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)

We have analyzed the in vitro phosphorylation of tau protein by Ca2+/calmodulin-dependent protein kinase, casein kinase II, and proline-directed serine/threonine protein kinase. These kinases phosphorylate tau protein in sites localized in different regions of the molecule, as determined by peptide mapping analyses. Focusing on the phosphorylation of tau by protein kinase C, it was calculated as an incorporation of 4 mol of phosphate/mol of tau. Limited proteolysis assays suggest that the phosphorylation sites could be located within the tubulin-binding domain. Direct phosphorylation of synthetic peptides corresponding to the cysteine-containing tubulin-binding region present in both fetal and adult tau isoforms demonstrates that serine 313 is modified by protein kinase C. Phosphorylation of the synthetic peptide by protein kinase C diminishes its binding to tubulin, as compared with the unphosphorylated peptide.
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PMID:Microtubule-associated protein tau is phosphorylated by protein kinase C on its tubulin binding domain. 163 8

We have isolated, after exhaustive detergent treatments, a 33 kDa tau-related protein isolated from paired helical filaments from Alzheimer's disease patient brains. The N-terminal sequence of the 33 kDa protein begins at residue 71 of the sequence described for human fetal tau protein. This truncated form of tau is not the consequence of the translation of a tau RNA lacking a region at its 5' end, as measured by primer extension analyses, suggesting that the 33 kDa protein must be generated by proteolysis of previously synthesized tau. This tau-related protein has only one blocked cysteine residue and also has a decreased tubulin binding capacity as compared with that of tau protein.
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PMID:Tau-related protein present in paired helical filaments has a decreased tubulin binding capacity as compared with microtubule-associated protein tau. 201 92

Bovine brain tau protein (tau) consists of four closely related phosphoproteins named tau 1, tau 2, tau 3 and tau 4, that range in size from 55 to 68 kDa (as determined by gel electrophoresis). Here we report an improved large-scale purification method for tau protein and the separation of the four individual tau protein species. The separation of the individual tau protein was accomplished by two chromatographic techniques: hydroxyapatite chromatography allowed the separation of two pairs of tau protein (tau 1 and tau 3) and (tau 2 and tau 4); fast protein liquid chromatography on a Mono Q column at basic pH achieved the resolution of the individual tau protein species in each pair derived from hydroxyapatite columns. Chromatography on the Mono Q column revealed that tau protein possesses previously unrecognized, highly reactive sulfhydryl groups that may oxidize to form intermolecular disulfide bridges. The isolation of individual species of tau in substantial quantities permitted an improved amino acid analysis that demonstrated the occurrence of cysteine and tryptophan in the protein. The availability of individual tau protein species greatly simplified the analysis for mode II phosphorylation of tau, which was found to be catalyzed by the calcium/phospholipid-dependent protein kinase C. The mode II phosphorylation of tau by protein kinase C was not associated with a mobility shift for tau protein in SDS-polyacrylamide gel electrophoresis, in contrast to mode I phosphorylation of tau by the Ca2+/calmodulin-dependent kinase, which produces a substantial shift in mobility.
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PMID:Separation of the different microtubule-associated tau protein species from bovine brain and their mode II phosphorylation by Ca2+/phospholipid-dependent protein kinase C. 312 2

We have fractionated tau isoforms by elution at increasing pH values using iron-chelated affinity chromatography, which discriminates between isoforms phosphorylated to different extents. Microtubule-associated tau elutes from the column at a pH gradient narrower than that of total brain tau. Neither under-phosphorylated nor highly phosphorylated isoforms are found in the microtubule-associated tau protein preparation. This indicates that phosphorylation at certain sites is needed for tau binding to microtubules, whereas phosphorylation at some other sites may prevent the association. The self-association ability of the different tau isoforms has also been analyzed. Tau isoforms containing three tubulin binding motifs form covalently bound dimers more efficiently than tau isoforms containing four motifs. This dimer-forming ability is notably diminished in the presence of a reducing agent, as determined by SDS-polyacrylamide gel electrophoresis, thus suggesting the involvement of cysteine residues. Additionally, tau forms larger aggregates, as detected by gel permeation chromatography, which are solubilized by SDS and cannot, therefore, be observed by SDS-polyacrylamide gel electrophoresis. These tau aggregates are observed even in the presence of reducing agents. These results support the idea that other regions in the tau molecule, besides the Cys-containing tubulin binding region, also contribute to tau self-association. Tau dimerization and aggregation may be prior steps to the formation of paired helical filaments.
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PMID:Differences in microtubule binding and self-association abilities of bovine brain tau isoforms. 846 18

