the specificity of which is likely due to DA modification of 2 Cys residues on parkin (Cys-268 and Cys-323) that are distinct from other RING-IBR-RING members.
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PMID:Relative sensitivity of parkin and other cysteine-containing enzymes to stress-induced solubility alterations. 1732 52

Parkin is the gene responsible for a familial form of Parkinson's disease (PD) termed autosomal recessive juvenile parkinsonism (AR-JP)/PARK2. Parkin has been shown to protect cells from endoplasmic reticulum (ER) stress and oxidative stress, presumably due to its ubiquitin ligase (E3) activity that targets proteins for proteasomal degradation. Although the authors showed that parkin is upregulated in response to ER stress, subsequent reports suggest that it does not represent a universal unfolded protein response (UPR). Here the authors report different regulation of parkin in response to ER stress in different cell lines, demonstrating upregulation of parkin as a cell type-specific response to ER stress. 2-Mercaptoethanol (2-ME) and tunicamycin increased the expression of parkin in SH-SY5Y (H) cells, Neuro2a cells, Goto-P3 cells, but not in SH-SY5Y (J) cells and IMR32 cells. In parallel with these studies, similar upregulation of the parkin coregulated gene (PACRG)/gene adjacent to parkin (Glup) was also observed by ER stress. Luciferase assays failed to detect the transcriptional activation of 500 bp parkin/Glup promoter in response to ER stress. These results indicate that induction of parkin by ER stress represents a cell type-specific response.
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PMID:Cell type-specific upregulation of Parkin in response to ER stress. 1746 79

The transcription of antioxidant response element (ARE)-containing cytoprotective genes has been proposed as a means to combat oxidative stress-related disorders, such as cancer and Parkinson's disease. Transactivation of the ARE requires the transcription factor nuclear factor erythroid 2-related factor 2 (Nrf2). Cellular levels of Nrf2 protein are regulated by the Kelch-like ECH-associated protein 1 (Keap1), a substrate adaptor protein for the ubiquitin ligase machinery and subsequent proteasomal degradation. Recently, detailed studies have elucidated the structure and interactions of the Keap1-containing ubiquitin ligase complex. Here, we propose that small molecule modulation of Keap1 protein:protein interactions may permit Nrf2's nuclear accumulation and the transcription of ARE-dependent genes to enhance cellular resistance to oxidative insult.
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PMID:Disruption of the Keap1-containing ubiquitination complex as an antioxidant therapy. 1750 29

Parkinson's disease (PD) and Alzheimer's disease (AD), the most common neurodegenerative diseases, are caused by both genetic and environmental factors. Ubiquitin carboxy-terminal hydrolase L1 (UCH-L1) is a deubiquitinating enzyme that is involved in the pathogenesis of both of these neurodegenerative diseases. Several functions of UCH-L1, other than as an ubiquitin hydrolase, have been proposed; these include acting as an ubiquitin ligase and stabilizing mono-ubiquitin. This review focuses on recent findings on the functions and the regulation of UCH-L1, in particular those that relate to PD and AD.
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PMID:The functions of UCH-L1 and its relation to neurodegenerative diseases. 1758 89

Parkinson's disease is characterized by progressive neuronal degeneration of dopaminergic neurons in the substantia nigra. Many factors are thought to contribute to the neuronal cell death that occurs in Parkinson's disease, including alpha-synuclein-mediated toxicity. Previously, we have reported that alpha-synuclein directly couples to the carboxyl tail of the dopamine transporter (DAT) and that the alpha-synuclein/DAT protein complex formation accelerates DAT-mediated cellular dopamine (DA) uptake and DA-induced cellular apoptosis. In the present study, we report that parkin, an E2-dependent E3 protein ubiquitin ligase associated with recessive early onset Parkinson's disease, exerts a protective effect against DA-induced alpha-synuclein-dependent cell toxicity. Parkin impairs the alpha-synuclein/DAT coupling by interacting with the carboxyl-terminus of the DAT and blocks the alpha-synuclein-induced enhancement in both DAT cell surface expression and DAT-mediated DA uptake. Moreover, we have found that parkin protects against DA-induced cell toxicity in dopaminergic SK-N-SH cells. These findings will help identify the role of these proteins in the etiology and/or maintenance of Parkinson's disease.
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PMID:Parkin disrupts the alpha-synuclein/dopamine transporter interaction: consequences toward dopamine-induced toxicity. 1787 67

