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)

Microtubule accessory proteins were isolated from porcine brain microtubules by phosphocellulose chromatography, and the high molecular weight protein (HMW protein), purified from this microtubule-associated fraction by electrophoretic elution from SDS gels, was used to raise antisera in rabbits. In agarose double diffusion tests, the antiserum obtained forms precipitin lines with purified HMW protein but not with tau protein or tubulin. When rat glial cells (strain C6) are examined by indirect immunofluorescence, this serum specifically stains a colchicine-sensitive filamentous cytoplasmic network in interphase cells, a network indistinguishable from that seen when cells are treated with antitubulin serum. In dividing cells, specific staining of the mitotic spindle and the stem body is observed with the antiserum to HMW protein. These studies indicate that HMW protein, like tau protein, is associated with microtubules in intact cells.
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PMID:Intracellular localization of the high molecular weight microtubule accessory protein by indirect immunofluorescence. 34 29

Glycogen synthase kinase-3 (GSK-3) reduced the mobility of human tau on SDS-PAGE, prevented binding of the monoclonal antibody (mAb), Tau.1, and induced binding of the mAb 8D8. Recombinant tau phosphorylated by GSK-3 aligned on SDS-PAGE with the abnormally phosphorylated tau (PHF-tau) associated with the paired helical filaments in Alzheimer's disease brain. Phosphorylated serine396 (numbering of the largest human brain tau isoform) was identified as a binding site on tau for mAb 8D8. The localisation of GSK-3 within granular structures in pyramidal cells indicates that GSK-3 alpha and GSK-3 beta may have a role in the production of PHF-tau in Alzheimer's disease.
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PMID:Glycogen synthase kinase-3 induces Alzheimer's disease-like phosphorylation of tau: generation of paired helical filament epitopes and neuronal localisation of the kinase. 133 52

The present study examined the distribution of the high molecular weight (HMW) tau protein isoform in the nervous system by immunoblotting and immunohistochemistry. Some of the biochemical properties of this 110 kDa tau protein were explored, including its heat stability, phosphorylation and partitioning with cold/Ca2+ stable vs. soluble microtubules. Qualitative western blot analysis revealed that HMW tau is preferentially expressed in neurons with peripherally projecting axons. For example, this isotype was present in sciatic nerve, ventral and dorsal roots, trigeminal nerve, vagus nerve, dorsal root ganglia (DRG) and spinal cord, but was present in only trace amounts in CNS regions. Another tau isoform of slightly smaller size (90-100 kDa), termed mid-molecular weight (MMW) tau, was present in abundant quantity in optic nerve samples and detectable in several other CNS regions, including hippocampus and cerebellum. The 110 kDa HMW tau as well as MMW tau and the other tau isoforms were found to be heat stable proteins. The HMW and MMW tau isoforms preferentially partitioned with the cold and Ca+2 insoluble tubulin fraction, but the association of HMW tau with stable microtubules was very susceptible to proteolysis. Dephosphorylation of fresh tissue with alkaline phosphatase produced no apparent shift in the mobility of HMW tau on SDS-PAGE but did alter the mobility of other brain tau isoforms, including MMW tau. Immunocytochemical staining with tau-1 antibody in the DRG, which contains HMW tau but no other tau isotypes, showed localization to mainly small neurons and was not altered by dephosphorylation of the histological sections.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Regional distribution and biochemical characteristics of high molecular weight tau in the nervous system. 145 89

Microtubule-associated protein tau consists in brain of a series of isoforms of 48- to 67-kDa apparent molecular mass that are encoded by mRNAs of approximately 6 kilobases (kb) and that are generated from a single gene by alternative splicing. Previously, a tau-like protein of 110-kDa apparent molecular mass was described in peripheral ganglia and in peripheral neuronlike cell lines. We now report the cloning and sequencing of a rat cDNA encoding this big tau. The corresponding protein contains sequence identical to the longest of the previously cloned small tau isoforms but with an additional 254 amino acid insert in the amino-terminal half. Big tau is produced from an 8-kb mRNA generated by alternative splicing from the same gene that encodes small tau. Production of big tau from the cloned sequence gives a protein of 110-kDa apparent molecular mass that aligns on SDS/PAGE with big tau protein extracted from peripheral ganglia. RNA blots show that in peripheral ganglia from adult rats only the 8-kb mRNA band corresponding to big tau is found, whereas in ganglia from newborn rats both 6- and 8-kb tau mRNA bands are found. In tissues from the central nervous system only the 6-kb mRNA band can be detected. Big tau protein is therefore produced specifically in the peripheral nervous system, and it will be interesting to see whether further molecular differences between the two major divisions of the vertebrate nervous system will be discovered.
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PMID:Cloning of a big tau microtubule-associated protein characteristic of the peripheral nervous system. 154 96

