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)

This paper summarizes our recent studies on microtubule-associated protein tau and its pathological state resembling that of the paired helical filaments of Alzheimer's disease. The Alzheimer-like state of tau protein can be identified and analyzed in terms of certain phosphorylation sites and phosphorylation-dependent antibody epitopes. It can be induced by protein kinases which tend to phosphorylate serine or threonine residues followed by a proline; this includes mitogen-activated protein kinase (MAPK) and glycogen-synthase kinase 3 (GSK-3). Both of these are tightly associated with microtubules as well as with paired helical filaments. Structurally, tau appears as a rod-like molecule; it tends to self-associate into dimers whose monomers are antiparallel. Constructs of truncated tau made up of antiparallel dimers of the microtubule binding domain can be assembled into paired helical filaments in vitro.
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PMID:Microtubule-associated protein tau, paired helical filaments, and phosphorylation. 769 33

Abundant neurofibrillary tangles, neuropil threads and senile plaque neurites constitute the neurofibrillary pathology of Alzheimer's disease. They form in the nerve cells that undergo degeneration in the disease, in which their regional distribution correlates with the degree of dementia. Each lesion contains the paired helical filament (PHF) as its major fibrous component. Recent work has shown that PHFs are composed of the microtubule-associated protein tau in a hyperphosphorylated state. PHF-tau is hyperphosphorylated on six adult brain tau isoforms. As a consequence, tau is unable to bind to microtubules and is believed to self-assemble into the PHF. Current evidence suggests that protein kinases or protein phosphatases with a specificity for serine/threonine-proline residues are instrumental in the hyperphosphorylation of tau. Candidate protein kinases include mitogen-activated protein kinase, glycogen synthase kinase 3 and cyclin-dependent kinase 5, whereas the trimeric form of protein phosphatase 2A is a candidate phosphatase.
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PMID:Molecular dissection of the neurofibrillary lesions of Alzheimer's disease. 776 34

tau protein kinase I (TPKI) phosphorylates tau and forms paired helical filament epitopes in vitro. We studied temporal expression and histochemical distribution of tau phosphoserine epitopes at sites known to be phosphorylated by TPKI. Antibodies directed against phosphorylated Ser199 (anti-PS 199) or phosphorylated Ser396 (C5 or anti-PS 396) were used. TPKI is abundantly expressed in the young rat brain and the highly phosphorylated juvenile form of tau occurs in the same period. The activity peak of TPKI coincided with the high level of phosphorylation of Ser199 and Ser396 in juvenile tau at around postnatal day 8. By immunohistochemistry on the hippocampus and neocortex of 3-11-day-old rats, phosphorylated Ser396 was found in young axonal tracts and neuropil, where TPKI immunoreactivity was also detected. TPKI and phospho-Ser199 immunoreactivities were also detected in the perikarya of pyramidal neurons. TPKI immunoreactivity had declined to a low level and phosphorylated serine immunoreactivities were undetectable in the sections of adult brain. These findings implicate TPKI in paired helical filament-like phosphorylation of juvenile form of tau in the developing brain.
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PMID:Involvement of tau protein kinase I in paired helical filament-like phosphorylation of the juvenile tau in rat brain. 789 Nov 5

The cAMP-responsive element modulator (CREM) gene encodes a family of transcriptional regulators that bind to promoter sequences activated by increased intracellular cAMP levels. Both activators and repressors are generated by alternative splicing and alternative translational initiation. During the development of male germ cells, there is a switch in the transcripts generated by CREM. Specifically, from the prophase of meiosis, there is an increase in the CREM tau activator transcript. Here we present results showing that expression of the CREM activator protein is restricted to postmeiotic germ cells. We show that CREM tau is efficiently phosphorylated at a serine residue at position 117 by the protein kinase-A endogenous to germ cells, indicating that it constitutes a natural target of the adenylyl cyclase pathway during spermatogenesis. Phosphorylation of serine-117 turns CREM tau into a powerful activator. The rise in CREM tau protein coincides with the transcriptional activation of several genes. We show that CREM tau efficiently binds to CREs present in the promoters of these genes, suggesting that they could constitute down-stream targets of CREM. We have analyzed in more detail the regulation of one of these genes, the male germ cell-specific RT7. The RT7 promoter is cAMP inducible and activated by CREM tau in transfection assays. The RT7 promoter is efficiently transcribed in vitro with nuclear extracts from seminiferous tubules. CREM-specific antibodies block RT7 in vitro transcription, implicating a role for CREM tau in a cascade of transcriptional events during spermatogenesis.
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PMID:Induction of CREM activator proteins in spermatids: down-stream targets and implications for haploid germ cell differentiation. 811 65

