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)

We examined the cytotoxicity of dopa and dopamine for cultured neurons by using a newly developed enzyme immunoassay for neurofilament protein to determine surviving neuronal numbers. Each of the two catechols caused neuronal death in the presence of iron with or without superoxide dismutase and catalase, while deferoxamine mesylate prevented neuronal loss. Lipid peroxidation of phospholipid liposomes was confirmed to be produced by the combination of the catechols and iron (Fe3(+)-ADP complex). Thus, it was strongly suggested that cultured neurons were killed via the peroxidative cleavage of cell membrane components provoked by the catechols and iron. This mechanism of neuronal loss may play an important role in the degeneration in the substantia nigra of Parkinson's disease, because the catechols and iron are abundant in this region.
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PMID:Dopa and dopamine cause cultured neuronal death in the presence of iron. 190 38

Although many authors have suggested that dopamine and its metabolites producing free radicals have an harmful effect in the substantia nigra, experimental evidence has not been shown. Using a newly established enzyme immunoassay of the neurofilament protein, a reliable index for the number of survived neurons in tissue culture, we evaluate the effects of Dopa on the neurons of dorsal root ganglia from mice. Neurons were destroyed by the exposure of 0.5 mM Dopa with or without superoxide dismutase and catalase, but they were saved by the pretreatment with 1.0 mM deferoxamine mesylate, a powerful iron-chelating agent. Formation of malondialdehyde, an index of lipid peroxidation, was also observed in the reaction of 0.5 mM Dopa and cerebral cortical neurons from new-born rats only when iron was present. These results indicate that Dopa initiates lipid peroxidation of cell membrane in the presence of a small amount of iron in the culture with little or no participation of reactive oxygen species, leading to the destruction of the neurons. In Parkinson's disease, the cytotoxic mechanism of Dopa and iron may involve the neuronal degeneration in the substantia nigra abundant in iron and dopaminergic neurons.
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PMID:[Iron-dependent cytotoxic effects of dopa on cultured neurons of the dorsal root ganglia]. 211 13

The glial fibrillary acidic protein (GFAP), myelin basic protein (MBP), S100 protein (S100), gamma gamma-enolase and neurofilament proteins were determined in the CSF of neurological patients. In Alzheimer's disease (AD), the GFAP values were very often increased but this was not specific to this disease. In 2 cases of familial AD, increases in neurofilament protein were detected. The determination of autoantibodies against neurofilament proteins in blood showed rather low values in AD, although they were higher than in subacute sclerosing panencephalitis (SSPE) and Chagas' disease. Increases were observed in diseases not related to AD such as vascular disorders and Parkinson's disease.
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PMID:Blood and cerebrospinal fluid anomalies in brain ageing and Alzheimer's disease. 244 27

Monoclonal antibodies which immunocytochemically label Lewy bodies on sections of substantia nigra from subjects with Parkinson's disease were produced by immunization of mice with substantia nigra and locus coeruleus containing Lewy bodies from parkinsonian subjects post-mortem. Tests of specificity indicate that the antibodies do not recognize the same antigen. One of the antibodies (G7) immunocytochemically labels only Lewy bodies, the other (G9) also faintly labels the cell bodies of nigral dopaminergic neurons and cerebellar Purkinje cells in both normal and parkinsonian brains. Absorption experiments show, however, that the G7 antigen is present in normal substantia nigra and the G9 antigen in normal substantia nigra and Purkinje cells. Neither of the antibodies seems to be directed against neurofilament protein. Immunoblots after two-directional electrophoresis indicate that antibody G7 labels a protein with an iso-electric point around 5.6 and a mol. wt. of approximately 40 kdalton, whereas the protein labeled by antibody G9 has an iso-electric point of near 8 and a mol. wt. above 70 kdalton.
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PMID:Monoclonal antibodies raised against Lewy bodies in brains from subjects with Parkinson's disease. 299 47

