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)

Lewy bodies (LBs) are the characteristic inclusions of Parkinson's disease brain but the mechanism responsible for their formation is obscure. Lewy bodies (LBs) are composed of a number of proteins of which alpha-synuclein (alpha-SYN) is a major constituent. In this study, we have investigated the distribution patterns of synphilin-1 and parkin proteins in control and sporadic PD brain tissue by immunohistochemistry (IH), immunoblotting, and immunoelectron microscopy (IEM). We demonstrate the presence of synphilin-1 and parkin in the central core of a majority of LBs using IH and IEM. Using IH, we show an overlapping distribution profile of the two proteins in central neurons. Additionally, we show sensitivity of both endogenous synphilin-1 and parkin to proteolytic dysfunction and their co-localization in aggresomes formed in response to the proteasome inhibitor MG-132. We confirm that synphilin-1 and parkin are components of majority of LBs in Parkinson's disease and that both proteins are susceptible to proteasomal degradation.
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PMID:Synphilin-1 and parkin show overlapping expression patterns in human brain and form aggresomes in response to proteasomal inhibition. 1589 86

Parkinson's disease (PD) is a neurodegenerative disorder characterized by selective loss of dopaminergic neurons and the presence of Lewy bodies. Previous reports have shown that alpha-synuclein deposited in brain tissue from individuals with synucleinopathy is extensively phosphorylated at Ser-129. Here, we investigate the role of phosphorylation of alpha-synuclein in the formation of inclusions involving synphilin-1 and parkin using site-directed mutagenesis to change Ser-129 of alpha-synuclein to alanine (S129A) to abolish phosphorylation at this site. Coexpression of wild-type alpha-synuclein and synphilin-1 in human neuroblastoma SH-SY5Y cells yielded cytoplasmic eosinophilic inclusions with some features resembling Lewy bodies, whereas coexpression of S129A alpha-synuclein and synphlin-1 formed few or no inclusions. Moreover, coexpression of parkin with alpha-synuclein and synphilin-1 formed more ubiquitinated inclusions, but these inclusions decreased with expression of S129A alpha-synuclein instead of wild-type alpha-synuclein. Coimmunoprecipitation assays revealed a decreased interaction of S129A alpha-synuclein with synphilin-1 compared with wild-type alpha-synuclein. Expression of S129A alpha-synuclein instead of wild-type alpha-synuclein also decreased the association of synphilin-1 and parkin and subsequently reduced the parkin-mediated ubiquitination of synphilin-1 and the formation of ubiquitinated inclusions. Treatment of SH-SY5Y cells with H(2)O(2) increased alpha-synuclein phosphorylation and enhanced the formation of inclusions formed by coexpression of alpha-synuclein, synphilin-1, and parkin, whereas treatment with the casein kinase 2 inhibitor 5,6-dichloro-1-beta-d-ribofuranosylbenzimidazole had the opposite affect. These results indicate that phosphorylation of alpha-synuclein at S129 may be important for the formation of inclusions in PD and related alpha synucleinopathies.
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PMID:Alpha-synuclein phosphorylation enhances eosinophilic cytoplasmic inclusion formation in SH-SY5Y cells. 1594 82

Mutations in parkin are largely associated with autosomal recessive juvenile parkinsonism. The underlying mechanism of pathogenesis in parkin-associated Parkinson's disease (PD) is thought to be due to the loss of parkin's E3 ubiquitin ligase activity. A subset of missense and nonsense point mutations in parkin that span the entire gene and represent the numerous inheritance patterns that are associated with parkin-linked PD were investigated for their E3 ligase activity, localization and their ability to bind, ubiquitinate and effect the degradation of two substrates, synphilin-1 and aminoacyl-tRNA synthetase complex cofactor, p38. Parkin mutants vary in their intracellular localization, binding to substrates and enzymatic activity, yet they are ultimately deficient in their ability to degrade substrate. These results suggest that not all parkin mutations result in loss of parkin's E3 ligase activity, but they all appear to manifest as loss-of-function mutants due to defects in solubility, aggregation, enzymatic activity or targeting proteins to the proteasome for degradation.
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PMID:Familial-associated mutations differentially disrupt the solubility, localization, binding and ubiquitination properties of parkin. 1604 31

