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)

Mutations in the alpha-synuclein gene have recently been identified in families with inherited Parkinson's disease and the protein product of this gene is a component of Lewy bodies, indicating that alpha-synuclein is involved in Parkinson's disease pathogenesis. A role for normal alpha-synuclein in synaptic function, apoptosis or plasticity responses has been suggested. We show here that in rat pheochromocytoma PC12 cells synuclein-1, the rat homolog of human alpha-synuclein, is highly and selectively up-regulated at the mRNA and protein levels after 7 days of nerve growth factor treatment. Synuclein-1 expression appears neither sufficient nor necessary for the neuritic sprouting that occurs within 1-2 days of nerve growth factor treatment. Rather, it likely represents a component of a late neuronal maturational response. Synuclein-1 redistributes diffusely within the cell soma and the neuritic processes in nerve growth factor-treated PC12 cells. Cultured neonatal rat sympathetic neurones express high levels of synuclein-1, with a diffuse intracellular distribution, similar to neuronal PC12 cells. These results suggest that levels of synuclein-1 may be regulated by neurotrophic factors in the nervous system and reinforce a role for alpha-synuclein in plasticity-maturational responses. In contrast, there is no correlation between synuclein expression and apoptotic death following trophic deprivation.
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PMID:Synuclein-1 is selectively up-regulated in response to nerve growth factor treatment in PC12 cells. 1118 36

The 15-20 kDa synuclein (SYN) phosphoproteins are abundantly expressed in nervous tissue. Members of the family include alpha- and beta-SYN, and the more distantly related gamma-SYN and synoretin. SYN genes have been identified in Torpedo, canary, and several mammalian species, indicating an evolutionary conserved role. Expression of alpha-SYN was found to be modulated in situations of neuronal remodeling, namely, songbird learning and after target ablation of dopaminergic striatonigral neurons in the rat. The presynaptic localization of alpha-SYN is further supportive of a direct physiological role in neuronal plasticity. The extensive synaptic co-localization of alpha- and beta-SYN might indicate functional redundancy of these highly homologous synucleins. However, alpha-SYN was the only family member identified in Lewy bodies and cytoplasmic inclusions characteristic for multiple system atrophy. Moreover, alpha-SYN was genetically linked to familial Parkinson's disease. The two Parkinson's disease-associated mutations accelerated the intrinsic aggregation property of alpha-SYN in vitro. Post-translational modifications, such as phosphorylation and proteolysis, and/or interaction with other proteins, might regulate alpha-SYN fibril formation in vivo. Cytoskeletal elements and signal transduction intermediates have been recently identified as binding partners for alpha-SYN. Preliminary data available from transgenic mice suggest that (over)expressed human alpha-SYN proteins are less efficiently cleared from the neuronal cytosol. Thus, Parkinson's disease-associated mutations might perturb axonal transport, leading to somal accumulation of alpha-SYN and eventually Lewy body formation.
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PMID:Physiology and pathophysiology of alpha-synuclein. Cell culture and transgenic animal models based on a Parkinson's disease-associated protein. 1119 73

