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)

Parkinson's disease (PD), a progressive neurodegenerative disease characterized by bradykinesia, rigidity, and resting tremor, is the most common neurodegenerative movement disorder. Although the majority of PD cases are sporadic, some are inherited, including those caused by leucine-rich repeat kinase 2 (LRRK2) mutations. The substitution of serine for glycine at position 2019 (G2019S) in the kinase domain of LRRK2 represents the most prevalent genetic mutation in both familial and apparently sporadic cases of PD. Because mutations in LRRK2 are likely associated with a toxic gain of function, destabilization of LRRK2 may be a novel way to limit its detrimental effects. Here we show that LRRK2 forms a complex with heat shock protein 90 (Hsp90) in vivo and that inhibition of Hsp90 disrupts the association of Hsp90 with LRRK2 and leads to proteasomal degradation of LRRK2. Hsp90 inhibitors may therefore limit the mutant LRRK2-elicited toxicity to neurons. As a proof of principle, we show that Hsp90 inhibitors rescue the axon growth retardation caused by overexpression of the LRRK2 G2019S mutation in neurons. Therefore, inhibition of LRRK2 kinase activity can be achieved by blocking Hsp90-mediated chaperone activity and Hsp90 inhibitors may serve as potential anti-PD drugs.
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PMID:The chaperone activity of heat shock protein 90 is critical for maintaining the stability of leucine-rich repeat kinase 2. 1836 5

Mutations and copy number variation in the SNCA gene encoding the neuronal protein alpha-synuclein have been linked to familial Parkinson disease (Thomas, B., and Beal, M. F. (2007) Parkinson's disease. Hum. Mol. Genet. 16, R183-R194). The carboxyl terminus of alpha-synuclein can be phosphorylated at tyrosine 125 and serine 129, although only a small fraction of the protein is phosphorylated under normal conditions (Okochi, M., Walter, J., Koyama, A., Nakajo, S., Baba, M., Iwatsubo, T., Meijer, L., Kahle, P. J., and Haass, C. (2000) Constitutive phosphorylation of the Parkinson's disease associated alpha-synuclein. J. Biol. Chem. 275, 390-397). Under pathological conditions, such as in Parkinson disease, alpha-synuclein is a major component of Lewy bodies, a pathological hallmark of Parkinson disease, and is mostly phosphorylated at Ser-129 (Anderson, J. P., Walker, D. E., Goldstein, J. M., de Laat, R., Banducci, K., Caccavello, R. J., Barbour, R., Huang, J. P., Kling, K., Lee, M., Diep, L., Keim, P. S., Shen, X. F., Chataway, T., Schlossmacher, M. G., Seubert, P., Schenk, D., Sinha, S., Gai, W. P., and Chilcote, T. J. (2006) Phosphorylation of Ser-129 is the dominant pathological modification of alpha-synuclein in familial and sporadic Lewy body disease. J. Biol. Chem. 281, 29739-29752). Controversy exists over the extent to which phosphorylation of alpha-synuclein and/or the visible protein aggregation in Lewy bodies are steps in disease pathogenesis, are protective, or are neutral markers for the disease process. Here we used the combination of peptide pulldown assays and mass spectrometry to identify and compare protein-protein interactions of phosphorylated and non-phosphorylated alpha-synuclein. We showed that non-phosphorylated alpha-synuclein carboxyl terminus pulled down protein complexes that were highly enriched for mitochondrial electron transport proteins, whereas alpha-synuclein carboxyl terminus phosphorylated on either Ser-129 or Tyr-125 did not. Instead the set of proteins pulled down by phosphorylated alpha-synuclein was highly enriched in certain cytoskeletal proteins, in vesicular trafficking proteins, and in a small number of enzymes involved in protein serine phosphorylation. This targeted comparative proteomics approach for unbiased identification of protein-protein interactions suggests that there are functional consequences when alpha-synuclein is phosphorylated.
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PMID:Proteomics analysis identifies phosphorylation-dependent alpha-synuclein protein interactions. 1861 64