Septin 5, a parkin substrate, is a vesicle- and membrane-associated protein that plays a significant role in inhibiting exocytosis. The regulatory function of Septin 5 in dopaminergic (DAergic) neurons of substantia nigra (SN), maintained at relatively low levels, has not yet been delineated. As loss of function mutations of parkin are the principal cause of a familial Parkinson's disease, a prevailing hypothesis is that the loss of parkin activity results in accumulation of Septin 5 which confers neuron-specific toxicity in SN-DAergic neurons. In vitro and in vivo models were used to support this hypothesis. In our well-characterized DAergic SN4741 cell model, acute accumulation of elevated levels of Septin 5, but not synphilin-1 (another parkin substrate), resulted in cytotoxic cell death that was markedly reduced by parkin co-transfection. A transgenic mouse model expressing a dominant negative parkin mutant accumulated moderate levels of Septin 5 in SN-DAergic neurons. These mice acquired a progressive l-DOPA responsive motor dysfunction that developed despite a 25% higher than normal level of striatal dopamine (DA) and no apparent loss of DAergic neurons. The phenotype of this animal, increased striatal dopamine and reduced motor function, was similar to that observed in parkin knockout animals, suggesting a common DAergic alteration. These data suggest that a threshold level of Septin 5 accumulation is required for DAergic cell loss and that l-DOPA-responsive motor deficits can occur even in the presence of elevated DA.
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PMID:Neurotoxicity and behavioral deficits associated with Septin 5 accumulation in dopaminergic neurons. 1609 45

alpha-Synuclein is known to play a major role in the pathogenesis of Parkinson disease. We previously identified synphilin-1 as an alpha-synuclein-interacting protein and more recently found that synphilin-1 also interacts with the E3 ubiquitin ligases SIAH-1 and SIAH-2. SIAH proteins ubiquitylate synphilin-1 and promote its degradation through the ubiquitin proteasome system. Inability of the proteasome to degrade synphilin-1 promotes the formation of ubiquitylated inclusion bodies. We now show that synphilin-1 is phosphorylated by GSK3beta within amino acids 550-659 and that this phosphorylation is significantly decreased by pharmacological inhibition of GSK3beta and suppression of GSK3beta expression by small interfering RNA duplex. Mutation analysis showed that Ser556 is a major GSK3beta phosphorylation site in synphilin-1. GSK3beta co-immunoprecipitated with synphilin-1, and protein 14-3-3, an activator of GSK3beta activity, increased synphilin-1 phosphorylation. GSK3beta decreased the in vitro and in vivo ubiquitylation of synphilin-1 as well as its degradation promoted by SIAH. Pharmacological inhibition and small interfering RNA suppression of GSK3beta greatly increased ubiquitylation and inclusion body formation by SIAH. Additionally, synphilin-1 S556A mutant, which is less phosphorylated by GSK3beta, formed more inclusion bodies than wild type synphilin-1. Inhibition of GSK3beta in primary neuronal cultures decreased the levels of endogenous synphilin-1, indicating that synphilin-1 is a physiologic substrate of GSK3beta. Using GFPu as a reporter to measure proteasome function in vivo, we found that synphilin-1 S556A is more efficient in inhibiting the proteasome than wild type synphilin-1, raising the possibility that the degree of synphilin-1 phosphorylation may regulate the proteasome function. Activation of GSK3beta during endoplasmic reticulum stress and the specific phosphorylation of synphilin-1 by GSK3beta place synphilin-1 as a possible mediator of endoplasmic reticulum stress and proteasomal dysfunction observed in Parkinson disease.
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PMID:Glycogen synthase kinase 3beta modulates synphilin-1 ubiquitylation and cellular inclusion formation by SIAH: implications for proteasomal function and Lewy body formation. 1617 73

