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)

Parkinson's disease is a common neurodegenerative disease with complex clinical features. Autosomal recessive juvenile parkinsonism (AR-JP) maps to the long arm of chromosome 6 (6q25.2-q27) and is linked strongly to the markers D6S305 and D6S253; the former is deleted in one Japanese AR-JP patient. By positional cloning within this microdeletion, we have now isolated a complementary DNA done of 2,960 base pairs with a 1,395-base-pair open reading frame, encoding a protein of 465 amino acids with moderate similarity to ubiquitin at the amino terminus and a RING-finger motif at the carboxy terminus. The gene spans more than 500 kilobases and has 12 exons, five of which (exons 3-7) are deleted in the patient. Four other AR-JP patients from three unrelated families have a deletion affecting exon 4 alone. A 4.5-kilobase transcript that is expressed in many human tissues but is abundant in the brain, including the substantia nigra, is shorter in brain tissue from one of the groups of exon-4-deleted patients. Mutations in the newly identified gene appear to be responsible for the pathogenesis of AR-JP, and we have therefore named the protein product 'Parkin'.
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PMID:Mutations in the parkin gene cause autosomal recessive juvenile parkinsonism. 956 Jan 45

A genetic contribution to the etiology of Parkinson's disease (PD) is now well established, based on the demonstration of a familial aggregation of the disease as demonstrated by several case control and twin studies, and on the description of large multigenerational families, in whom PD is inherited in a Mendelian fashion. In a few families with autosomal dominant inheritance and typical Lewy-body pathology, a gene locus has been mapped to the long arm of chromosome 4, and mutations have been identified in the gene for alpha-synuclein. A gene causing autosomal recessive parkinsonism of juvenile onset has been mapped to chromosome 6, and the causative gene has been identified and named Parkin. This form of parkinsonism differs pathologically from the sporadic disease, as no Lewy bodies are found in the substantia nigra. A third locus, again in families with dominant inheritance, typical Lewy-body pathology and late onset, has been mapped to chromosome 2pl3. At present, there is no evidence that any of these genes for familial Parkinsonian syndromes have a direct role in the etiology of the common sporadic form of PD. However, the elucidation of the molecular sequence of events leading to nigral degeneration in these inherited cases is likely to shed light on the molecular pathogenesis of this common neurodegenerative disorder.
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PMID:Genetics of Parkinson's disease. 983 35

Autosomal recessive juvenile parkinsonism (AR-JP) is a distinct clinical entity characterized by a selective degeneration of nigral neurons. Recently, the parkin gene responsible for AR-JP has been identified. Now, we report the subcellular localization of Parkin protein in patients with AR-JP or Parkinson's disease (PD) and in controls by immunoblotting and immunohistochemistry using antibodies raised against the Parkin molecule. Parkin protein was absent in all regions of the brains of patients with AR-JP. Parkin protein was not decreased in the brains of sporadic PD patients. Immunoreactivity was detected in a few Lewy bodies. Parkin protein was located in both the Golgi complex and cytosol.
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PMID:Immunohistochemical and subcellular localization of Parkin protein: absence of protein in autosomal recessive juvenile parkinsonism patients. 1031 93

We identified a PARK 2 (AR-JP) family with a patient presenting with homozygous deletion of D 6 S305--a marker within the 17cM region for PARK 2 locus. Markers surrounding D 6 S305 which are mapped 0 cM apart from D 6 S305, were not deleted, indicating that PARK 2 gene is located extremely close to D 6 S305. Exon search in the inserts with average size of 100 kb of BAC clones, which harbor D 6 S305, led us to find the exonic sequences which was subsequently proved to be exon 7 of the Parkin gene. From this exon sequences, full-length cDNA was isolated, and BAC contig covering Parkin gene was generated. Homozygous deletions or frame-shift mutations in the Parkin gene were found in the patients with AR-JP/PARK 2, revealing that a loss-of-function of Parkin gene is responsible for AR-JP/PARK 2. Our findings indicate that constant production of Parkin protein is essentially required for maintaining the survival of nigral neurons. One attractive hypothesis is that Parkinson's disease and AR-JP/PARK 2 might share a common effector pathway for nigral neuronal death. In this scenario, as PARK 2 is not accompanied with Lewy body formation. Parkin might act at or downstream of synuclein aggregation, which has been recently implicated as a trigger event for neuronal death in Parkinson's disease. In any case, identification of functional targets of Parkin protein will give us an important clue to identify downstream events of neuronal death which is activated by inclusion body formation.
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PMID:[A Parkin gene (PARK 2) and Parkinson's disease]. 1037 86

