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)

Incubation of cultured hippocampal slices with an inhibitor [N-CBZ-L-phenylalanyl-L-alanine-diazomethyl ketone (ZPAD)] of cathepsins B and L resulted in the degradation of high molecular weight isoforms of tau protein and the production of a 29-kDa tau fragment (tau 29). A tau antibody that is sensitive to the phosphorylated state of its epitopes did not recognize tau proteins or the tau 29 fragment in slices that had been treated with a protein phosphatase inhibitor. This strongly suggests that the tau fragment was located in an extralysosomal compartment accessible to kinases and phosphatases. tau 29 exhibited a significant capacity for binding to microtubules and thus has the potential for interfering with normal tau-tubulin interactions. Three lines of evidence indicated that ZPAD-induced tau proteolysis was mediated by cathepsin D: (a) slices treated with the inhibitor had markedly elevated levels of cathepsin D in both lysosomal and extralysosomal compartments; (b) co-incubation of cathepsin D and tau at neutral pH resulted in a loss of intact tau proteins and production of a 28-kDa fragment; and (c) the lysosomotropic drug chloroquine blocked ZPAD-induced increases in mature cathepsin D, and this was accompanied by a suppression of ZPAD-induced tau proteolysis. Changes in lysosomal hydrolases and cytoskeletal perturbations occur during brain aging. The present results suggest that the enzymatic and structural effects are related and, more specifically, are linked by alterations in the concentration and localization of cathepsin D. The tau fragments with microtubule binding capacity generated by cathepsin D could also be a source for the small polypeptides found in association with age-related pathological features.
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PMID:Cytosolic proteolysis of tau by cathepsin D in hippocampus following suppression of cathepsins B and L. 886 89

Phosphorylation of the microtubule-associated protein tau regulates its binding to microtubules; highly phosphorylated tau is also a prime component of paired helical filaments (PHFs) of Alzheimer's disease (AD). Tau from freshly biopsied human, monkey, and rat brain share similar electrophoretic mobility patterns and overlapping phosphorylated epitopes when compared to AD tau isolated from AD brain. We compared the microtubule reassembly competence of fresh isolates of phosphorylated tau to that of maximally dephosphorylated tau and tau from AD brain. A rapid procedure was developed which permitted the enrichment of phosphorylated and dephosphorylated tau from human biopsies in the absence of protein kinase and phosphatase activity. Microtubule assembly assays, using a spectrophotometric measure and purified bovine brain tubulin, were used to correlate assembly competence with states of tau electrophoretic mobility. Maximally dephosphorylated human biopsy-derived tau and monkey tau were assembly competent; tau from AD brain was virtually unable to direct microtubule assembly. Unmodified, biopsy-derived tau from non-AD brain was intermediate in assembly competence relative to AD tau and dephosphorylated tau. Several lines of evidence were used to correlate phosphorylation states of tau with microtubule assembly. First, in vitro dephosphorylation of human biopsy-derived tau with either PP2A or PP2B alone or in combination led to increasing assembly competence as the electrophoretic mobility of tau increased. Second, addition of the protein phosphatase inhibitor okadaic acid (10 microM) to brain-slice preparations slowed electrophoretic mobility of tau and decreased binding competence. We suggest that tau derived from freshly-biopsied brain exists in a range of phosphorylated states, and that dephosphorylation by PP2A and/or PP2B increases microtubule assembly competence.
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PMID:Microtubule assembly competence analysis of freshly-biopsied human tau, dephosphorylated tau, and Alzheimer tau. 892 25