MAP kinases (MAPK) are a family of serine/threonine (Ser/Thr) kinases that link cell surface signals to changes in enzyme activity and gene expression. They are the products of the newly described gene family referred to as extracellular signal regulated kinases (ERKs). Moreover, MAPKs phosphorylate tau in vitro at Ser/Thr Proline sites, generating a multiply phosphorylated tau protein that is similar to the hyperphosphorylated tau found in Alzheimer neurofibrillary tangles (NFTs). We studied MAPK immunoreactivity and in situ hybridization patterns of the two major genes that comprise MAPK activity, ERK1 and ERK2, in the human hippocampal formation. Our goal was to determine whether the pattern of ERK expression is consistent with the hypothesis that MAPKs contribute to NFT formation. ERK1 mRNA is present in small amounts and confined primarily to dentate gyrus granule cells. ERK2 mRNA, by contrast, gives a much stronger hybridization signal and is present in dentate gyrus granule cells and pyramidal cells throughout all hippocampal subfields and adjacent temporal neocortex. Quantitative measures of ERK2 mRNA reveal that NFT-bearing neurons contain approximately 15% less ERK2 mRNA than nearest neighbors that do not contain NFT. NFT-bearing neurons contain approximately 25% less polyA mRNA, suggesting a relative preservation of ERK2 mRNA even in metabolically compromised cells. MAPK immunoreactivity (which represents both ERK1 and ERK2) is seen in neuronal soma, dendrites, axons, and in reactive astrocytes. In Alzheimer's disease, neurons that contain NFTs are also MAPK immunoreactive, but neurons that contain the highest amounts of MAPK immunoreactivity are not necessarily vulnerable for NFT. MAPK immunoreactivity is present in the same neurons as NFT and in the same subcellular compartments as tau, supporting a role for MAPKs in tau phosphorylation in Alzheimer's disease. However, the presence of ERK immunoreactivity is not sufficient to predispose neurons to NFT formation.
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PMID:Extracellular signal regulated kinases. Localization of protein and mRNA in the human hippocampal formation in Alzheimer's disease. 812 42

The neuronal microtubule-associated protein tau promotes microtubule assembly and has been implicated in the development of axonal morphology. To study the effect of phosphorylation and substrate modulation on tau's distinct activities to promote growth of existing microtubules and nucleation of new ones, we phosphorylated bacterially expressed human tau by cAMP-dependent protein kinase in the absence or presence of heparin, an acidic substrate modulator. We found that heparin increased phosphorylation of tau by a factor of more than 2 and produced tau bands with decreased electrophoretic mobility. We demonstrate that phosphorylation of tau in the absence or presence of heparin similarly reduced tau's activity to promote microtubule growth, whereas tau's activity to promote microtubules was suppressed much more after phosphorylation in the presence of heparin. Using recombinant tau fragments we showed that heparin-induced phosphorylation caused a specific shift in electrophoretic mobility indicative of a change in tau's conformation. By aminoterminal sequencing of a tau fragment starting at residue 154 we provide evidence that phosphorylation of serine 156 is responsible for this mobility shift and for the effect on tau's nucleation activity. We conclude that tau's activities to promote growth of existing microtubules and nucleation of new ones are differentially affected by the phosphorylation of specific tau residues. Regulation of the phosphorylation state by substrate modulation may play an important role in regulating tau's function.
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PMID:Differential effect of phosphorylation and substrate modulation on tau's ability to promote microtubule growth and nucleation. 816 74