Parkinson's disease (PD) is one of the major progressive neurological disorders for which no preventative or long-term effective treatment strategies are available. Epidemiologic studies have failed to identify specific environmental, dietary or lifestyle risk factors for PD except for toxic exposure to manganese, meperidine (Demerol, the "designer drug" version of which often contains a toxic byproduct of the synthesis, 1-methyl-4-phenyl 1,2,3,6 tetrahydropyridine [MPTP]), and some herbicides and pesticides. The search for genetic risk factors such as mutation, overexpression or underexpression of nuclear genes in DA neurons in idiopathic PD has not been successful as yet. Polymorphism in certain genes appears to be a risk factor, but there is no direct evidence for the causal relationship between polymorphism and increased risk of PD. In familial PD, mutation in the alpha-synuclein gene is associated with the disease, but a direct role of this gene in degeneration of DA neurons remains to be established. Although mutations in the Parkin gene has been associated with autosomal recessive juvenile Parkinson's disease, the role of this gene mutation in causing degeneration of DA neurons has not been defined. We have reported that in hereditary PD, a mutation in the alpha-synuclein gene may increase the sensitivity of DA neurons to neurotoxins. We hypothesize that, in idiopathic PD, epigenetic (mitochondria, membranes, protein modifications) rather than genetic events are primary targets which, when impaired, initiate degeneration in DA neurons, eventually leading to cell death. Although the nature of neurotoxins that cause degeneration in DA neurons in PD is not well understood, oxidative stress is one of the intermediary risk factors that could initiate and/or promote degeneration of DA neurons. Therefore, supplementation with antioxidants may prevent or reduce the rate of progression of this disease. Supplementation with multiple antioxidants at appropriate doses is essential because various types of free radicals are produced, antioxidants vary in their ability to quench different free radicals and cellular environments vary with respect to their lipid and aqueous phases. L-dihydroxyphenylalanine (L-dopa) is one of the agents used in the treatment of PD. Since L-dopa is known to produce free radicals during its normal metabolism, the combination of L-dopa with high levels of multiple antioxidants may improve the efficacy of L-dopa therapy.
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PMID:Multiple antioxidants in the prevention and treatment of Parkinson's disease. 1051 22

Mutations within the amino acid sequence of Parkin, the encoded protein of the parkin gene, appear to trigger the degeneration of dopaminergic neurons in the substantia nigra. Here, the presence and anatomical distribution of Parkin within the rat was examined. Immunoblot analysis of tissue homogenates showed two major bands at 50 and 44kDa. Within the brain, Parkin-containing neurons were identified in the basal ganglia, including the substantia nigra and caudate-putamen. Parkin was visualized in the raphe nucleus, which as in the substantia nigra, was closely localized to monoaminergic-encoding neurons. In addition, Parkin was detected in laminar structures such as the cortex and hippocampus; a substantial number of Parkin-immunoreactive neurons was seen in the cerebellum as well. Parkin therefore is widely distributed in brain pathways implicated in the pathology of Parkinson's disease.
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PMID:Identification and distribution of Parkin in rat brain. 1059 51

Parkin gene, which is one of the causes of familial Parkinson's disease, was cloned in 1998, and it was found that mutations of this gene induces familial Parkinson's disease of autosomal recessive form (AR-JP). Clinical studies have revealed that almost cases of AR-JP are consanguineous or hereditary. However, AR-JP may also be caused by marriage between two carriers. We therefore investigated the existence of a homozygous deletion in the parkin gene in 10 patients with juvenile Parkinson's disease with the onset of age younger than 40 years without consanguinity or heredity. A large delection of the gene was found in 2 of the 10 patients with sporadic Parkinson's disease, and both of these deletion were exon 4. The present study clearly suggests that juvenile Parkinson's disease in Japan may be caused by abnormalities in parkin gene regardless of family history or consanguinity.
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PMID:[Two cases of sporadic juvenile Parkinson's disease caused by homozygous deletion of Parkin gene]. 1065 3

