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)

Recent whole genome association studies provided little evidence that polymorphisms at the familial Parkinsonism loci influence the risk for Parkinson's disease (PD). However, these studies are not designed to detect the types of subtle effects that common variants may impose. Here, we use an alternative targeted candidate gene approach to examine common variation in 11 genes related to familial Parkinsonism. PD cases (n = 331) and unaffected control subjects (n = 296) were recruited from three specialist movement disorder clinics in Brisbane, Australia and the Australian Electoral Roll. Common genetic variables (76 SNPs and 1 STR) were assessed in all subjects and haplotype, genotype, and allele associations explored. Modest associations (uncorrected P < 0.05) were observed for common variants around SNCA, UCHL1, MAPT, and LRRK2 although none were of sufficient magnitude to survive strict statistical corrections for multiple comparisons. No associations were seen for PRKN, PINK1, GBA, ATP13A2, HTRA2, NR4A2, and DJ1. Our findings suggest that common genetic variables of selected PD-related loci contribute modestly to PD risk in Australians.
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PMID:Do polymorphisms in the familial Parkinsonism genes contribute to risk for sporadic Parkinson's disease? 1922 17

Research in Parkinson's disease (PD) genetics has been extremely prolific over the past decade. More than 13 loci and 9 genes have been identified, but their implication in PD is not always certain. Point mutations, duplications and triplications in the alpha-synuclein (SNCA) gene cause a rare dominant form of PD in familial and sporadic cases. Mutations in the leucine-rich repeat kinase 2 (LRRK2) gene are a more frequent cause of autosomal dominant PD, particularly in certain ethnic groups. Loss-of-function mutations in Parkin, PINK1, DJ-1 and ATP13A2 cause autosomal recessive parkinsonism with early-onset. Identification of other Mendelian forms of PD will be a main challenge for the next decade. In addition, susceptibility variants that contribute to PD have been identified in several populations, such as polymorphisms in the SNCA, LRRK2 genes and heterozygous mutations in the beta-glucocerebrosidase (GBA) gene. Genome-wide associations and re-sequencing projects, together with gene-environment interaction studies, are expected to further define the causal role of genetic determinants in the pathogenesis of PD, and improve prevention and treatment.
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PMID:Parkinson's disease: from monogenic forms to genetic susceptibility factors. 1929 1

Gangliosides may be involved in the pathogenesis of Parkinson's disease and related disorders, although the precise mechanisms governing this involvement remain unknown. In this study, we determined whether changes in endogenous ganglioside levels affect lysosomal pathology in a cellular model of synucleinopathy. For this purpose, dementia with Lewy body-linked P123H beta-synuclein (beta-syn) neuroblastoma cells transfected with alpha-synuclein were used as a model system because these cells were characterized as having extensive formation of lysosomal inclusions bodies. Treatment of these cells with D-threo-1-phenyl-2-decanoylamino-3-morpholino-1-propanol (PDMP), an inhibitor of glycosyl ceramide synthase, resulted in various features of lysosomal pathology, including compromised lysosomal activity, enhanced lysosomal membrane permeabilization, and increased cytotoxicity. Consistent with these findings, expression levels of lysosomal membrane proteins, ATP13A2 and LAMP-2, were significantly decreased, and electron microscopy demonstrated alterations in the lysosomal membrane structures. Furthermore, the accumulation of both P123H beta-syn and alpha-synuclein proteins was significant in PDMP-treated cells because of the suppressive effect of PDMP on the autophagy pathway. Finally, the detrimental effects of PDMP on lysosomal pathology were significantly ameliorated by the addition of gangliosides to the cultured cells. These data suggest that endogenous gangliosides may play protective roles against the lysosomal pathology of synucleinopathies.
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PMID:Protective role of endogenous gangliosides for lysosomal pathology in a cellular model of synucleinopathies. 1934 62