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

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

Some investigators have described the presence in Alzheimer's disease brain extracts of several abnormal forms of the microtubule-associated protein tau, based on their unusual mobility in SDS/PAGE. It has been proposed that these abnormal forms of tau may be the result of aberrant tau phosphorylation. In this study we show that tau in extracts of Alzheimer's disease brain can be separated into two fractions based upon its solubility (100,000 g x 1 h supernatant) in non-denaturing conditions (100 mM-Mes, pH 6.5, 0.5 mM-MgCl2, 1 mM-EGTA and 1 M-NaCl). The tau isoforms with decreased mobility in SDS/PAGE are predominantly in an insoluble fraction, whereas the soluble tau is indistinguishable by its mobility in SDS/PAGE from tau in soluble extracts of control brain. Insoluble tau displaying abnormal mobility on SDS/PAGE was only found in Alzheimer and adult Down's syndrome brains and was absent from the brains of age-matched controls and from foetal and infant Down's syndrome brains. There was a good correlation between the presence of insoluble tau in brain extracts and the abundance of neurofibrillary tangles and senile neuritic plaques. The monoclonal antibody Tau. 1 stained insoluble tau on Western blots only after treatment of the nitrocellulose transfers with alkaline phosphatase, implying that this insoluble tau is in a particular state of phosphorylation. We conclude that, in Alzheimer's disease, a fraction of tau has a modified phosphorylation state and a decreased solubility; these modifications may precede formation of the neurofibrillary tangles characteristic of Alzheimer's disease and Down's syndrome in adults.
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PMID:Tau in Alzheimer's disease and Down's syndrome is insoluble and abnormally phosphorylated. 182 35

Six hours after heat shocking 2- to 3-month-old male and female Sprague-Dawley rats at 42 degrees C for 15 min, we analyzed tau protein immunoreactivity in SDS extracts of cerebrums and peripheral nerves by using immunoblot analysis and immunohistochemistry with the anti-tau monoclonal antibody Tau-1, which recognizes a phosphate-dependent non-phosphorylated epitope, and with 125I-labeled protein A. In the cerebral extracts, we found altered phosphorylation of tau in heat-shocked females, characterized by a marked reduction in the amount of nonphosphorylated tau, a doubling of the ratio of total (phosphorylated plus nonphosphorylated) tau to nonphosphorylated tau, and the appearance of the slowest moving phosphorylated tau polypeptide (68 kDa). Similar, but milder, changes were observed in male rats. These changes progressively increased in females from 3 to 6 h after heat shocking. In contrast, both phosphorylated tau and nonphosphorylated tau were reduced in peripheral nerves after heat shocking. In immunoblots of SDS extracts from Alzheimer disease-affected brain, the two slowest moving phosphorylated tau polypeptides (62 kDa and 66 kDa, respectively) were detected by Tau-1 after dephosphorylation and by Tau-2 (an anti-tau-monoclonal antibody that recognizes a phosphate-independent epitope) without prior dephosphorylation only in regions that contained tau immunoreactivity in histologic preparations. In addition, quantitative immunoblot analysis of cortex and the underlying white matter with Tau-1 and 125I-labeled protein A showed that the amount of phosphorylated tau progressively increased in the Alzheimer disease-affected cerebral cortex, while concurrently a proportionally lesser amount of tau entered the white matter axons. The similar findings for the rat heat-shock model and Alzheimer disease suggest that life stressors may play a role in the etiopathogenesis of Alzheimer disease.
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PMID:Altered phosphorylation of tau protein in heat-shocked rats and patients with Alzheimer disease. 190 45

We have expressed six previously cloned isoforms of human microtubule-associated tau protein in Escherichia coli and purified them to homogeneity in a biologically active form. They range from 352 to 441 amino acids in length and differ from each other by the presence of three or four tandem repeats in the carboxy-terminal half and by the presence or absence of 29 or 58 amino acid inserts in the amino-terminus. When mixed together they gave a set of six bands on SDS-PAGE gels with apparent molecular weights of 48-67 kd and with a characteristic pattern of spacings. Four of these bands aligned with the major tau bands found in adult human cerebral cortex following perchloric acid extraction and alkaline phosphatase treatment. They consisted of isoforms with three repeats and no insertions, four repeats and no amino-terminal insertions and three- and four-repeat containing isoforms with the 29 amino acid insertion. In fetal human brain extracts treated with alkaline phosphatase one of the two major tau bands aligned with the three-repeat containing isoform with no insertions, whereas the molecular nature of the second major tau band remains to be established. The recombinant tau isoforms were biologically active at micromolar concentrations, as assessed by their ability to promote microtubule assembly. The rates of assembly were 2.5-3.0 times faster for isoforms containing four repeats when compared with three-repeat containing isoforms, with no significant contribution by the amino-terminal insertions.
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PMID:Expression of separate isoforms of human tau protein: correlation with the tau pattern in brain and effects on tubulin polymerization. 212 67

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