Phosphorylation of tau protein at Ser-262 has been shown to diminish its ability to bind to taxol-stabilized microtubules. The paired helical filaments (PHFs) found in Alzheimer's disease brain are composed of PHF-tau, which is hyperphosphorylated at multiple sites including Ser-262. However, protein kinase(s) able to phosphorylate this site are still under investigation. In this study, the ability of cyclic AMP-dependent protein kinase (cAMP-PK) and calcium/calmodulin-dependent protein kinase II (CaMKII) to phosphorylate tau at Ser-262, as well as Ser-356, is demonstrated by use of a monoclonal antibody (12E8) which has been shown to recognize tau when these sites are phosphorylated. Cleavage of cAMP-PK-phosphorylated tau at cysteine residues by 2-nitro-5-thiocyanobenzoic acid, which cuts the protein into essentially two fragments and separates Ser-262 from Ser-356, revealed that cAMP-PK phosphorylates both Ser-262 and Ser-356. In addition, phosphorylation with cAMP-PK or CaMKII of recombinant tau in which Ser-262, Ser-356 or both had been mutated to alanines, clearly demonstrated that cAMP-PK and CaMKII were able to phosphorylate both sites. Mitogen-activated protein kinase or protein kinase C did not phosphorylate tau at Ser-262 and/or Ser-356. Finally, evidence is presented that phosphorylation of both these sites occurs in cultured nerve cells under certain conditions, indicating their potential physiological relevance.
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PMID:Tau protein is phosphorylated by cyclic AMP-dependent protein kinase and calcium/calmodulin-dependent protein kinase II within its microtubule-binding domains at Ser-262 and Ser-356. 868 13

The microtubule-associated protein tau of normal brains is attached to tubulin through its 18-amino-acid repeat units. In the paired helical filaments (PHF) of Alzheimer's disease, however, tau is oligomerized in an abnormally hyperphosphorylated from (PHF-tau). tau contains two cysteine residues in repeat units 2 and 3, but only the R3-R3 homodimer is present in PHF-tau. A serine residue two amino acids downstream of the R3 cysteine is a major phosphate acceptor site for protein kinase C. In the work repeated here, we used synthetic peptides corresponding to R2, R3 and phosphorylated R3 to determine the binding of the tau repeat peptides to a peptide fragment corresponding to the C-terminal domain of beta-tubulin and to study the kinetics of homo- and heterodimer formation. Additionally, we studied two major biochemical properties of the peptides that distinguish between normal tau and PHF-tau: conformation and metabolic stability. All R2 and R3 peptides bound specifically to the tubulin peptide regardless of the state of phosphorylation or dimerization. The reverse-turn conformation of the tau repeat peptides in the presence of the tubulin peptide remained unaffected. Phosphorylation slightly loosened the turn structure of the monomeric and dimeric peptides, and did not univocally affect the serum stability of the peptides or the ability of the peptides to form dimers. The isolated R2 and R3 units formed homodimers approximately in the same rate. When the two peptides were mixed, however, the R2-R3 heterodimer was formed preferentially over the homodimers. The dimers were generally more stable in human serum than the monomers. Our results with the synthetic peptide fragments of tau indicate that neither oxidation nor phosphorylation of the repeat units is able to generate extended structure such as that found in PHF-tau. Additionally, phosphorylation of Ser324 does not appear to modulate the kinetics of oligomerization of tau, and in general biochemistry terms, does not affect disulfide bridge formation nearby. In agreement with studies at the full-protein level, the formation of homodimers of the peptides, a model of the self-association of tau, is not preferred. If the dimers are formed, however, their clearance is considerably slower than that of the monomers, explaining the remarkable protease resistance of PHF-tau in the affected brains.
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PMID:Oxidized and phosphorylated synthetic peptides corresponding to the second and third tubulin-binding repeats of the tau protein reveal structural features of paired helical filament assembly. 927 97