We report a 56-year-old woman with progressive gait disturbance. Her mother had Parkinson's disease with onset at age 70. She died at age 74 and the post-mortem examination confirmed the diagnosis of Lewy body positive Parkinson's disease. The patient was well until the age of 50(1995) when she noted an onset of resting tremor and difficulty of gait. She also developed delusional ideation and was admitted to a psychiatric service of another hospital, where a major tranquilizer was given. The delusion disappeared but she developed marked rigidity. The major tranquilizer was discontinued and an anticholinergic and amantadine HCl were given. She showed marked improvement to Hoehn and Yahr stage II and was discharged. In 1995, when she was 52 years of the age, she developed delusion again and a major tranquilizer was given. She developed marked parkinsonism again and became Hoehn and Yahr stage V. The major tranquilizer was discontinued and she was treated with levodopa/carbidopa, trihexyphenidyl, bromocriptine, and dops. She improved remarkably to stage II. She was admitted to our service on October 8, 1996 for drug adjustment. She was alert and not demented. She was anxious but delusion or hallucination was noted. Higher cerebral functions were intact. Cranial nerve functions were also intact except for masked face and small voice. Her posture was stooped and steps were small. She showed retropulsion and moderate bradykinesia. Resting tremor was noted in her left hand. Rigidity was noted in both legs. No cerebellar ataxia or weakness was noted. Deep tendon reflexes were within normal range and sensation was intact. Her cranial MRI revealed some atrophic changes in the putamen, in which a T 2-high signal linear lesion was seen along the lateral border of the putamen bilaterally. In addition, posterior part of the putamen showed T 2-low signal intensity change. She was treated with 1.6 mg of talipexole, 6 mg of trihexyphenidyl, and 100 mg of L-dops. She was in stage III of Hoehn and Yahr. She developed neurogenic bladder with a large amount of residual urine for which she required catheterization. She was transferred to another hospital. Despite drug adjustment, she lost response to levodopa and her parkinsonism deteriorated gradually. She also developed syncope orthostatic hypotension. In April of 1998, she developed intracerebral hemorrhage and was admitted again on April 19, 1998. She was unable to stand and showed marked akinesia and rigidity. She was in stage V of Hoehn and Yahr. Her cranial CT scan revealed bilateral high-density lesions in the posterior parietal lobes. She developed dysphagia for which she required gastrostomy. She was transferred to another hospital but her clinical condition deteriorated further. On December 22, 1999, she developed fever and dyspnea and was admitted to our service again. She developed cardial arrest at the emergency room from hypoxia. She was resuscitated; however, she was comatose with loss of brain stem reflexes. Later on she developed generalized myoclonus. She developed cardiac arrest and pronounced dead on December 28, 1999. The patient was discussed in a neurological CPC. The chief discussant arrived at the conclusion that the patient had striatonigral degeneration because of poor response to levodopa in the later course, autonomic failures, and MRI changes. Some other participants thought that the patient had a form of familial Parkinson's disease. Opinions were divided into these two possibilities. Post-mortem examination revealed that the substantia nigra showed intense neuronal loss and gliosis, however, no Lewy bodies were seen. In addition, intracytoplasmic inclusions were seen in oligodendrocytes. The putamen was markedly atrophic in its posterior part with marked gliosis and neuronal loss. The ventromedial part of the pontine nucleus also showed neuronal loss and intracytoplasmic glial inclusions. Pathologic diagnosis was multiple system atrophy. In the parietal lobe, an arteriovenous malformation with bleeding was noted. This is very unique case. Although her mother had Lewy body-positive Parkinson's disease, the patient had Lewy body-negative multiple system atrophy with a-synuclein-positive glial inclusions. Whether this is just a coincidental occurrence or the presence of a genetic load for Parkinson's disease might triggered her multiple system atrophy is an interesting question to be answered in future.
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PMID:[A-56-year-old woman with parkinsonism, whose mother had Parkinson's disease]. 1142 77

The synuclein family of proteins is a group of primarily brain-expressed polypeptides that show a high degree of amino acid conservation. alpha-Synuclein is the best known of the synuclein family, as it is a major component of the Lewy body, a cytoplasmic inclusion characteristic of Parkinson's disease as well as a variety of related neurodegenerative disorders. With the discovery that mutations in alpha-synuclein can cause Parkinson's disease, a potential role for the other synuclein family members in neurodegenerative disease is being considered. beta-Synuclein in particular may deserve special attention, as it is co-expressed with alpha-synuclein at presynaptic nerve terminals, is subject to phosphorylation by Ca(2+) calmodulin protein kinase II, appears important for neural plasticity, and forms aggregates in the brains of patients with Parkinson's disease and a related disorder. To facilitate study of beta-synuclein, we have cloned the mouse beta-synuclein gene (Sncb) and determined its genomic organization, size, and intron-exon structure. Using an interspecific backcross mapping panel from The Jackson Laboratory, we were then able to localize Sncb to chromosome 13 at the MGD 35.0 cM position. Like the human beta-synuclein gene, Sncb appears to consist of six exons separated by five introns. Unlike the human beta-synuclein gene, the mouse ortholog possesses a variant GC 5' splice donor sequence at the exon 4 - intron 4 boundary in a highly conserved splice junction consensus. Northern blot analysis and Western blot analysis both indicate that Sncb is highly expressed in the brain. Knowledge of the genomic organization and expression pattern of Sncb will allow functional studies of its potential role in neurodegeneration to commence in the mouse.
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PMID:Genomic organization, chromosome location, and expression analysis of mouse beta-synuclein, a candidate for involvement in neurodegeneration. 1147 93