Mabs directed against phosphorylated epitopes on the heavy and medium neurofilament protein were used to immunostain histological sections from brains of patients without neurological disease and patients suffering from SDAT, Pick's disease, Parkinson's disease, progressive supranuclear palsy and encephalomalacias of the white matter inducing chromatolysis in the overlying cortex. In normal brains only axons but never perikarya were stained. In the pathological brains, however, swollen neurons with chromatolysis and swollen cells in Pick's disease, NFT in SDAT, Pick bodies in Pick's disease, the centers of Lewy bodies in Parkinson's disease and some tangles in progressive supranuclear palsy were stained. These changes are perikaryal alterations. The results are discussed in relation to the formation of NFT in SDAT, i.e. the PHF as seen by electron microscopy. It is concluded that in spite of the reliable staining of NFT with some of our mabs, with sera directed against PHF, MAPs and other cytoskeletal proteins there is no absolutely specific immunoreaction for PHF. The most similar pattern to that observed in NFTs of SDAT is seen in the Pick bodies of Pick's disease, although these do not consist of PHF when looked at with the electron microscope, and although they behave differently from NFT in some 'conventional' histological stains. From this nonspecificity of the immunoreaction and from the presence of multiple cytoskeletal epitopes in NFT it is concluded that NFT (i.e. PHF) are probably not derived from one particular cytoskeletal element but are reassembled from proteolytic breakdown fragments of several of these elements. In this regard the similarities and dissimilarities with the alterations of Pick's disease might be specially relevant and deserve further studies, especially as the clinical features of SDAT and Pick's disease can be very similar.
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PMID:Cytoskeletal immunohistochemistry of Alzheimer's dementia and related diseases. A study with monoclonal antibodies. 312 6

Even in nonfamilial cases of dementia there is some evidence of a genetic factor. This may be linked to defective expression of neurofilament protein and also abnormal phosphorylation of cytoskeletal proteins. In this respect there may be a link with accumulation of tangles and amyloid which have some degree of homology. It may be speculated that neurons containing tangles or undergoing granulovacuolar degeneration would not be able to release trophic factors and that transneuronal degeneration would result. However, the environmental or aetiological factors associated with Alzheimer's disease are not known. Although there has been a failure to transmit Alzheimer's disease to primates, it is possible that as in postencephalitic Parkinson's disease virus may be implicated at some stage in the pathogenesis. Finally, free radical formation has been considered as an alternative mechanism for death of large neurons within the CNS. Although tangles are found in several other dementing conditions (e.g. dementia puglistica, Parkinson-dementia complex of Guam), Alzheimer-type plaques and tangles are not invariably found in cases of cognitive deficit. For example, in dementia of Parkinson's disease there is a low neuritic plaque count and normal population of tangles. In addition, memory loss is not necessarily associated with defects in the cholinergic system and/or loss of nucleus basalis nerve cells. We have proposed that damage to or loss of cortical cells may be a more general finding in dementing illness.
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PMID:Pathophysiology of ageing brain. 330 42

Ubiquitin-immunoreactive dystrophic neurites in the CA2/3 region of the hippocampus are characteristic of diffuse Lewy body disease (DLBD). The origin of dystrophic CA2/3 neurites is unknown, but their extent correlates with the number of cortical Lewy bodies (LBs). To examine the molecular composition of these lesions, hippocampal sections were obtained at postmortem from cases of DLBD, Parkinson's disease and Alzheimer's disease. The tissue samples were fixed in a variety of fixatives and immunostained with antibodies to ubiquitin, ubiquitin C-terminal hydrolase (PGP9.5), neurofilament protein subunits, tau protein, paired helical filaments and tyrosine hydroxylase (TH). In addition to being ubiquitin positive, both cortical LBs and CA2/3 dystrophic neurites were positive with a neurofilament monoclonal antibody (RM032) and PGP9.5; however, fewer lesions were detected with these antibodies compared to ubiquitin immunocytochemistry. The dystrophic CA2/3 neurites were not stained with antibodies to tau proteins, paired helical filaments or TH. Absence of TH immunoreactivity suggests that CA2/3 neuritic processes are not derived from brain stem dopaminergic afferents to the hippocampus. Since CA2/3 neurites are immunologically similar to cortical LB, the pathogenesis of these lesions may be similar. Characterization of dystrophic CA2/3 neurites and cortical LBs may clarify how these lesions contribute to the emergence of dementia in DLBD.
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PMID:Immunoreactivity profile of hippocampal CA2/3 neurites in diffuse Lewy body disease. 791 27