There is increasing evidence that apoptosis in postmitotic neurons is associated with a frustrated attempt to reenter the mitotic cycle. Okadaic acid, a specific protein phosphatase inhibitor, is currently used in models of Alzheimer's research to increase the degree of phosphorylation of various proteins, such as the microtubule-associated protein tau. Okadaic acid induces programmed cell death in the human neuroblastoma cell lines TR14 and NT2-N, as evidenced by fragmentation of DNA and attenuation of this process by protein synthesis inhibitors. In differentiated TR14 cells, okadaic acid increases the fraction of cells in the S phase, induces the appearance of cyclin B1 and cyclin D1 markers of the cell cycle, and triggers a time-dependent increase in DNA fragmentation after release of a thymidine block. Fully differentiated NT2-N cells are forced to enter the mitotic cycle as shown by DNA staining. Chromatin condensation and chromosome formation are initiated, but the cells fail to complete their mitotic cycle. These data suggest that okadaic acid forces differentiated neuronal cells into the mitotic cycle. This pattern of cyclin up-regulation and cell cycle shift is compared with apoptosis induced by neurotrophic factor deprivation in differentiated rat pheochromocytoma PC12 cells.
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PMID:Okadaic acid-induced apoptosis in neuronal cells: evidence for an abortive mitotic attempt. 948 33

Microtubule-associated protein tau is abnormally hyperphosphorylated in the brain of patients with Alzheimer's disease (AD). In vitro studies have shown that protein phosphatases PP-2A and PP-2B can convert Alzheimer like tau to its normal state and that the activities of PP-1, PP-2A, and phosphotyrosyl-protein phosphatase (PTP) are reduced in AD brain. However, to have a direct effect on the regulation of phosphorylation on tau, these enzymes have to exist in neurons. Using specific polyclonal antibodies the levels of protein phosphatases PP-1, PP-2A, and PP-2B were determined by indirect ELISA in superior temporal cortical gray matter of AD and control brains. The protein levels of PP-2A and PP-2B were significantly increased in postsynaptosomal supernatant 2 (S2) of the AD group, and this alteration showed a significant linear correlation with levels of hyperphosphorylated tau. PP-1 and PTP-1B levels were not significantly changed in any of the AD fractions. Because of the large variation from case to case, the activity levels of none of the phosphatases investigated were significantly different between the AD and control groups. However, the PP-2B specific activity (activity/protein) showed a significant linear inverse correlation with hyperphosphorylated tau. These studies suggest that any attempt by the AD brain to compensate for the decreased tau phosphatase activity remains unsuccessful and that the decrease in phosphatase activity might contribute to increased levels of abnormally phosphorylated tau.
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PMID:Subcellular distribution of protein phosphatases and abnormally phosphorylated tau in the temporal cortex from Alzheimer's disease and control brains. 958 62

L-Deprenyl, an irreversible MAO-B (monoamine oxidase B, EC 1.4.3.4) inhibitor, is used for the treatment of Parkinson's disease and to delay the progression of Alzheimer's disease. L-Deprenyl also exhibits protective effects against neuronal apoptosis which are independent of its ability to inhibit MAO-B. The purpose of this study was to compare the antiapoptotic efficacy of L-deprenyl against different types of apoptotic inducers in three neuronal cell culture models. The level of apoptosis was quantified by measuring the activation of caspase-3 enzyme, which is the main apoptotic executioner in neuronal cells. MTT [3-(4,5-dimethylthiazol-2-yl)-2, 5-diphenyltetrazolium bromide] and LDH (lactate dehydrogenase, EC 1. 1.1.27) assays were used to demonstrate the cytotoxic response of apoptotic treatments. Our results showed that okadaic acid, an inhibitor of protein phosphatase 1 and 2A, induced a prominent increase in caspase-3 activity both in cultured hippocampal and cerebellar granule neurons as well as in Neuro-2a neuroblastoma cells. Interestingly, L-deprenyl offered a significant protection against the apoptotic response induced by okadaic acid in all three neuronal models. The best protection appeared at the concentration level of 10(-9) M. L-Deprenyl also provided a protection against apoptosis after AraC (cytosine beta-D-arabinoside) treatment in hippocampal neurons and Neuro-2a cells and after etoposide treatment in Neuro-2a cells. However, L-deprenyl did not offer any protection against apoptosis caused by serum withdrawal or potassium deprivation. Okadaic acid treatment in vivo is known to induce an Alzheimer's type of hyperphosphorylation of tau protein, formation of beta-amyloid plaques, and a severe memory impairment. Our results show that the okadaic acid model provides a promising tool to study the molecular basis of Alzheimer's disease and to screen the neuroprotective capacity of L-deprenyl derivatives.
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PMID:Protective effect of L-deprenyl against apoptosis induced by okadaic acid in cultured neuronal cells. 1079 57