The rat parkin cDNA sequence was characterized after screening a rat hypothalamus cDNA library with a 32P-labeled probe containing the entire open reading frame of the human parkin cDNA. This sequence encompasses 1,576 bp and contains a single open reading frame that encodes a 465-amino acid protein. The rat parkin amino acid sequence exhibits a very striking homology to the human and mouse parkin, with 85 and 95% identity, respectively. Both the N-terminal ubiquitin and the ring-IBR (in between ring)-ring finger domains appear to be highly conserved among rat, human, and mouse parkin. An affinity-purified polyclonal antibody (ASP5p) was generated with a synthetic peptide corresponding to amino acids 295-311 of the parkin sequence, which is identical in the three species. Western blotting revealed that ASP5p recognizes a single 52-kDa band, which corresponds to the molecular mass of the parkin protein. Immunostaining with ASP5p showed that parkin is principally located in the cytoplasm of neurons that are widely distributed in the rat brain. Parkin-immunoreactive neurons abound in structures that are specifically targeted in Parkinson's disease, e.g., subtantia nigra, but are also present in unaffected structures, e.g., cerebellum. Furthermore, parkin-enriched glial cells can be detected in various nuclei of the rat brain. Thus, the role of parkin may be much more global than previously thought on the basis of genetic findings gathered in cases of early-onset parkinsonism.
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PMID:Cloning of rat parkin cDNA and distribution of parkin in rat brain. 1073 37

In most patients with Parkinson's disease (PD), the contribution of genetic factors as well as environmental factors remains to be elucidated. But, it has become clear that genetic factors contribute to the pathogenesis of PD after identification of the distinct genetic loci for certain forms of familial PD. We recently identified the novel large gene "parkin" responsible for an autosomal recessive form of familial parkinsonism (AR-JP). AR-JP is a distinct clinical and genetic entity characterized by early onset before 40 years. Pathological changes in this form revealed selective degeneration of the pigmented neurons in the substantia nigra and locus coeruleus, but no Lewy bodies were found. The parkin gene encodes a novel protein of 465 amino acids. The parkin gene is mildly homologous to ubiquitin at the N-terminal portion and has a RING-finger motif at the C-terminal portion. We found variable different homozygous deletions involving exons 3, 4, 5, 3 to 4, 3 to 5, and 3 to 7 in AR-JP families from Japan. In addition to exonic deletions, we identified a one base deletion in exon 5 in two AR-JP families. Although we have identified several mutations in parkin gene, characterization of its gene product, "Parkin protein" has not yet been established. To elucidate the molecular mechanism underlying the disease, we have analyzed the subcellular localization of the Parkin protein by immunohistochemical and immunoblotting studies on patients with AR-JP and sporadic PD using two antibodies. Parkin protein was absent in all regions of the brains of AR-JP patients. Parkin protein was not decreased in brains of sporadic PD patients. Parkin protein was located in both Golgi complex and cytosol. Taken together, the Parkin protein may play a role in vesicular transport system in association with the Golgi complex.
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PMID:[Parkin gene and its function; a key to understand nigral degeneration]. 1079 Oct 92

Exonic deletions of the Parkin gene are common in the autosomal recessive form of juvenile parkinsonism. Here we report Parkin gene mutations among apparently sporadic Parkinson's disease (PD) patients. We screened 200 patients with PD (103 women and 97 men). The age of onset was 54.2+/-10.3years (mean+/-S.D.).Four out of the 200 patients had homozygous exonic deletions in the Parkin gene. The clinical features of these four patients were essentially the same as those of idiopathic PD. The age of onset was consistently younger (33, 38, 47 and 48years, respectively). On medication, all of them were at Hoehn and Yahr stage II or III even after 12-16years from the onset of the disease.Thus 2% of apparently sporadic PD patients in Japan have homozygous Parkin gene mutations. This positive rate was 6.3% among the patients with the age of onset below 50. Our study suggests that the prevalence of the carrier state of Parkin gene may be more than that we expected. Our study warrants further studies on Parkin gene mutations in apparently sporadic PD patients.
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PMID:Exonic deletion mutations of the Parkin gene among sporadic patients with Parkinson's disease. 1081 51


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