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)

The development of in vivo molecular imaging to evaluate the dopamine (DA) system with positron-emission tomography and single photon emission computed tomography has been of key importance on monitoring in vivo nigrostriatal neuronal loss in Parkinson's disease (PD), mostly through assessments of pre- and post-synaptic DA receptors. The discoveries of genes related to hereditary forms of parkinsonism (PARK1, PARK2, PARK6, PARK7 and PARK8) have increased our understanding either of distinct subtypes of clinical expression in PD or its etiology. This article revises current data on molecular neuroimaging of genetic forms of parkinsonism comparing and contrasting its main features with the classical sporadic forms. Awareness of the spectrum variance in the genotype and its respective PD phenotype are useful to distinguish different pathophysiological mechanisms of PD.
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PMID:Molecular imaging in hereditary forms of parkinsonism. 1738 81

A PARK8 form of Parkinson's disease (PD) is caused by a novel gene, leucine-rich repeat kinase 2 (LRRK2), and a single mutation G2019S was found in a proportion of LRRK2-associated cases of diverse ethnic origins. We performed the LRRK2 G2019S mutation analysis in 304 Russian patients with PD, including 291 sporadic and 13 autosomal dominant cases. The frequency of the LRRK2 G2019S was 0.7% amongst the sporadic patients (2/291) and 7.7% amongst familial PD (1/13). The mutation was also found in three unaffected relatives and absent in 700 control chromosomes. One patient carrying the LRRK2 G2019S was found earlier to have an additional mutation, a heterozygous duplication of exon 5 of the parkin gene. All patients carrying the LRRK2 G2019S exhibited typical levodopa-responsive parkinsonism, and severe levodopa-induced dyskinesia was observed in the patient carrying the LRRK2 and parkin mutations. There was notable variability in ages of the disease onset in G2019S carriers not explained by APOE genotypes. Two subsets of G2019S-positive patients had different PARK8 haplotypes suggesting that the LRRK2 G2019S in Russian patients had arisen independently on different chromosomes. Identification of common LRRK2 mutations in some PD patients without an overt family history has notable implications for genetic counseling.
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PMID:A common leucine-rich repeat kinase 2 gene mutation in familial and sporadic Parkinson's disease in Russia. 1738 90

To understand the genetic origin of I2020T mutation in the kinase domain of leucine rich repeat kinase 2 (LRRK2), we investigated the original PARK8 Japanese family (Sagamihara family) and a German family (family 32), both of which were found to harbor I2020T as the causal mutation for autosomal dominant familial Parkinson's disease (PD). Microsatellite-haplotype analysis around the LRRK2 gene indicated that the mutation-carrying haplotypes of the two families were distinct from each other. This indicated that the I2020T mutation, an essential pathogenic mutation of PARK8-related PD, had occurred independently in the two PD families.
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PMID:Independent occurrence of I2020T mutation in the kinase domain of the leucine rich repeat kinase 2 gene in Japanese and German Parkinson's disease families. 1739 70

Mutations in LRRK2/PARK8 are linked to autosomal dominant forms of Parkinson's disease, but the pathogenic mechanism of LRRK2-associated Parkinson's disease is not fully understood. Moreover, in vivo functions of LRRK2 have not been addressed so far. Thus, we generated and characterized transgenic animals and loss-of-function mutants for LRRK, a sole Drosophila orthologue of human LRRK2. While transgenic expression of pathogenic mutant and wild type LRRK did not show any significant defects, LRRK loss-of-function mutants exhibited severely impaired locomotive activity. Moreover, dopaminergic neurons in LRRK mutants showed a severe reduction in tyrosine hydroxylase immunostaining and shrunken morphology, implicating their degeneration in the mutants. Collectively, our findings unprecedentedly show in vivo that LRRK2 is critical for the integrity of dopaminergic neurons and intact locomotive activity in Drosophila.
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PMID:Loss of LRRK2/PARK8 induces degeneration of dopaminergic neurons in Drosophila. 1749 48

The association of six genes with monogenic forms of parkinsonism has unambiguously established that the disease has a genetic component. Of these six genes, LRRK2 (leucine-rich repeat kinase 2, or PARK8), parkin (PARK2), and PINK1 (PTEN-induced putative kinase 1, or PARK6) are the most clinically relevant because of their mutation frequency. Insights from initial familial studies suggest that LRRK2-associated parkinsonism is dominantly inherited, whereas parkinsonism linked to parkin or PINK1 is recessive. However, screening of patient cohorts has revealed that up to 70% of people heterozygous for LRRK2 mutations are unaffected, and that more than 50% of patients with mutations in parkin or PINK1 have only a single heterozygous mutation. Deciphering the role of heterozygosity in parkinsonism is important for the development of guidelines for genetic testing, for the counselling of mutation carriers, and for the understanding of late-onset Parkinson's disease. We discuss the roles of heterozygous LRRK2 mutations and heterozygous parkin and PINK1 mutations in the development of parkinsonism, and propose an integrated aetiological model for this complex disease.
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PMID:Deciphering the role of heterozygous mutations in genes associated with parkinsonism. 1758 54