In Alzheimer disease brain the activities of protein phosphatase (PP)-2A and PP-1 are decreased and the microtubule-associated protein tau is abnormally hyperphosphorylated at several sites at serine/threonine. Employing rat forebrain slices kept metabolically active in oxygenated artificial CSF as a model system, we investigated the role of PP-2A/PP-1 in the regulation of some of the major abnormally hyperphosphorylated sites of tau and the protein kinases involved. Treatment of the brain slices with 1.0 microM okadaic acid inhibited approximately 65% of PP-2A and produced hyperphosphorylation of tau at Ser 198/199/202, Ser 396/404 and Ser 422. No significant changes in the activities of glycogen synthase kinase-3 (GSK-3) and cyclin dependent protein kinases cdk5 and cdc2 were observed. Calyculin A (0.1 microM) inhibited approximately 50% PP-1, approximately 20% PP-2A, 50% GSK-3 and approximately 30% cdk5 but neither inhibited the activity of cyclin AMP dependent protein kinase A (PKA) nor resulted in the hyperphosphorylation of tau at any of the above sites. Treatment of brain slices with 1 microM okadaic acid plus 0.1 microM calyculin A inhibited approximately 100% of both PP-2A and PP-1, approximately 80% of GSK-3, approximately 50% of cdk5 and approximately 30% of cdc2 but neither inhibited PKA nor resulted in the hyperphosphorylation of tau at any of the above sites. These studies suggest (i) that PP-1 upregulates the phosphorylation of tau at Ser 198/199/202 and Ser 396/404 indirectly by regulating the activities of GSK-3, cdk5 and cdc2 whereas PP-2A regulates the phosphorylation of tau directly by dephosphorylation at the above sites, and (ii) that a decrease in the PP-2A activity leads to abnormal hyperphosphorylation of tau at Ser 198/199/202, Ser 396/404 and Ser 422.
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PMID:Role of protein phosphatase-2A and -1 in the regulation of GSK-3, cdk5 and cdc2 and the phosphorylation of tau in rat forebrain. 1108 71

In Alzheimer disease (AD) brain, activities of protein phosphatase (PP)-2A/PP-1 which are known to be associated with microtubules are compromised and are probably a cause of neurofibrillary degeneration through hyperphosphorylation of microtubule proteins. In the present study, an increase of approximately 11 pmol phosphate/microg protein in 100,000 x g pellet from AD compared with age-matched control brains was found. Tau protein, which is hyperphosphorylated in AD can only account for approximately 4 pmol phosphate/microg protein, suggesting the presence of non-tau hyperphosphorylated proteins in the diseased brain. Western blot analysis with phosphoserine antibodies revealed a approximately 54 kDa non-tau protein to be significantly hyperphosphorylated in AD compared with age-matched control cases in the particulate fraction. The approximately 54 kDa protein was purified by preparative sodium dodecyl sulfate-polyacrylamide gel electrophoresis and identified as beta-tubulin by immunolabeling with specific antibodies, mass spectrometry analysis and by N-terminal amino acid sequencing. The purified protein was hyperphosphorylated at serine residues in AD.
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PMID:A pool of beta-tubulin is hyperphosphorylated at serine residues in Alzheimer disease brain. 1174 59

Glycogen synthase kinase 3 (GSK3) plays important roles in Wnt and insulin signaling, cell fate determination, and Alzheimer-like tau phosphorylation. We discovered an isoform of tau protein kinase I (TPKI)/GSK3beta with a 13 amino acid insert in the catalytic domain owing to alternative splicing. The alternative transcripts were found in the brains of the mouse, rat and human, with highly conserved sequences. The variant protein, named TPKI2/GSK3beta2, was abundant in the brain. Immunohistochemistry indicated differential distribution of the conventional and the new TPKI/GSK3beta isoforms within young neurons. TPKI2/GSK3beta2 showed decreased kinase activities towards two phosphorylation sites on tau compared with the conventional isoform. Immunohistochemistry indicated that TPKI2/GSK3beta2 occurs predominantly in the neuronal soma, while TPKI1/GSK3beta1 is found both in the soma and processes. These results indicate that the new splice isoform has a different function. Because the amino acid insert occurs in the domain implicated in interaction with a protein phosphatase in a homologous kinase cdk-2, the alternative splicing can regulate multiprotein complex formation and function involving TPKI/GSK3beta.
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PMID:Alternative splicing isoform of tau protein kinase I/glycogen synthase kinase 3beta. 1206 20