Although Parkinson's disease (PD) has traditionally been considered to be a non-genetic disorder, recent progress in the neurogenetics of PD provided converging evidence that genetic factors play a relevant role in the etiology of PD. The strongest case for a genetic contribution to PD was made by the discovery of mutations in single genes that can cause autosomal dominant (alpha-synuclein (SNCA)) and leucine rich repeat kinase 2 (LRRK2) gene) or recessive (Parkin, PTEN-induced putative kinase 1 (PINK1), DJ-1, and ATP13A2 gene) forms of PD. Here, we review how structural and functional neuroimaging of individuals carrying a mutation in one of the PD genes has offered a unique avenue of research into the pathogenesis of PD. In symptomatic mutation carriers (i.e. those with overt disease), brain mapping can help to link the molecular pathogenesis of PD more directly with functional and structural changes in the intact human brain. In addition, neuroimaging of presymptomatic (i.e. non-manifesting) mutation carriers has emerged as a valuable tool to identify mechanisms of adaptive motor reorganization at the preclinical stage that may prevent or delay clinical manifestation. In addition to mutations causing monogenic forms of PD, common polymorphisms in genes that influence mono-aminergic signaling or synaptic plasticity may have modifying effects on distinct aspects of PD. We also discuss how functional and structural neuroimaging can be used to better characterize these genotype-phenotype correlations.
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PMID:Imaging the impact of genes on Parkinson's disease. 1940 23

Parkinson disease (PD), is a movement disorder pathologically characterized by the progressive loss of dopaminergic neurons in the substantia nigra pars compacta. Although the inherited forms of PD account for only 5 to 10% of PD cases, the identification of gene mutations in the genes implicated in familial PD in the past 10 years, including the findings regarding the a-synuclein, Parkin, ubiquitin-C-terminal hydrolase-L1 (UCH-L1), PINK1, DJ-1 and the ATP13A2 genes, has advanced understanding of the molecular mechanisms in each case of genetic PD. Most familial forms of PD develop at an early onset. However, recent identification of the leucine-rich repeat kinase (LRRK) 2 gene for a late-onset PD, the clinicopathological feature of which closely resembles that of sporadic PD, is expected to enable the clarification of the underlying causes of general PD. Recent studies on the physiological and pathological functions of these identified gene products have revealed overlapping pathogenetic pathways. The common features of these aberrant pathways are impaired protein degradation/quality control, mitochondrial dysfunction, and altered vesicle transport. Several attempts have been made towards developing molecular-targeted therapies directed against mitochondria (e.g., antioxidants, permeability transition pore modulators, and mitochondrial biogenesis stimulators), protein quality control and vesicle transport (e.g., gene silencing, immunization of asynuclein, and protofibril-destabilizing reagents). To ensure the successful implementation of such strategies, it is important to understand the events occuring at an early stage of PD. Further, studies using mammalian PD models for pharmacological analysis combined with studies employing lower organisms for genetic analyses such as worm, fly, and yeast will be helpful to determine effective prevention and treatment strategies for PD, which will replace the conventional symptomatic treatments for PD.
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PMID:[Frontier researches for the development of molecular-targeted therapies for familial Parkinson disease]. 1969 79

Four genes responsible for recessively inherited forms of Parkinson's disease (PD) have been identified, including the recently discovered ATP13A2 (PARK9) gene. Our objective was to investigate the role of this gene in a large cohort of PD patients and controls. We extensively screened all 29 exons of the ATP13A2 coding region in 112 patients with early-onset PD (EOPD; <40 years) of mostly European ethnic origin and of 55 controls. We identified four carriers (3.6%) of novel single heterozygous ATP13A2 missense changes that were absent in controls. Interestingly, the carrier of one of these variants also harbored two mutations in the Parkin gene. None of the carriers had atypical features previously described in patients with two mutated ATP13A2 alleles (Kufor-Rakeb syndrome). Our data suggest that two mutated ATP13A2 alleles are not a common cause of PD. Although heterozygous variants are present in a considerable number of patients, they are-based on this relatively small sample-not significantly more frequent in patients compared to controls.
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PMID:ATP13A2 variants in early-onset Parkinson's disease patients and controls. 1970 61