Most, if not all, neurodegenerative diseases are marked by the presence of ubiquitin-positive protein inclusions. How proteins within these inclusion bodies escape proteasomal degradation despite being enriched with ubiquitin remains a conundrum. Current evidence suggests a relationship between proteasomal impairment and inclusion formation, a persuasive explanation for the inability of the cell to remove ubiquitinated protein aggregates. Alternatively, the formation of ubiquitin-enriched inclusion may be uncoupled from the proteasome. Supporting this, we recently uncovered a novel, proteasomal-independent, catalytic activity for the Parkinson disease (PD)-linked ubiquitin ligase, parkin, that significantly enhances the formation of Lewy body (LB)-like inclusions generated in cultured cells by the co-expression of alpha-synuclein and synphilin-1. This unique activity of parkin mediates a non-classical, lysine (K) 63-linked ubiquitin multichain assembly on synphilin-1 that is distinct from the classical, degradation-associated, K48-linked ubiquitination. Interestingly, two other PD-linked gene products, alpha-synuclein and UCHL1, have recently also been associated with K63-linked ubiquitination. Inclusive of parkin, there are therefore now three PD-related gene products that are known to potentiate K63-linked ubiquitination, thus signalling an important functional relationship between this unique mode of ubiquitin tagging and PD pathogenesis. Mechanistically, the involvement of a "non-degradative" mode of ubiquitination in protein inclusion formation is an attractive explanation for how proteins are seemingly stabilized within inclusions.
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PMID:Parkin-mediated lysine 63-linked polyubiquitination: a link to protein inclusions formation in Parkinson's and other conformational diseases? 1621 28

Parkinson disease (PD) is a relatively common neurodegenerative disorder that is characterized by the loss of dopaminergic neurons and by the formation of Lewy bodies (LBs), which are cytoplasmic inclusions containing aggregates of alpha-synuclein. Although certain post-translational modifications of alpha-synuclein and its related proteins are implicated in the genesis of LBs, the specific molecular mechanisms that both regulate these processes and initiate subsequent inclusion body formation are not yet well understood. We demonstrate in our current study, however, that the prolyl-isomerase Pin1 localizes to the LBs in PD brain tissue and thereby enhances the formation of alpha-synuclein immunoreactive inclusions. Immunohistochemical analysis of brain tissue from PD patients revealed that Pin1 localizes to 50-60% of the LBs that show an intense halo pattern resembling that of alpha-synuclein. By utilizing a cellular model of alpha-synuclein aggregation, we also demonstrate that, whereas Pin1 overexpression facilitates the formation of alpha-synuclein inclusions, dominant-negative Pin1 expression significantly suppresses this process. Consistent with these observations, Pin1 overexpression enhances the protein half-life and insolubility of alpha-synuclein. Finally, we show that Pin1 binds synphilin-1, an alpha-synuclein partner, via its Ser-211-Pro and Ser-215-Pro motifs, and enhances its interaction with alpha-synuclein, thus likely facilitating the formation of alpha-synuclein inclusions. These results indicate that Pin1-mediated prolyl-isomerization plays a pivotal role in a post-translational modification pathway for alpha-synuclein aggregation and in the resultant Lewy body formations in PD.
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PMID:Prolyl-isomerase Pin1 accumulates in lewy bodies of parkinson disease and facilitates formation of alpha-synuclein inclusions. 1636 47