alpha-Synuclein expression is increased in dopaminergic neurons challenged by toxic insults. Here, we assessed whether this upregulation is accompanied by pathologic accumulation of alpha-synuclein and protein modifications (i.e. nitration, phosphorylation, and aggregation) that are typically observed in Parkinson disease and in other synucleinopathies. A single injection of the neurotoxicant 1-methyl-4-phenyl-1,2,3,6-tetrahydropyridine (MPTP) to squirrel monkeys caused a buildup of alpha-synuclein but not of beta-synuclein or synaptophysin within nigral dopaminergic cell bodies. Immunohistochemistry and immunoelectron microscopy also revealed large numbers of dystrophic axons labeled with alpha-synuclein. Antibodies that recognize nitrated and phosphorylated (at serine 129) alpha-synuclein stained neuronal cell bodies and dystrophic axons in the midbrain of MPTP-treated animals. After toxicant exposure, alpha-synuclein deposition occurred at the level of neuronal axons in which amorphous protein aggregates were observed by immunoelectron microscopy. In a subset of these axons, immunoreactivity for alpha-synuclein was still evident after tissue digestion with proteinase K, further indicating the accumulation of insoluble protein. These data indicate that toxic injury can induce alpha-synuclein modifications that have been implicated in the pathogenesis of human synucleinopathies. The findings are also consistent with a pattern of evolution of alpha-synuclein pathology that may begin with the accumulation and aggregation of the protein within damaged axons.
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PMID:Pathologic modifications of alpha-synuclein in 1-methyl-4-phenyl-1,2,3,6-tetrahydropyridine (MPTP)-treated squirrel monkeys. 1864 23

Clinical evidence has shown a correlation between Parkinson's disease (PD) and Type 2 Diabetes (T2D), as abnormal glucose tolerance has been reported in >50% of PD patients. The development of insulin resistance and the degeneration of nigrostriatal dopamine (DA) neurons are both mediated by oxidative mechanisms, and oxidative stress is likely a mechanistic link between these pathologies. Although glucose uptake in neuronal tissues is primarily non-insulin dependent, proteins involved in insulin signaling, such as insulin receptor substrate 2 (IRS2) and glucose transporter 4 (GLUT4), are present in the basal ganglia. The purpose of this study was to determine whether nigrostriatal DA depletion affects measures of insulin resistance in the striatum. Six weeks after 6-hydroxydopamine (6-OHDA) infusion into the medial forebrain bundle, rats were classified as having either partial (20-65%) or severe (90-99%) striatal DA depletion. Increased IRS2 serine phosphorylation, a marker of insulin resistance, was observed in the DA-depleted striatum. Additionally, severe depletion resulted in decreased total IRS2, indicating possible degradation of the protein. Decreased phosphorylation of AKT and expression of the kinase glycogen synthase kinase-3 alpha (GSK3-alpha) was also measured in the striatum of severely DA-depleted animals. Finally, expression of heat shock protein 25 (Hsp25), which is protective against oxidative damage and can decrease stress kinase activity, was decreased in the striatum of lesioned rats. Together, these results support the hypothesis that nigrostriatal DA depletion impairs insulin signaling in the basal ganglia.
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PMID:Measures of striatal insulin resistance in a 6-hydroxydopamine model of Parkinson's disease. 1880 3