The distribution of neurofilament immunoreactivity in the substantia nigra was examined by immunohistochemistry in five patients dying with Parkinson's disease and six control patients dying without neurological disease. In controls, pigmented neurons in the substantia nigra were intensively labelled by SMI32, a monoclonal antibody to non-phosphorylated neurofilament protein. In the substantia nigra from patients who had Parkinson's disease, there was a pronounced reduction of SMI32 labelling intensity in surviving pigmented neurons. By contrast, tyrosine hydroxylase immunoreactivity in surviving pigmented neurons was normal. SMI32 labelling was normal in regions of the brainstem not affected by the neuropathological process of Parkinson's disease. Findings with either antibodies to phosphorylated neurofilament, or enzymatic dephosphorylation followed by SMI32 labelling, indicated that loss of SMI32 immunostaining in Parkinson's disease was not due to masking of the neurofilament epitopes by phosphorylation. Our results indicate that neurofilament proteins are particularly likely to be disrupted or destroyed by the neuropathological process of Parkinson's disease. Nevertheless, the normal appearance of tyrosine hydroxylase indicates that protein synthesising systems may be intact in surviving neurons. Loss of neurofilament immunoreactivity may prove a sensitive neuropathological marker for characterisation of degenerating neurons in Parkinson's disease.
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PMID:Loss of non-phosphorylated neurofilament immunoreactivity, with preservation of tyrosine hydroxylase, in surviving substantia nigra neurons in Parkinson's disease. 791 75

More reliable tools are needed for the differentiation of Parkinson's disease (PD) from other parkinsonian disorders. The neurofilament protein (NFL) and the glial fibrillary acidic protein (GFAP) are main structural proteins of axons and fibrillary astroglial cells. By using enzyme-linked immunosorbent assays, these proteins were quantified in the cerebrospinal fluid (CSF) of 49 patients referred to the Department of Neurology for diagnostic consideration or treatment of parkinsonism of different etiologies. All patients were first diagnostically evaluated by strict clinical criteria. The procedure included a neurologic and neuro-ophthalmologic examination as well as computed tomography or magnetic resonance imaging. These were performed independently and in advance of the CSF analysis. A total of 19 patients were diagnosed as having PD, 12 had progressive supranuclear palsy (PSP), and 10 had multiple-system atrophy (MSA). Eight were diagnosed as having other diseases, such as arteriosclerotic parkinsonism and undefined parkinsonian syndromes. The content of NFL was significantly higher both in the PSP group (p < 0.001) and in the MSA group (p < 0.0001) compared with the PD group. The high values of NFL indicate an ongoing neuronal degeneration affecting mainly the axonal compartment in the PSP and MSA groups, whereas there was no difference in glial involvement as measured by GFAP in the PD, PSP, and MSA groups. There was a relation between high CSF levels of NFL in the various patient groups and the occurrence of pyramidal symptoms (p < 0.001), possibly reflecting the axonal damage to the corticospinal tract. Furthermore, mortality at 24-month follow up was associated with high NFL levels (p < 0.01). We conclude that analysis of NFL in CSF may become useful in the differential diagnosis of parkinsonian syndromes.
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PMID:Increased cerebrospinal fluid levels of neurofilament protein in progressive supranuclear palsy and multiple-system atrophy compared with Parkinson's disease. 945 29

Oxidative stress has been proposed as a pathogenetic mechanism in Parkinson's disease (PD). One mechanism of oxidative cellular injury is the nitration of protein tyrosine residues, mediated by peroxynitrite, a reaction product of nitric oxide and superoxide radicals. We demonstrate here the presence of nitrotyrosine immunoreactivity in Lewy bodies within melanized neurons and in amorphous deposits associated with intact and degenerating neurons. The core of the Lewy body was frequently intensely immunolabeled, while the rim was lightly labeled or unlabeled. This likely reflects the fact that tyrosine residues of neurofilament proteins are primarily localized to Lewy body cores, and suggests that nitrotyrosine is present in neurofilament protein itself. Although these observations are as yet unable to provide a definitive link between oxidative stress and neuronal dysfunction, they demonstrate that oxidative stress has occurred within the vulnerable neurons of PD, leaving a permanent marker of oxidative modification of neuronal proteins within the target cells of neurodegeneration. In addition, these observations provide a potential link between excitotoxicity and oxidative stress within the vulnerable neurons of PD and represent a pathogenetic mechanism in common with the 2 other major age-related neurodegenerative diseases, Alzheimer disease and amyotrophic lateral sclerosis.
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PMID:Protein nitration in Parkinson's disease. 960 Feb 27


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