UNIPROT:P10636 - FACTA Search

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Query: UNIPROT:P10636 (tau protein)
5,110 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

A number of studies have implicated aluminium as a possible factor in the pathogenesis of Alzheimer's disease (AD). Following an examination of the uptake of aluminium by human neuroblastoma cells in culture, treated with a range of concentrations of aluminium complexed with ethylene-diaminetetra-acetic acid (EDTA), we have now carried out an immunocytochemical study. Using an antibody to phosphorylated tau protein, which reacts specifically with AD neurofibrillary tangles (NFT), we have found that after treatment periods of 16 days to 8 weeks with aluminium-EDTA, the cells show positive staining with this antibody. No such reaction was detected in cells grown in medium alone, nor in aluminium-EDTA-treated cells subjected to the same immunocytochemical procedure but without added primary antibody. Cells grown in medium plus EDTA, which contains a low level of aluminium contamination, showed a slight reaction. Our system may provide a suitable model for studying the early changes which lead to NFT formation.
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PMID:Human neuroblastoma cells treated with aluminium express an epitope associated with Alzheimer's disease neurofibrillary tangles. 170 74

Highly purified and SDS-soluble paired helical filaments (PHFs) were immunogold labeled and immunoblotted with antibodies to tau: Tau 14 (N-terminal half), AH-1 (microtubule-binding domain), and Tau 46 (C-terminal end). The main component of PHFs was modified tau of 68, 64, and 60 kd, also called A68 or PHF-tau. Trypsin digestion reduced the maximum width of PHFs by 10%-20%, increased aggregation of filaments, and abolished the binding of Tau 14, but had no effect on the binding of AH-1. The smallest tau-reactive tryptic fragments were 13 and 7-8 kd, positive with AH-1, and negative with Tau 46. Our results and the model of Crowther and Wischik suggest that by self-association and anti-parallel arrangement of the microtubule-binding domains, PHF-tau forms the backbone of PHFs.
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PMID:Structural stability of paired helical filaments requires microtubule-binding domains of tau: a model for self-association. 170 23

The microtubule-associated protein tau that is incorporated into paired helical filaments (PHFs) undergoes some form of aberrant posttranslational processing in Alzheimer disease. Difficulties in deciding which changes are critical for PHF formation stem in part from the lack of immunochemical markers specific for PHF tau. The only monoclonal antibody (mAb) that is known to react with PHF tau but not with the predominant normal adult tau species is mAb 423. Another mAb (7.51, described in this paper) recognizes a segment of tau that is included in the minimal recognition unit required by mAb 423. Unlike 423, which is PHF tau-specific, mAb 7.51 recognizes all PHF core-derived tau as well as native soluble tau and recombinant tau expressed in bacteria and so serves as a generic tau marker. Both epitopes are in the 12-kDa fragment released from the Pronase-resistant core of the PHF (which encompasses the tandem repeat region). The mAb 7.51 epitope requires segments located in the last two repeats, which are common to all tau isoforms. The mAb 423 epitope requires sequences located near both the N and the C terminus of the 12-kDa fragment common to three- and four-repeat tau isoforms. Fragments denatured by concentrated formic acid and SDS regain 423 reactivity when denaturing agents are removed. Since the primary amino acid sequences of PHF tau and normal tau are identical in the repeat region, we conclude that 423 reactivity also requires a modification(s) occurring within an approximately 90-residue segment that are not present in tau proteins so far described in the human brain.
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PMID:Difference between the tau protein of Alzheimer paired helical filament core and normal tau revealed by epitope analysis of monoclonal antibodies 423 and 7.51. 171 7