Over the past several decades there has been considerable progress in our basic knowledge as to the mechanisms and factors regulating Mn toxicity. The disorder known as manganism is associated with the preferential accumulation of Mn in the globus pallidus of the basal ganglia which is generally considered to be the major and initial site of injury. Because the area of the CNS comprising the basal ganglia is very complex and dependent on the precise function and balance of several neurotransmitters, it is not surprising that symptoms of manganism often overlap with that of Parkinson's disease. The fact that neurological symptoms and onset of Mn toxicity are quite broad and can vary unpredictably probably reflects specific genetic variance of the physiological and biochemical makeup within the basal ganglia in any individual. Differences in response to Mn overexposure are, thus, likely due to underlying genetic variability which ultimately presents in deviations in both susceptibility as well as the characteristics of the neurological lesions and symptoms expressed. Although chronic exposure to Mn is not the initial causative agent provoking Parkinsonism, there is evidence suggesting that persistent exposure can predispose an individual to acquire dystonic movements associated with Parkinson's disease. As noted in this review, there appears to be common threads between the two disorders, as mutations in the genes, parkin and ATP13A2, associated with early onset of Parkinsonism, may also predispose an individual to develop Mn toxicity. Mutations in both genes appear to effect transport of Mn into the cell. These genetic difference coupled with additional environmental or nutritional factors must also be considered as contributing to the severity and onset of manganism.
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PMID:Are there common biochemical and molecular mechanisms controlling manganism and parkisonism. 1975 10

Parkinson's disease (PD) is the second most common neurodegenerative disorder after Alzheimer's disease. A progressive movement disorder typified by the production of bradykinesia, tremor, rigidity, and impairment of postural reflexes, PD is characterized by a depletion of dopamine in the striatum. For the last decade, several Mendelian forms of PD have been identified. Mutations in these genes potentially lead to autosomal dominant (alpha-synuclein and LRRK2), or autosomal recessive PD (Parkin, PINK1, DJ1, and ATP13A2). This article will spotlight these six distinct genes unambiguously associated with Mendelian PD and the function of their encoded proteins.
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PMID:From genes to proteins in mendelian Parkinson's disease: an overview. 1994 43

Genomic rearrangements (exon dosage) are common mutations reported in Parkinson's disease (PD) patients. In the present study, we aimed to investigate the prevalence of genomic rearrangements in 88 South African patients with predominantly early-onset PD (age-at-onset <or=50 years). The multiplex ligation-dependent probe amplification method was used to detect exon dosage changes. Two commercially available probe kits, SALSA P051 and P052, were used and together the kits consisted of probes for exons of alpha-synuclein, parkin, PINK1, DJ-1, LRRK2, UCH-L1, ATP13A2, LPA, TNFRSF9, CAV2, CAV1, GCH1, and two-point mutations. We identified exonic rearrangements in parkin and alpha-synuclein in 8% of South African patients from different ethnic groups. One patient had a whole-gene triplication of alpha-synuclein; representing only the fourth family with this mutation reported to date. We found six patients with parkin mutations who had either heterozygous duplications and deletions, or homozygous deletions. A false positive result of an exonic deletion detected in one patient turned out to be homozygous point mutation (Y258X) in PINK1. No exonic rearrangements were found in four of the PD genes; LRRK2, PINK1, DJ-1, and ATP13A2. Mutations in parkin were the predominant genetic cause; however, the frequency of exon dosage in our study group is low compared with previous studies. This indicates the possible involvement of other as yet unidentified PD genes in the development of the disease in the South African population.
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PMID:Analysis of exon dosage using MLPA in South African Parkinson's disease patients. 2001 14

Over the past few years, considerable progress has been made in understanding the molecular mechanisms of Parkinson disease (PD). Mutations in certain genes are found to cause monogenic forms of the disorder, with autosomal dominant or autosomal recessive inheritance. These genes include alpha-synuclein, parkin, PINK1, DJ-1, LRRK2, and ATP13A2. The monogenic variants are important tools in identifying cellular pathways that shed light on the pathogenesis of this disease. Certain common genetic variants are also likely to modulate the risk of PD. International collaborative studies and meta-analyses have identified common variants as genetic susceptibility risk/protective factors for sporadic PD.
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PMID:Genetic basis of Parkinson disease. 2004 22


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