Pael receptor (Pael-R) has been identified as one of the substrates of Parkin, a ubiquitin ligase responsible for autosomal recessive juvenile Parkinsonism (AR-JP). When Parkin is inactivated, unfolded Pael-R accumulates in the endoplasmic reticulum and results in neuronal death by unfolded protein stress, suggesting that Pael-R has an important role in the pathogenesis of AR-JP. Here we report the analyses on Pael-R-deficient (KO) and Pael-R-transgenic (Tg) mice. The striatal dopamine (DA) level of Pael-R KO mice was only 60% of that in normal mice, while in Pael-R Tg mice, striatal 3,4-dihydroxyphenylacetic acid (DOPAC) as well as vesicular DA content increased. Moreover, the nigrostriatal dopaminergic neurons of Pael-R Tg mice are more vulnerable to Parkinson's disease-related neurotoxins while those of Pael-R KO mice are less. These results strongly suggest that the Pael-R signal regulates the amount of DA in the dopaminergic neurons and that excessive Pael-R expression renders dopaminergic neurons susceptible to chronic DA toxicity.
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PMID:Pael receptor is involved in dopamine metabolism in the nigrostriatal system. 1788 53

Parkinson's disease (PD) motor symptoms are caused by degeneration of nigrostriatal dopaminergic (DAergic) neurons. The most common causes of hereditary PD are mutations in the PARKIN gene. The ubiquitin ligase parkin has been shown to mediate neuroprotection in cell culture and in vivo, but the molecular mechanisms are not well understood. We investigated the effects of parkin in a human SH-SY5Y neuroblastoma cell culture model of PD, in which transcriptional induction of the enzyme tyrosinase causes a neurotoxic overproduction of cellular DA and its oxidative metabolites. Tyrosinase induction caused formation of reactive oxygen species in the cytosol and mitochondria, and neurotoxicity via activation of apoptotic stress-activated protein kinases and caspase 3. Stable transfection of wild-type parkin suppressed tyrosinase-induced apoptosis, and PD-associated mutations abolished the neuroprotective effect of parkin. Expression of wild-type parkin did not affect reactive oxygen species production, but attenuated the tyrosinase-induced activation of both c-Jun N-terminal kinase and p38 mitogen-activated protein kinase as well as their cognate mitogen-activated protein kinase kinases. PD-associated mutations differentially affected the anti-apoptotic signaling of parkin. Thus, parkin contributes to DAergic neuroprotection by suppression of apoptotic stress-activated protein kinase pathways.
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PMID:Parkin protects against tyrosinase-mediated dopamine neurotoxicity by suppressing stress-activated protein kinase pathways. 1824 10

alpha-Synuclein (alphaSyn) can self-associate, forming oligomers, fibrils, and Lewy bodies, the pathological hallmark of Parkinson disease. Current dogma suggests that oligomeric alphaSyn intermediates may represent the most toxic alphaSyn species. Here, we studied the effect of a potent molecular chaperone, CHIP (carboxyl terminus of Hsp70-interacting protein), on alphaSyn oligomerization using a novel bimolecular fluorescence complementation assay. CHIP is a multidomain chaperone, utilizing both a tetratricopeptide/Hsp70 binding domain and a U-box/ubiquitin ligase domain to differentially impact the fate of misfolded proteins. In the current study, we found that co-expression of CHIP selectively reduced alphaSyn oligomerization and toxicity in a tetratricopeptide domain-dependent, U-box-independent manner by specifically degrading toxic alphaSyn oligomers. We conclude that CHIP preferentially recognizes and mediates degradation of toxic, oligomeric forms of alphaSyn. Further elucidation of the mechanisms of CHIP-induced degradation of oligomeric alphaSyn may contribute to the successful development of drug therapies that target oligomeric alphaSyn by mimicking or enhancing the powerful effects of CHIP.
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PMID:CHIP targets toxic alpha-Synuclein oligomers for degradation. 1843 29

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