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)

Studies of familial forms of Parkinson's disease (PD) have identified a growing number of genes that derive from the loci given the nomenclature PARK1-PARK13 (OMIM 168600). The alpha-synuclein gene has been implicated in rare autosomal dominant PD because of either mis-sense mutations (PARK1) or gene multiplications (PARK4). Moreover, UCHL1 (PARK5), LRRK2 (PARK8) and HTRA2 (PARK13) have been identified as causative genes for autosomal dominant PD, whereas parkin (PARK2), PINK1 (PARK6), DJ-1 (PARK7) and ATP13A2 (PARK9) have been identified as causative genes for autosomal recessive PD. Neuropathological examination of the kindreds of PARK1/4 showed Lewy body pathology ranging from classic PD to diffuse Lewy body disease. The pathological findings of PARK3 are similar to those of classic PD. In contrast, autopsies of patients with PARK2 showed nigral cell loss without Lewy bodies, although exceptions have been reported. Several kindreds of PARK8 included cases with Lewy body pathology, tau pathology, or with nigral cell loss in the absence of obvious protein deposition. Ubiquitin-positive inclusions that are negative for alpha-synuclein and tau are also seen in some cases. Moreover, widespread Lewy body pathology was also reported in several cases of familial Alzheimer's disease with presenilin-1 mutations.
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PMID:[Pathology of familial Parkinson's disease]. 1771 21

Genetic variability in the promoter and 3' region of the SNCA gene coding alpha-synuclein modulates the risk to develop sporadic Parkinson's disease (PD). Whether this is mediated by regulating alpha-synuclein expression levels remains unknown. Therefore, we analyzed levels of alpha-synuclein in blood and human post mortem brain tissue including the substantia nigra using quantitative real-time reverse transcriptase-polymerase chain reaction and enzyme linked immunosorbent assay in vivo. Single nucleotide polymorphism (SNP) rs356219, a tagging SNP for a disease-associated haplotype in the 3' region of the SNCA gene, has a significant effect on SNCA mRNA levels in the substantia nigra and the cerebellum. Further, the "protective" genotype 259/259 of the PD-associated promoter repeat NACP-Rep1 is associated with lower protein levels in blood than genotypes 261/261, 259/261, and 259/263. In conclusion, we provide evidence that alpha-synuclein levels are influenced by genetic variability in the promoter and 3' region of the SNCA gene in vivo.
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PMID:Genetic variability in the SNCA gene influences alpha-synuclein levels in the blood and brain. 1816 87

Parkinson's disease (PD) is the second most common neurodegenerative disorder among elderly people. 5-10% of PD cases are familial and presumably hereditary forms. Based on the genes responsible for familial PD, genetic PD animal models were produced and provided invaluable information as to the pathogenetic mechanisms of PD. Missense mutations or gene multiplications of alpha-synuclein lead to autosomal dominant form of familial PD termed PARK1 or PARK4, respectively. Transgenic (Tg) mice expressing mutant of wild-type alpha-synuclein replicated main clinical features of PD including Lewy body-like aggregate formation. Inactivation of Parkin E3 enzyme leads to autosomal recessive form of PD without Lewy body formation. We have identified Pael-R as a substrate of Parkin. Accumulation of Pael-R induced by Parkin deletion evokes endoplasmic reticulum (ER) stress, resulting in cell death in cultured cells, Pael-R Tg Drosophila and Parkin-knockout crossed with Pael-R Tg mice. Recently Parkin-deficient and PTEN-induced kinase 1 (PINK1)-deficient flies showed almost identical phenotype: muscle and sperm degeneration accompanied by mitochondrial abnormalities. PINK1 is the gene for PARK6, an autosomal recessive PD. Interestingly, overexpression of Parkin rescued the phenotype of PINK1-deleted fly and Parkin/PINK1 double knockout Drosophila did not aggravated the phenotype of either Parkin or PINK1 single knockouts, indicating that Parkin and PINK1 are located in the common signaling pathway, in which Parkin works downstream of PINK1. Further studies on familial PD animal models will elucidate the roles and relationships of ubiquitin-proteasome system, endoplasmic reticulum and mitochondria in the pathogenesis of PD.
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PMID:[Animal models for familial Parkinson's disease]. 1821 Aug 41