To study the relationship between tau hyperphosphorylation and the function of glutamate transporter okadaic acid (OA), a protein phosphatase inhibitor, 20 ng in a 0.5 microl volume, was injected into the frontal cortex of rat brain and immunostaining was used to observe the phosphorylation of tau protein and the expression of excitatory amino acid transporter 1 (EAAT1) in the brain following the injection. The results showed that (1) the neurons in the center of the injection region displayed cytoplasmic shrinkage, swelling, nuclear pyknosis, and dislocation at the early stage, and necrosis appeared 3 d after the injection. However, most neurons in the peri-injected areas showed normal morphological characters with immuno positive reaction for AT8, a tau phosphorylated marker; (2) morphological analysis showed that tau hyperphosphorylation caused by OA treatment was mainly observed in the axons and dendrites of neuronal cells at 6 h in the cell body at 1 d, which brought about dystrophic neurites and neurofibrillary tangle (NFT)-like pathological changes; (3) the induction of glutamate transporter EAAT1 was observed in the involved areas corresponding to that with AT8 immunopositive staining, and the number of EAAT1-positive staining cells markedly increased at 12 h (P<0.01), peaked at 1 d (P<0.001), then decreased at 3 d following the injection. Combined with a confocal laser scanning microscopic analysis, double fluorescent immunostaining showed that EAAT1 positive staining appeared in neurons as well as astrocytes in the peri-injected areas of the frontal cortex. These results demonstrate that OA increases glutamate transporter EAAT1 expression in neurons while it induces tau hyperphosphorylation. However, the mechanism and significance of the induction of glutamate transporter EAAT1 expression remain to be further elucidated.
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PMID:[Okadaic acid induces the expression of glutamate transporter EAAT1 in the neurons of rat brain]. 1219 75

In a number of neurodegenerative diseases, tau-positive glial cytoplasmic inclusions (GCIs), immunochemically labeled with antibodies to the small heat shock protein (HSP) alphaB-crystallin, occur in oligodendrocytes. The microtubule-associated protein tau is functionally modulated by phosphorylation. We have shown previously that oxidative stress (OS) and heat shock (HS) induce apoptotic cell death in oligodendrocytes. The present study was undertaken to test whether stress responses in oligodendrocytes cause abnormalities in the expression and posttranslational modification of tau proteins, and whether the dynamic phosphorylation and dephosphorylation of tau are involved in the pathogenesis of glial cells. Cultured rat brain oligodendrocytes were subjected to OS, exerted by hydrogen peroxide, or HS (44 degrees C, 30 min). Immunoblot analysis with a panel of phosphorylation-dependent antibodies shows that OS and HS caused the rapid dephosphorylation of tau proteins at multiple sites, before characteristic features of apoptosis were observed. Concomitantly, ERK1,2 (extracellular signal-regulated kinase) was activated. Tau phosphorylation and rephosphorylation after stress was mediated by glycogen synthase kinase 3beta (GSK-3beta), and not by ERK1,2 and could be suppressed by lithium chloride, a specific inhibitor of GSK-3beta. Stress-induced dephosphorylation could be mimicked by alkaline phosphatase and suppressed by the protein phosphatase inhibitor okadaic acid (OA), indicating that PP2A in oligodendrocytes is activated by stress. OA at low concentrations could prevent stress-induced DNA fragmentation, but eventually exerted cytotoxic effects. Hence, stress-induced activation of PP2A in oligodendrocytes and tau dephosphorylation constitute a major feature of the response to injury in these cells, which eventually undergo apoptotic cell death.
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PMID:Activation of PP2A-like phosphatase and modulation of tau phosphorylation accompany stress-induced apoptosis in cultured oligodendrocytes. 1242 Mar 8

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