Alz-50 is a monoclonal antibody that stains the neurofibrillary pathology of Alzheimer's disease, as well as apparently normal nerve cells that are at risk of developing neurofibrillary tangles. On immunoblots it recognizes microtubule-associated protein tau and proteins of 60-68 kDa that are associated with Alzheimer's disease. We have used recombinant tau proteins expressed in E. coli to map the Alz-50 epitope to amino-terminal residues 2-10, a region common to all known human tau isoforms. A direct correspondence between immunoblots and histological staining was established by the abolition of Alz-50 staining following adsorption with recombinant tau proteins retaining amino-terminal sequences. This suggests that tau pathology represents an early event in the development of the neurofibrillary pathology of Alzheimer's disease.
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PMID:Localization of the Alz-50 epitope in recombinant human microtubule-associated protein tau. 171 95

The microtubule-associated protein tau, and the cytoplasmic protein ubiquitin, are constituents of pathological neurofibrillary tangles found in Alzheimer's disease. In order to see if there is any physiological relationship between these proteins in a functioning human system, human neuroblastoma (LAN-5) cells were grown in vitro and differentiated to a neuronal phenotype. Cell extracts were analyzed by SDS-PAGE, immunoblot, and immunoprecipitation techniques. The colocalization of ubiquitin and tau immunoreactivity was noted in 12- and 35-kDa bands, predominantly located in a cell membrane fraction. The bands were also isolated by immunoprecipitation with the Alz-50 antibody and then identified with a ubiquitin antiserum. These findings show a relationship between tau and ubiquitin in a human neural cell line. This interaction suggests that tau may normally be degraded by an ubiquitin-dependent mechanism and alterations in it may contribute to the formation of neuro-fibrillary pathology.
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PMID:Tau-ubiquitin protein conjugates in a human cell line. 172 70

Using epitope mapping we have demonstrated that a high molecular weight protein (Mr approximately 115 x 10(3)) present in brain and spinal cord is a member of the tau family of microtubule-associated proteins. Antibodies directed against the amino-terminal, middle and carboxyl-terminal portions of tau recognize this protein. A limited survey of neuronal tissues has shown that this high molecular weight tau protein is present in brain, spinal cord, dorsal root ganglia, dorsal and ventral roots and peripheral nerves. High molecular weight tau protein is expressed at higher levels in spinal cord than in brain and is the only form of tau detected in the adult peripheral nervous system.
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PMID:High molecular weight tau: preferential localization in the peripheral nervous system. 172 50

The most characteristic cellular change in Alzheimer's disease is the accumulation of aberrant filaments, the paired helical filaments (PHF), in the affected neurons. There is growing evidence from a number of laboratories that dementia correlates better with the accumulation of PHF than of the extracellular amyloid, the second major lesion of Alzheimer's disease. PHF are both morphologically and biochemically unlike any of the normal neurofibrils. The major polypeptides in isolated PHF are microtubule-associated protein tau. Tau in PHF is phosphorylated differently from tau in microtubules. This abnormal phosphorylation of tau in PHF occurs at several sites. The accumulation of abnormally phosphorylated tau in the affected neurons in Alzheimer's disease brain precedes both the formation and the ubiquitination of the neurofibrillary tangles. In Alzheimer's disease brain, tubulin is assembly competent, but the in vitro assembly of microtubules is not observed. In vitro, the phosphate groups in PHF are less accessible than those of tau to alkaline phosphatase. The in vitro dephosphorylated PHF polypeptides stimulate microtubule assembly from bovine tubulin. It is hypothesized that a defect in the protein phosphorylation/dephosphorylation system is one of the earliest events in the cytoskeletal pathology in Alzheimer's disease. Production of nonfunctional tau by its phosphorylation and its polymerization into PHF most probably contributes to a microtubule assembly defect, and consequently, to a compromise in both axoplasmic flow and neuronal function. Index Entries: Alzheimer's disease; mechanisms of neuronal degeneration; neurofibrillary changes; paired helical filaments: biochemistry; microtubule-associated protein tau; abnormal phosphorylation; ubiquitination; microtubule assembly; axoplasmic flow; protein phosphorylation/dephosphorylation.
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PMID:Ubiquitination and abnormal phosphorylation of paired helical filaments in Alzheimer's disease. 172 45