The presence of a high number of Lewy bodies--the morphological marker of Parkinson's disease--in the cerebral cortex of some cases of dementia has been frequently observed in association to Alzheimer type lesions (mainly senile plaques) and changes in the substantia nigra, that may be held responsible for the frequently associated symptoms of parkinsonism. The term "dementia with Lewy body" (DLB) has recently been suggested by a consensus conference and indicates that the pathogenetic mechanism of the dementia remains poorly understood. Marked fluctuations of alertness and of the cognitive performances, moderate parkinsonism and episodes of visual hallucinations may lead to suspect this diagnosis in cases of dementia. Unexplained falls, syncopes, delirium or alterations of consciousness may also be observed, and the patients may then be admitted in departments of internal medicine or geriatrics. The Lewy body is an intraneuronal spherical inclusion, present in Parkinson's disease. It is observed in the brainstem (substantia nigra, locus coeruleus, dorsal nucleus of the Xth nerve) and in the nucleus basalis of Meynert. The cortical Lewy bodies have a different aspect, but retain their antigenic characteristics: they are, in particular, stained by the antiubiquitin antibodies. Recently, they were found to be also labeled by antisynuclein antibodies. A mutation of the synuclein gene was recently identified in cases of familial Parkinson's disease. Clinically as well as pathologically, DLB may thus be difficult to distinguish from Alzheimer's disease on the one hand, and from Parkinson's disease, on the other. That diagnosis, however, is associated with a poor prognosis and should lead to specific therapeutic measures.
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PMID:Dementia with Lewy bodies. 1149 May 48

Although its function is unknown, alpha-synuclein is widely distributed in neural tissue and is the major component in the pathological aggregates found in patients with Parkinson's disease, Alzheimer's disease, Down's syndrome, and multiple system atrophy. In this report, we have quantified the binding alpha-synucleins to lipid membranes. In contrast to previous studies, we find, using real time equilibrium fluorescence methods, that alpha-synuclein binds strongly to large, unilamellar vesicles with either anionic or zwitterionic headgroups. Membrane binding is also strong for beta-synuclein, phosphorylated alpha-synuclein, and a synuclein mutant that is associated with familial Parkinson's disease. In solution at less than 400 nM, synuclein has a tendency to undergo concentration-dependent oligomerization as determined by changes in intrinsic fluorescence and fluorescence resonance energy transfer. Above this concentration, the protein begins to aggregate into structures visible by light scattering. Although membrane binding does not affect the secondary structure of alpha-synuclein, it greatly inhibits the ability of this protein to self-associate. Taken together, our results indicate that pathological conditions may be associated with a disruption in synuclein-membrane interactions.
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PMID:Membrane binding and self-association of alpha-synucleins. 1150 87

Proteasomal dysfunction has been recently implicated in the pathogenesis of several neurodegenerative diseases, including Parkinson's disease and diffuse Lewy body disease. We have developed an in vitro model of proteasomal dysfunction by applying pharmacological inhibitors of the proteasome, lactacystin or ZIE[O-tBu]-A-leucinal (PSI), to dopaminergic PC12 cells. Proteasomal inhibition caused a dose-dependent increase in death of both naive and neuronally differentiated PC12 cells, which could be prevented by caspase inhibition or CPT-cAMP. A percentage of the surviving cells contained discrete cytoplasmic ubiquitinated inclusions, some of which also contained synuclein-1, the rat homologue of human alpha-synuclein. However the total level of synuclein-1 was not altered by proteasomal inhibition. The ubiquitinated inclusions were present only within surviving cells, and their number was increased if cell death was prevented. We have thus replicated, in this model system, the two cardinal pathological features of Lewy body diseases, neuronal death and the formation of cytoplasmic ubiquitinated inclusions. Our findings suggest that inclusion body formation and cell death may be dissociated from one another.
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PMID:Proteasomal inhibition leads to formation of ubiquitin/alpha-synuclein-immunoreactive inclusions in PC12 cells. 1152 Sep 10