Phosphorylation is involved in numerous neurodegenerative diseases. In particular, alpha-synuclein is extensively phosphorylated in aggregates in patients suffering from synucleinopathies. However, the share of this modification in the events that lead to the conversion of alpha-synuclein to aggregated toxic species needed to be clarified. The rat model that we developed through rAAV2/6-mediated expression of alpha-synuclein demonstrates a correlation between neurodegeneration and formation of small filamentous alpha-synuclein aggregates. A mutation preventing phosphorylation (S129A) significantly increases alpha-synuclein toxicity and leads to enhanced formation of beta-sheet-rich, proteinase K-resistant aggregates, increased affinity for intracellular membranes, a disarrayed network of neurofilaments and enhanced alpha-synuclein nuclear localization. The expression of a mutation mimicking phosphorylation (S129D) does not lead to dopaminergic cell loss. Nevertheless, fewer but larger aggregates are formed, and signals of apoptosis are also activated in rats expressing the phosphorylation-mimicking form of alpha-synuclein. These observations strongly suggest that phosphorylation does not play an active role in the accumulation of cytotoxic pre-inclusion aggregates. Unexpectedly, the study also demonstrates that constitutive expression of phosphorylation-mimicking forms of alpha-synuclein does not protect from neurodegeneration. The role of phosphorylation at Serine 129 in the early phase of Parkinson's disease is examined, which brings new perspective to therapeutic approaches focusing on the modulation of kinases/phosphatases activity to control alpha-synuclein toxicity.
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PMID:Phosphorylation does not prompt, nor prevent, the formation of alpha-synuclein toxic species in a rat model of Parkinson's disease. 1907 59

A capillary electrophoresis method with in-column light-emitting diode induced fluorescence detection is described for simultaneous determination of D,L-serine in the midbrain of a Parkinson's disease mouse. D,L-Serine was derivatized with fluorescein isothiocyanate, and chiral separation and determination of D,L-serine derivatives were performed on a laboratory-built capillary electrophoresis system with in-column light-emitting diode induced fluorescence detector using gamma-cyclodextrin as chiral selector. Using this method, the levels of D- and L-serine in the midbrains of Parkinson's disease mice were determined. When compared to controls, the levels of D- and L-serine showed significant differences. The result suggested that the biosynthesis and the transportation of endogenous D,L-serine may participate in Parkinson's disease pathogenesis.
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PMID:Determination of D,L-serine in midbrain of Parkinson's disease mouse by capillary electrophoresis with in-column light-emitting diode induced fluorescence detection. 1915 46

To explore pathogenesis of synucleinopathy including Parkinson's disease and multiple system atrophy, we developed cellular model for synucleinopathy. In this experimental model, alpha-synuclein was overexpressed in SH-SY5Y cells, which were then exposed to mitochondrial toxins. The data thus obtained suggested the followings. (1) By the treatment with rotenone, wild type alpha-synuclein overexpressing cells demonstrated intracellular aggregations, which shared a number of features with Lewy bodies. (2) The aggregate formation of alpha-synuclein may be cytoprotective. (3) The catechol-derived quinones are candidate molecules to facilitate the oligomer formation of a-synuclein. (4) The cells overexpressing S129A mutant showed few aggregations. It is suggested that phosphorylation at serine 129 is essential for aggregate formation. (5) In wild-type alpha-synuclein cells treated with rotenone, unfolded protein response (UPR) markers were induced prior to the induction of mitochondrial disruption and caspase-3 activation. (6) On the other hand, the S129A mutant failed to activate these UPRs. Thus it seems plausible that alpha-synuclein toxicity is dependent on the phosphorylation at S129.
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PMID:[Cellular pathophysiology of Parkinson's disease]. 1919 39

Parkinson's disease and dementia with Lewy bodies are very frequent neurological disorders of the elderly. Mutations in the alpha-synuclein (alphaSYN) gene cause Parkinson's disease, often associated with dementia. Neuropathologically these diseases are characterized by the presence of Lewy bodies and Lewy neurites, intraneuronal inclusions mostly composed of alphaSYN protein fibrils. Moreover, alphaSYN is phosphorylated at S129 (phospho-serine-129 [PSer129]) in neuropathological lesions. Using our (Thy1)-[A30P]alphaSYN transgenic mouse model that develops age-dependent impairment in fear conditioning behavior, we investigated PSer129 immunostaining in the brain. We found distinct staining patterns using new, sensitive monoclonal antibodies. Somal and nuclear PSer129 immunoreactivity increased with age in hippocampal and cortical areas as well as the lateral/basolateral amygdalar nuclei and was present also in young, pre-symptomatic mice, but not wild-type controls. The tendency of PSer129 immunostaining to accumulate in the nucleus was confirmed in cell culture. (Thy1)-[A30P]alphaSYN transgenic mice further developed age-dependent, specific neuritic/terminal alphaSYN pathology in the medial parts of the central amygdalar nucleus and one of its projection areas, the lateral hypothalamus. Interestingly, this type of PSer129 neuropathology was thioflavine S negative, unlike the Lewy-like neuropathology present in the brain stem of (Thy1)-[A30P]alphaSYN mice. Thus, alphaSYN becomes phosphorylated in distinct parts of the brain in this alpha-synucleinopathy mouse model, showing age-dependent increases of nuclear PSer129 in cortical brain areas and the formation of neuritic/terminal PSer129 neuropathology with variable amyloid quality within the fear conditioning circuitry and the brain stem.
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PMID:Nuclear and neuritic distribution of serine-129 phosphorylated alpha-synuclein in transgenic mice. 1927 24