Parkinson's disease (PD) is a common neurodegenerative disorder in the aging population, affecting more than 1% over the age of 65 years. Certain rare forms of the disease are monogenic, representing 5-10% of PD patients, but there is increasing evidence that multiple genetic risk factors are important also for common forms of PD. To date, 13 genetic loci, PARK1-13, have been suggested for rare forms of PD such as autosomal dominant and autosomal recessive PD. At six of these loci, genes have been identified and reported by several groups to carry mutations that are linked to affected family members. Genes in which mutations have been linked to familial PD have also been shown to be candidate genes for idiopathic forms of PD, as those same genes may also carry other mutations that merely increase the risk. Four of the PARK genes, SNCA at PARK1, UCH-L1 at PARK5, PINK1 at PARK6 and LRRK2 at PARK8, have been implicated in sporadic PD. There are indeed multiple genetic risk factors that combine in different ways to increase or decrease risk, and several of these need to be identified in order to begin unwinding the causative pathways leading to the different forms of PD. In this review, we present the molecular genetics of PD that are understood today, to help explain the pathways leading to neurodegeneration.
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PMID:Parkinson's disease: a genetic perspective. 1827 77

Synphilin-1 has been linked to Parkinson's disease (PD) based on its role as an alpha-synuclein (PARK1) and Parkin (PARK2) interacting protein and its presence in lewy bodies in brains of PD patients. We recently identified a R621C mutation in the synphilin-1 gene in German PD patients. Functional analyses revealed that mutant synphilin-1 increases cellular stress, however, the involved molecular signalling pathways are currently unknown. Using microarray based gene expression analysis of dopaminergic SH-SY5Y cells overexpressing wild type or R621C mutant synphilin-1 we investigated differentially regulated genes and signalling networks using the Ingenuity Pathways Analysis tool. We show specific effects of C621 mutant synphilin-1 on gene expression that correlate with its role as a susceptibility factor in PD. The most significantly regulated signalling network was defined by the tumor growth factor beta 1 (TGF-beta1) suggesting an involvement of synphilin-1 in TGF-beta mediated signalling pathways modulating the cellular stress response.
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PMID:Microarray expression analysis reveals genetic pathways implicated in C621 synphilin-1-mediated toxicity. 1829 64

A biomarker (biological marker) is a characteristic that is objectively measured and evaluated as an indicator of normal biological processes, pathogenetic processes or pharmacological responses to a therapeutic intervention. Expectations are high for the development of biomarkers since they make it possible to achieve a significant improvement in the diagnosis and classification of diseases like Parkinson's disease. As a surrogate marker for clinical studies, a biomarker can also be used to determine the efficacy of novel therapeutic interventions, such as neuroprotective strategies, and for monitoring the progress of the disease. Imaging techniques ((18)F-DOPA PET, (123)I-beta-CIT SPECT, MIBG scintigraphy, functional imaging), clinical tests (e.g. hyposmia, micrography, hyperechogenicity, apomorphine test), biochemical markers (e.g. alpha-synuclein and neuromelanin antibodies, oxidative and mitochondrial markers) and genetic tests for hereditary forms (PARK1 to PARK11) are evaluated for their suitability.
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PMID:Early detection of Parkinson's disease: unmet needs. 1832 71