Previous studies have demonstrated that the two cysteine residues in the calcium-binding protein S100B are required for its extracellular functions. In the present study, a recombinant S100B protein and mutant S100Bs containing one or no cysteine residue(s) have been used to determine the contribution of cysteine residues to S100B dimerization and interaction with the intracellular target proteins aldolase, phosphoglucomutase, and the microtubule associated tau protein. Mutation of C68 to a valine or C84 to a serine, C68 to valine and C84 to serine, or C68 to valine and C84 to alanine did not significantly alter S100B activation of aldolase. However, mutation of C84 to serine resulted in calcium-independent S100B activation of phosphoglucomutase and a loss of S100B inhibition of tau phosphorylation by Ca2+/calmodulin-dependent protein kinase II. The altered functionality of the C84S mutant with phosphoglucomutase and tau was not due to altered physical properties or dimerization state. All of the mutants exhibited heat stability and calcium dependent conformational changes which were identical to recombinant S100B. In addition, S100B proteins containing two, one or no cysteine residues behaved as dimers in size exclusion chromatography experiments in the presence or absence of calcium as well as in the presence or absence of reducing agent. Dynamic light scattering and analytical ultracentrifugation experiments confirmed that dimerization was not affected by calcium or reducing agent. Altogether these results demonstrate that S100B dimerization is not calcium- or sulfhydryl-dependent. In summary, cysteine residues are not necessary for the noncovalent dimerization of S100B, but are important in certain S100B target protein-interactions.
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PMID:The role of cysteine residues in S100B dimerization and regulation of target protein activity. 942 66

Redox changes within neurones are increasingly being implicated as an important causative agent in brain ageing and neurodegenerative diseases such as amyotrophic lateral sclerosis (ALS), Parkinson's disease (PD) and Alzheimer's disease (AD). Cells have developed a number of defensive mechanisms to maintain intracellular redox homeostasis, including the glutathione (GSH) system and antioxidant enzymes. Here we examine the effects of N-acetyl-L-cysteine (NAC) on beta-amyloid (A beta) secretion and tau phosphorylation in SHSY5Y neuroblastoma cells after exposure to oxidative stress inducing/cytotoxic compounds (H(2)O(2), UV light and toxic A beta peptides). A beta and tau protein are hallmark molecules in the pathology of AD while the stress factors are implicated in the aetiology of AD. The results show that H(2)O(2), UV light, A beta 1-42 and toxic A beta 25-35, but not the inactive A beta 35-25, produce a significant induction of oxidative stress and cell cytotoxicity. The effects are reversed when cells are pre-treated with 30 mM NAC. Cells exposed to H(2)O(2), UV light and A beta 25-35, but not A beta 35-25, secrete significantly higher amounts of A beta 1-40 and A beta 1-42 into the culture medium. NAC pre-treatment increased the release of A beta 1-40 compared with controls and potentiated the release of both A beta 1-40 and A beta 1-42 in A beta 25-35-treated cells. Tau phosphorylation was markedly reduced by H(2)O(2) and UV light but increased by A beta 25-35. NAC strongly lowered phospho-tau levels in the presence or absence of stress treatment.
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PMID:N-acetyl-L-cysteine protects SHSY5Y neuroblastoma cells from oxidative stress and cell cytotoxicity: effects on beta-amyloid secretion and tau phosphorylation. 1114 96

Oxidative stress has been demonstrated to produce modifications in several intracellular proteins that lead to alterations in their activities. Alzheimer's disease is related to an increase of oxidative stress markers, which may be an early event in the progression of the disease and neurofibrillary tangles formation. Abnormal phosphorylation of tau has been implicated in the etiopathogenesis of Alzheimer's disease. By using phospho-specific antibodies, we analyzed the changes in tau phosphorylation patterns after treatment of rat hippocampal and SHSY5Y human neuroblastoma cells with H2O2. We found that tau isoforms were hypophosphorylated at the Tau1 epitope after 2 h in the presence of H2O2. The decrease in the phosphorylation levels of tau protein were prevented by pretreatment with N-acetyl-L-cysteine. These changes were shown to depend on the activity of the cdk5/p35 complex, since a 3-fold increase in substrate phosphorylation and a 2-fold increase for the complex association were observed. Also, a decrease in the amount of inhibitor-2 bound to phosphatase PP1 was found in SHSY5Y cells under oxidative stress conditions. This decrease of inhibitor-2 bound to PP1 is due to an increased phosphorylation of the inhibitor-2 protein, thus leading to increased PP1 activity. Therefore, we propose that oxidative stress-induced activation of cdk5 leads to inhibitor-2 phosphorylation, relieving its inhibitory effect on PP1.
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PMID:Oxidative stress promotes tau dephosphorylation in neuronal cells: the roles of cdk5 and PP1. 1513 75

Increasing evidence suggests that selective neuronal loss in neurodegenerative diseases involves activation of cysteine aspartyl proteases (caspases), which initiate and execute apoptosis. In Alzheimer disease both extracellular amyloid deposits and intracellular amyloid beta protein may activate caspases, leading to cleavage of nuclear and cytoskeletal proteins, including tau protein. Proteolysis of tau may be critical to neurofibrillary degeneration, which correlates with dementia.
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PMID:Apoptotic mechanisms in Alzheimer neurofibrillary degeneration: cause or effect? 1523 19

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