The product of the Saccharomyces cerevisiae MCK1 gene is a protein kinase that phosphorylates poly (Glu,Tyr) in vitro and is itself phosphorylated at both tyrosine and serine in vivo. To characterize the substrate specificity of Mck1, the enzyme was purified to apparent homogeneity from the soluble fraction of yeast cell extracts by ammonium sulfate precipitation, followed by ion exchange chromatography (Q- and S-Sepharose), dye-ligand affinity chromatography (Orange A-agarose), adsorption chromatography (hydroxylapatite), and ion exchange fast protein liquid chromatography (Mono-S). In the absence of an exogenous substrate, purified Mck1 was able to autophosphorylate on tyrosine and serine. A catalytically inactive mutant (K68R in conserved kinase domain II) expressed in an mck1 delta strain did not contain detectable phosphotyrosine, confirming that the tyrosine phosphorylation observed in vivo is due to autophosphorylation, but did contain phosphoserine, suggesting that Mck1 is a target for other cellular protein kinases. Purified Mck1 phosphorylated a variety of proteins in heat-inactivated yeast extracts, primarily on serine (and threonine). The purified enzyme also used a number of mammalian proteins as phosphoacceptors, including myelin basic protein (MBP), microtubule-associated protein 2 (MAP-2), and tau protein. All of these substrates were phosphorylated on either serine or threonine (or both). Mck1 isolated from yeast extracts by immunoprecipitation with an anti-Mck1 antibody directed against its C terminus also phosphorylated MBP at serine. In the same immune complex kinase assay, the K68R mutant did not detectably phosphorylate MBP, indicating that the serine-specific phosphotransferase activity of Mck1 is intrinsic and not due to contamination by an associated kinase. These findings demonstrate that Mck1 is a member of a novel class of protein kinases that displays the ability to phosphorylate all three hydroxyamino acids in proteins.
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PMID:Yeast MCK1 protein kinase autophosphorylates at tyrosine and serine but phosphorylates exogenous substrates at serine and threonine. 840 52

Tau protein is a phosphorylated neuronal microtubule-associated protein. Tau protein is also present in the major pathological lesions of Alzheimer's disease in an insoluble hyperphosphorylated state as paired helical filaments (PHFs). We have investigated the phosphorylation state of control taus and a fragment of PHF-tau. Tau samples were digested with protease, separated by reversed-phase high-performance liquid chromatography, and analyzed by mass spectrometry and Edman microsequencing. The serine homologous with S404 of human tau 441 was phosphorylated on bovine and porcine tau and up to two phosphates were present on a peptide of amino acids 182-240 of bovine tau (193-251 of human tau 441). The serine within the KSPV motif was not phosphorylated on bovine or porcine tau. PHF-tau fragments, isolated from pronase-treated PHFs encompassed a 93-amino acid region within the microtubule binding domain. Enzymatic digestion and mass spectrometric analysis showed no phosphate was present and a second carboxyl terminus was identified at E380. Antibodies T3P and SMI34, which recognize PHF-tau and peptides phosphorylated at the sequence KSPV, both reacted with bovine and porcine tau even though the KSPV sequence was not phosphorylated. These data indicate that the 93-amino acid sequence of F5.5 tau from PHFs is not phosphorylated, and the serine equivalent to S404 of human tau is phosphorylated in bovine and porcine tau. Antibodies T3P and SMI34 react with phosphorylated epitopes that are not unique to PHF-tau and that are not necessarily at the KSPV site.
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PMID:Locations and immunoreactivities of phosphorylation sites on bovine and porcine tau proteins and a PHF-tau fragment. 848 51

Alzheimer's disease is histopathologically characterized by neurofibrillary tangles, formed by the abnormally high phosphorylated tau protein, and senile plaques which largely consist of the beta/A4-amyloid peptide. Metabolism of the amyloid precursor protein and its processing into beta/A4-amyloid is regulated by protein phosphorylation. Thus, an imbalance between protein phosphorylation and dephosphorylation might be crucial for the development of the molecular hallmarks of Alzheimer's disease. We report here that chronic infusion into rat brain ventricles of okadaic acid, a specific inhibitor of the serine/threonine protein phosphatases 1 and 2A, results in a severe memory impairment, accompanied by a paired helical filament-like phosphorylation of tau protein and the formation of beta/A4-amyloid containing plaque-like structures in gray and white matter areas.
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PMID:Paired helical filament-like phosphorylation of tau, deposition of beta/A4-amyloid and memory impairment in rat induced by chronic inhibition of phosphatase 1 and 2A. 859 39

One unique phosphorylation site consistently found in paired helical filament tau, serine 413, is modified by tau protein kinase I/glycogen synthase kinase-3 beta but no other known tau kinase. Here we present immunocytochemistry from Alzheimer's disease brains showing that focal subpopulations of hippocampal CA1 pyramidal neurons and neuritic plaques are strongly reactive for tau protein kinase I/glycogen synthase kinase-3 beta and tau phosphoserine 413 in early stages of pathology. Colocalization of these epitopes suggests that tau protein kinase I/glycogen synthase kinase-3 beta abnormally phosphorylates tau and is in a position to disrupt neuronal metabolism in anatomical areas vulnerable to Alzheimer's disease.
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PMID:Immunocytochemistry of tau phosphoserine 413 and tau protein kinase I in Alzheimer pathology. 893 Mar 58

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