alpha-Synuclein is present in intracellular protein aggregates that are hallmarks of common neurodegenerative disorders including Parkinson disease, dementia with Lewy bodies, and multiple system atrophy. alpha-Synuclein is localized in neurons and presynaptic terminals. Under pathological conditions, however, it is also found in glia. The role of alpha-synuclein in glial cells and its relevance to the molecular pathology of neurodegenerative diseases is presently unclear. To investigate the consequence of alpha-synuclein overexpression in glia, we transfected U373 astrocytoma cells with vectors encoding wild-type human alpha-synuclein or C-terminally truncated synuclein fused to red fluorescent protein. alpha-synuclein immunocytochemistry of transfected astroglial cells revealed diffuse cytoplasmic labeling associated with discrete inclusions both within cell bodies and processes. Susceptibility to oxidative stress was increased in astroglial cells overexpressing alpha-synuclein, particularly in the presence of cytoplasmic inclusions. Furthermore, overexpression of alpha-synuclein induced apoptotic death of astroglial cells as shown by TUNEL staining. Our in vitro model is the first to replicate salient features of the glial pathology associated with alpha-synucleinopathies. It provides a simple testbed to further explore the cascade of events that leads to apoptotic glial cell death in some of these disorders; it may also be useful to assess the effects of therapeutic interventions including antioxidative and antiapoptotic strategies.
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PMID:Glial cell death induced by overexpression of alpha-synuclein. 1153 27

Dementia of motor neuron disease type (DMND) is a variety of frontotemporal dementia (FTD) which is pathologically defined by characteristic neuronal ubiquitinated, tau- and synuclein-negative intracytoplasmic inclusions. Many cases with this pathology, however, do not have motor neuron disease. In the present study, we document the presence of ubiquitinated neuronal intranuclear inclusions in a sub-population of cases of neuropathologically verified DMND. Immunohistochemical localization of ubiquitin was performed on sections of post-mortem brain from 12 patients with DMND as well as from cases with other neurodegenerative diseases including amyotrophic lateral sclerosis, Parkinson's disease, dementia with Lewy bodies, corticobasal degeneration, progressive supranuclear palsy, and multiple system atrophy. All of the cases of DMND showed ubiquitinated, tau-negative intracytoplasmic inclusions in dentate granule cells and cortical neurons. Of these 12 cases of DMND, 3 also showed neuronal ubiquitinated intranuclear inclusions. In 1 of these cases, CAG repeat expansions in the genes known to harbor these mutations were excluded. Cases with intranuclear inclusions displayed striatal atrophy and reduced brain weight relative to non-inclusion-bearing cases. In addition, patients with intranuclear inclusions tended to have a younger age of onset, a prolonged duration of disease, absence of motor neuron symptoms, and a family history of dementia. Intranuclear inclusions were not identified in the control cases with other neurodegenerative diseases. Ubiquitinated neuronal intranuclear inclusions have not been reported previously in DMND. The presence of ubiquitinated intranuclear inclusions along with striatal atrophy in a subset of cases of DMND may signify the existence of a neuropathologically distinct subset of this unique form of FTD.
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PMID:Frontotemporal dementia with ubiquitinated cytoplasmic and intranuclear inclusions. 1154 57

We characterized beta-synuclein, the non-amyloidogenic homolog of alpha-synuclein, as an inhibitor of aggregation of alpha-synuclein, a molecule implicated in Parkinson's disease. For this, doubly transgenic mice expressing human (h) alpha- and beta-synuclein were generated. In doubly transgenic mice, beta-synuclein ameliorated motor deficits, neurodegenerative alterations, and neuronal alpha-synuclein accumulation seen in halpha-synuclein transgenic mice. Similarly, cell lines transfected with beta-synuclein were resistant to alpha-synuclein accumulation. halpha-synuclein was coimmunoprecipitated with hbeta-synuclein in the brains of doubly transgenic mice and in the double-transfected cell lines. Our results raise the possibility that beta-synuclein might be a natural negative regulator of alpha-synuclein aggregation and that a similar class of endogenous factors might regulate the aggregation state of other molecules involved in neurodegeneration. Such an anti-amyloidogenic property of beta-synuclein might also provide a novel strategy for the treatment of neurodegenerative disorders.
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PMID:beta-Synuclein inhibits alpha-synuclein aggregation: a possible role as an anti-parkinsonian factor. 1168 92


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