Parkinson's disease (PD) is an etiologically heterogeneous disorder characterized by parkinsonism (bradykinesia, resting tremor, rigidity, and postural instability) with good response to L-dopa. PD is the second most prevalent neurodegenerative disorder after Alzheimer disease. Although the majority of PD cases are sporadic, 5-10% of PD is monogenic form of PD as familial PD (FPD). Multifactorial genetic-environmental interaction has been thought in PD pathogenesis, although these interactions are still poorly understood. In 2004, LRRK2 was identified as the causative gene for PARK8 originally mapped in the large Japanese Sagamihara family with late-onset autosomal dominant PD (ADPD). Patients with LRRK2 mutations account for approximately 2-13% of ADPD and 0.5-3% of sporadic PD. Genetically, LRRK2 mutations have been distributed worldwide with some ethnic differences by single founder effect such as G2019S, R1441G, and G2385R variants. LRRK2 G2385R was reported to be a risk factor for sporadic PD in Asia. Clinically, most patients with LRRK2 mutations develop typical idiopathic PD, however, variable clinical features and pathologies such as diffuse Lewy body disease, multiple system atrophy, progressive supranuclear palsy, and amyotrophic lateral sclerosis have been reported. Although Lewy bodies have been considered as a pathological hallmark for sporadic PD classically, some FPD and sporadic PD patients with heterozygous LRRK2 mutations or homozygous parkin mutations have no Lewy bodies. On the other hand, LRRK2 was reported as a component of Lewy bodies. Based on the variability, multifunction of LRRK2 such as phosphorylation of other proteins, especially, alpha-synuclein and tau, have been suggested. As interaction of Parkin and LRRK2 was reported, interaction and intersection among the autosomal-recessive or autosomal-dominant PD proteins could be involved in some common pathways, and LRRK2 may play an important role as a key FPD gene product. Identification of PARK8 and LRRK2 has given meaningful insights in not only PD but also numerous neurodegenerative disorders such as synucleinopathies and tauopathies with or without Lewy bodies.
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PMID:[Clinical molecular genetics for PARK8 (LRRK2)]. 1771 20

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

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

A recently described form of Parkinson's disease - PARK8 - is caused by mutations in the novel LRRK2 gene on chromosome 12q12. The most common mutation in this gene is the substitution G2019S and we studied it for the first time in a large group of Russian Slavonic patients (311 patients) with Parkinson's disease including 295 sporadic and 16 familial cases. The mutation LRRK2-G2019S was identified in 1% of patients examined (3 cases) and was not found in a group of population control. The clinical picture of all patients with the LRRK2-G2019S mutation was typical for levodopa-responsive parkinsonism and age of disease onset varied widely (from 39 to 71 years). Two different PARK8-linked haplotypes were found in carriers of the mutation that suggested the independent origin of the G2019S mutation on different chromosomes. The identification of mutations in the LRRK2 gene in patients with "ordinary" sporadic Parkinson's disease has serious implications for medical genetic counseling and prognosis in respective families.
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PMID:[A PARK8 form of Parkinson's disease: a mutational analysis of the LRRK2 gene in Russian population]. 1837 13

The leucine-rich repeat kinase 2 (LRRK2) has been identified as the defective gene at the PARK8 locus causing the autosomal dominant form of Parkinson's disease (PD). Although several LRRK2 mutations were found in familial as well as sporadic PD patients, its physiological functions are not clearly defined. In this study, using yeast two-hybrid screening, we report the identification of Rab5b as an LRRK2-interacting protein. Indeed, our GST pull down and co-immunoprecipitation assays showed that it specifically interacts with LRRK2. In addition, subcellular fractionation and immunocytochemical analyses confirmed that a fraction of both proteins co-localize in synaptic vesicles. Interestingly, we found that alteration of LRRK2 expression by either overexpression or knockdown of endogenous LRRK2 in primary neuronal cells significantly impairs synaptic vesicle endocytosis. Furthermore, this endocytosis defect was rescued by co-expression of functional Rab5b protein, but not by its inactive form. Taken together, we propose that LRRK2, in conjunction with its interaction with Rab5b, plays an important role in synaptic function by modulating the endocytosis of synaptic vesicles.
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PMID:LRRK2 regulates synaptic vesicle endocytosis. 1844 95


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