N-methyl-D-aspartate receptor (NMDA) has been increasingly implicated in the formation and maintenance of various forms of behavioral and synaptic plasticity. Recent evidence has linked striatal NMDA function to the adverse effects of long-term dopaminergic treatment in Parkinson's disease. The subcellular distribution and phosphorylation of NMDA subunit, NR1, reflects NMDA receptor activity. To elucidate molecular mechanisms that underlie the persisting alterations in motor response occurring with levodopa treatment of parkinsonian patients, we evaluated the effects of unilateral nigrostriatal depletion with 6-hydroxydopamine and subsequent levodopa treatment on motor responses and NR1 alterations. Three weeks of levodopa administration to rats shortened the rotational duration and increased the peak turning responses, which lasted after withdrawal of chronic levodopa treatment. We found a significant reduction in the abundance of both phosphorylated NR1 on serine residues 890 and 896 (pNR1S890 and pNR1S896) and NR1 in the cell plasma membrane of lesioned striatum. Chronic treatment of lesioned rats with levodopa markedly upregulated pNR1S890, pNR1S896, and pNR1S897 in lesioned striatum with a concomitant normalization of the plasma membrane NR1 abundance. The magnitude of increased pNR1S890, pNR1S896, and pNR1S897 is dependent on the number of levodopa injections and is paralleled by a sensitization of the rotational response. Our data indicate that glutamate signaling is triggered during the levodopa administration. Activated NMDA receptor NR1-mediated mechanisms are involved in the persistent expression of the motor response alterations that appear during chronic levodopa therapy of parkinsonian rats and continue after treatment withdrawal.
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PMID:Comparative effects of acute or chronic administration of levodopa to 6-OHDA-lesioned rats on the expression and phosphorylation of N-methyl-D-aspartate receptor NR1 subunits in the striatum. 1928 75

The majority of alpha-synuclein (alphaS) deposited in Lewy bodies, the pathological hallmark of Parkinson's disease (PD), is phosphorylated at serine 129 (Ser129). Ser129 phosphorylation of alphaS has been demonstrated to enhance the alphaS toxicity to dopaminergic neurons in a Drosophila model of PD. Phosphorylation of alphaS at Ser129 seems to play a crucial role in the pathogenesis of PD. Here, we assessed the contribution of ubiquitously expressing members of the G-protein-coupled receptor kinase family (GRK2, GRK3, GRK5, and GRK6) to Ser129 phosphorylation of alphaS in HEK293 cells. To selectively reduce the endogenous expression of each member of the GRK family in cells, we used small interfering RNAs. Knockdown of GRK3 or GRK6 significantly decreased Ser129 phosphorylation of alphaS; however, knockdown of GRK2 or GRK5 did not decrease alphaS phosphorylation. The results indicate that endogenous GRK3 and GRK6, but not GRK2 or GRK5, contribute to Ser129 phosphorylation of alphaS in HEK293 cells.
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PMID:Contribution of endogenous G-protein-coupled receptor kinases to Ser129 phosphorylation of alpha-synuclein in HEK293 cells. 1941 May 57

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