The presynaptic protein alpha-synuclein is involved in several neurodegenerative diseases, including Parkinson's disease (PD). In rare familial forms of PD, causal mutations (PARK1) as well as multiplications (PARK4) of the alpha-synuclein gene have been identified. In sporadic, idiopathic PD, abnormal accumulation and deposition of alpha-synuclein might also cause degeneration of dopaminergic midbrain neurons, the clinically most relevant neuronal population in PD. Thus, cell-specific quantification of alpha-synuclein expression-levels in dopaminergic neurons from idiopathic PD patients in comparison to controls would provide essential information about contributions of alpha-synuclein to the etiology of PD. However, a number of previous studies addressing this question at the tissue-level yielded varying results regarding alpha-synuclein expression. To increase specificity, we developed a cell-specific approach for mRNA quantification that also took into account the important issue of variable RNA integrities of the individual human postmortem brain samples. We demonstrate that PCR -amplicon size can confound quantitative gene-expression analysis, in particular of partly degraded RNA. By combining optimized UV-laser microdissection- and quantitative RT-PCR-techniques with suitable PCR assays, we detected significantly elevated alpha-synuclein mRNA levels in individual, surviving neuromelanin- and tyrosine hydroxylase-positive substantia nigra dopaminergic neurons from idiopathic PD brains compared to controls. These results strengthen the pathophysiologic role of transcriptional dysregulation of the alpha-synuclein gene in sporadic PD.
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PMID:Elevated alpha-synuclein mRNA levels in individual UV-laser-microdissected dopaminergic substantia nigra neurons in idiopathic Parkinson's disease. 1833 41

Recent progresses in the pathogenesis of sporadic Parkinson's disease (PD) and genetics of familial PD are reviewed. There are common molecular events between sporadic and familial PD, particularly between sporadic PD and PARK1-linked PD due to alpha-synuclein (SNCA) mutations. In sporadic form, interaction of genetic predisposition and environmental factors is probably a primary event inducing mitochondrial dysfunction and oxidative damage resulting in oligomer and aggregate formations of alpha-synuclein. In PARK1-linked PD, mutant alpha-synuclein proteins initiate the disease process as they have increased tendency for self-aggregation. As highly phosphorylated aggregated proteins are deposited in nigral neurons in PD, dysfunctions of proteolytic systems, i.e. the ubiquitin-proteasome system and autophagy-lysosomal pathway, seem to be contributing to the final neurodegenerative process. Studies on the molecular mechanisms of nigral neuronal death in familial forms of PD will contribute further on the understanding of the pathogenesis of sporadic PD.
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PMID:Progress in the pathogenesis and genetics of Parkinson's disease. 1842 56

Dysfunction of proteasomal protein degradation is involved in neurodegeneration in Parkinson's disease (PD). Recently we identified the regulatory proteasomal subunit S6 ATPase as a novel interactor of synphilin-1, which is a substrate of the ubiquitin-ligase Parkin (PARK2) and an interacting protein of alpha-synuclein (PARK1). To further investigate a potential role in the pathogenesis of PD, we performed a detailed mutation analysis of the S6 ATPase gene in a large sample of 486 German sporadic and familial PD patients. Direct sequencing revealed two novel intronic variants. An insertion/deletion variant in intron 5 of the S6 ATPase gene was more frequent in patients compared to controls. Moreover, this variant was significantly more frequent in early-onset compared to late-onset PD patients. The identification of a genetic link between a regulatory proteasomal subunit and PD further underscores the relevance of disturbed protein degradation in PD.
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PMID:A comprehensive genetic study of the proteasomal subunit S6 ATPase in German Parkinson's disease patients. 1844 61

Whole-genome epistasis analysis may add a new layer of knowledge to whole-genome association studies, permitting the identification of new candidate genes which are completely transparent during conventional single-locus analysis. We present the first whole-genome conditional two-locus analysis in Parkinson's disease (PD). We scanned the entire genome and selected markers that interacted with a set of well-known loci previously associated to PD (SNCA, Parkin, LRRK2, UCHL1, DJ-1, PINK and MAPT). Our work describes several loci potentially related to PD risk which interact with SNCA, PARK1 and LRRK2 markers. We propose conditional whole-genome two-locus association analysis as a valuable method that might be helpful in re-analysing and re-interpreting data from whole-genome association studies.
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PMID:Whole-genome conditional two-locus analysis identifies novel candidate genes for late-onset Parkinson's disease. 1915 51

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