Parkinson disease is the second most frequent neurodegenerative disorder after Alzheimer disease. A subset of genetic forms of Parkinson disease has been attributed to alpha-synuclein, a synaptic protein with remarkable chaperone properties. Synphilin-1 is a cytoplasmic protein that has been identified as a partner of alpha-synuclein (Engelender, S., Kaminsky, Z., Guo, X., Sharp, A. H., Amaravi, R. K., Kleiderlein, J. J., Margolis, R. L., Troncoso, J. C., Lanahan, A. A., Worley, P. F., Dawson, V. L., Dawson, T. M., and Ross, C. A. (1999) Nat. Gen. 22, 110-114), but its function remains totally unknown. We show here for the first time that synphilin-1 displays an antiapoptotic function in the control of cell death. We have established transient and stable transfectants overexpressing wild-type synphilin-1 in human embryonic kidney 293 cells, telecephalon-specific murine 1 neurons, and SH-SY5Y neuroblastoma cells, and we show that both cell systems display lower responsiveness to staurosporine and 6-hydroxydopamine. Thus, synphilin-1 reduces procaspase-3 hydrolysis and thereby caspase-3 activity and decreases poly(ADP-ribose) polymerase cleavage, two main indicators of apoptotic cell death. Furthermore, we establish that synphilin-1 drastically reduces p53 transcriptional activity and expression and lowers p53 promoter transactivation and mRNA levels. Interestingly, we demonstrate that synphilin-1 catabolism is enhanced by staurosporine and blocked by caspase-3 inhibitors. Accordingly, we show by transcription/translation assay that recombinant caspase-3 and, to a lesser extent, caspase-6 but not caspase-7 hydrolyze synphilin-1. Furthermore, we demonstrate that mutated synphilin-1, in which a consensus caspase-3 target sequence has been disrupted, resists proteolysis by cellular and recombinant caspases and displays drastically reduced antiapoptotic phenotype. We further show that the caspase-3-derived C-terminal fragment of synphilin-1 was probably responsible for the antiapoptotic phenotype elicited by the parent wild-type protein. Altogether, our study is the first demonstration that synphilin-1 harbors a protective function that is controlled by the C-terminal fragment generated by its proteolysis by caspase-3.
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PMID:Caspase-3-derived C-terminal product of synphilin-1 displays antiapoptotic function via modulation of the p53-dependent cell death pathway. 1649 29

alpha-Synucleinopathies are a group of neurological disorders characterized by the presence of intracellular inclusion bodies containing alpha-synuclein. We previously demonstrated that synphilin-1 interacts with alpha-synuclein, implying a role in Parkinson's disease. We now report the identification and characterization of synphilin-1A, an isoform of synphilin-1, which has enhanced aggregatory properties and causes neurotoxicity. The two transcripts encoding synphilin-1A and synphilin-1 originate from the SNCAIP gene but differ in both their exon organization and initial reading frames used for translation. Synphilin-1A binds to alpha-synuclein and induces the formation of intracellular aggregates in human embryonic kidney 293 cells, primary neuronal cultures, and human dopaminergic cells. Overexpression of synphilin-1A in neurons results in striking cellular toxicity that is attenuated by the formation of synphilin-1A inclusions, which recruit alpha-synuclein. Synphilin-1A is present in Lewy bodies of patients with Parkinson's disease and Diffuse Lewy Body disease, and is observed in detergent-insoluble fractions of brain protein samples obtained from Diffuse Lewy Body disease patients. These findings suggest that synphilin-1A may contribute to neuronal degeneration in alpha-synucleinopathies and also provide important insights into the role of inclusion bodies in neurodegenerative disorders.
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PMID:Synphilin-1A: an aggregation-prone isoform of synphilin-1 that causes neuronal death and is present in aggregates from alpha-synucleinopathy patients. 1659 33

Seven in absentia homolog 1 (SIAH-1) is a member of the RING-finger-containing E3 ubiquitin ligases. Two substrates of SIAH-1 are alpha-synuclein and synphilin-1, both of these proteins are involved in Parkinson's disease (PD). Recently, mutations in Parkin, another E3 ubiquitin ligase which ubiquinates synphilin-1 and glycosylated alpha-synuclein, have been defined as a major cause of autosomal recessive PD. The potential role of SIAH-1 in PD is further underlined as SIAH-1 protein is a component of the Lewy bodies and as it plays a role in apoptosis caused by nitric oxide (NO) induced oxidative stress. Thus, we performed a mutation screening of the SIAH-1 gene in PD patients. However, screening a large sample of 209 familial and sporadic PD patients we could not find any disease causing mutation. We therefore conclude that genetic alterations of SIAH-1 do not significantly contribute to the pathogenesis of PD.
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PMID:Mutation analysis of the seven in absentia homolog 1 (SIAH1) gene in Parkinson's disease. 1675 48


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