Immunoaffinity chromatography with a monoclonal antibody produced against bovine tau protein was used to purify tau proteins from human brain. Fifty grams of brain tissue yielded approximately 2 mg of pure tau proteins. The affinity-purified human tau was used to produce a high-titered rabbit anti-human tau serum. The monoclonal anti-tau antibody and the polyclonal rabbit anti-tau serum were then used to construct a sandwich enzyme-linked immunosorbent assay for detection of human tau proteins, with a sensitivity of 1 ng/ml.
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PMID:Affinity purification of human tau proteins and the construction of a sensitive sandwich enzyme-linked immunosorbent assay for human tau detection. 172

Serum-free aggregating cell cultures of fetal rat telencephalon were examined by biochemical and immunocytochemical methods for their development-dependent expression of several cytoskeletal proteins, including the heavy- and medium-sized neurofilament subunits (H-NF and M-NF, respectively); brain spectrin; synapsin I; beta-tubulin; and the microtubule-associated proteins (MAPs) 1, 2, and 5 and tau protein. It was found that with time in culture the levels of most of these cytoskeletal proteins increased greatly, with the exceptions of the particular beta-tubulin form studied, which remained unchanged, and MAP 5, which greatly decreased. Among the neurofilament proteins, expression of M-NF preceded that of H-NF, with the latter being detectable only after approximately 3 weeks in culture. Furthermore, MAP 2 and tau protein showed a development-dependent change in expression from the juvenile toward the adult form. The comparison of these developmental changes in cytoskeletal protein levels with those observed in rat brain tissue revealed that protein expression in aggregate cultures is nearly identical to that in vivo during maturation of the neuronal cytoskeleton. Aggregate cultures deprived of glial cells, i.e., neuron-enriched cultures prepared by treating early cultures with the antimitotic drug cytosine arabinoside, exhibited pronounced deficits in M-NF, H-NF, MAP 2, MAP 1, synapsin I, and brain spectrin, with increased levels of a 145-kDa brain spectrin breakdown product. These adverse effects of glial cell deprivation could be reversed by the maintenance of neuron-enriched cultures at elevated concentrations of KCl (30 mM). This chronic treatment had to be started at an early developmental stage to be effective, a finding suggesting that sustained depolarization by KCl is able to enhance the developmental expression and maturation of the neuronal cytoskeleton.
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PMID:Development and maintenance of the neuronal cytoskeleton in aggregated cell cultures of fetal rat telencephalon and influence of elevated K+ concentrations. 172 9

The effects of cAMP-dependent protein kinase (cAMP-PK) phosphorylation on the degradation of the microtubule-associated protein tau by calpain were studied. Purified bovine brain tau that had been phosphorylated by cAMP-PK had a slower migration pattern on sodium dodecyl sulfate-polyacrylamide gels and a more acidic, less heterogeneous pattern on two-dimensional, nonequilibrium pH gradient electrophoresis (NEPHGE) gels compared with untreated tau. Phosphorylation of tau by cAMP-PK significantly inhibited its proteolysis by calpain compared with untreated tau. To our knowledge this is the first demonstration that phosphorylation of tau by a specific kinase results in increased resistance to hydrolysis by calpain. Tau dephosphorylated by alkaline phosphatase migrated more rapidly on sodium dodecyl sulfate-polyacrylamide gels and also showed an altered two-dimensional NEPHGE pattern. Dephosphorylation of tau had no effect on its susceptibility to calpain proteolysis, indicating that regulation of the susceptibility to calpain hydrolysis is due to the phosphorylation of a specific site(s). These results suggest a role for phosphorylation in regulating the degradation of tau. Abnormal phosphorylation could result in a protease-resistant tau population which may contribute to the formation of paired helical filaments in Alzheimer's disease.
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PMID:Phosphorylation by cAMP-dependent protein kinase inhibits the degradation of tau by calpain. 173 Jul 2

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