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)

From bovine brain microtubules we purified tau protein kinase I (TPKI, Mr 45,000 on sodium dodecyl sulfate-polyacrylamide gel electrophoresis (SDS-PAGE) and tau protein kinase II (TPKII) whose activity was attributed to a 30-kDa protein on SDS-PAGE by affinity-labeling using an ATP analog. Both kinases were activated by tubulin. TPKII, but not TPKI, phosphorylated tau fragment peptides previously used for detection of a Ser/ThrPro kinase activity. Therefore, TPKII was considered to be the Ser/ThrPro kinase. TPKI was more effective than TPKII for producing the decrease of tau-1 immunoreactivity and mobility shift of tau on SDS-PAGE. Moreover, TPKI, but not TPKII nor other well-known protein kinases, generated an epitope present on paired helical filaments. These findings suggested that tau phosphorylated by TPKI resembled A-68, a component of paired helical filaments.
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PMID:Tau protein kinase I converts normal tau protein into A68-like component of paired helical filaments. 158 65

In aged human brain and particularly in Alzheimer's disease brain, paired helical filaments (PHFs) accumulate in the neuronal cell. Recently, it has been found that the highly phosphorylated tau protein, one of the microtubule-associated proteins (MAPs), is a component of PHF. The authors attempted to clarify the mechanism underlying the accumulation of PHF from the following two aspects; 1) What is the mechanism of phosphorylation of tau protein? 2) Is the highly phosphorylated tau protein capable of forming PHFs? From rat or bovine microtubule proteins we partially purified and characterized a novel protein kinase that specifically phosphorylated tau and MAP2 among many proteins in the brain extract, and which formed a PHF epitope on the phosphorylated human tau. This enzyme was one of the protein serine/threonine kinases and was independent of known second messengers. The phosphorylation of tau by this enzyme was stimulated by tubulin under the condition of microtubule formation, suggesting that the phosphorylation of tau could occur concomitantly with microtubule formation in the brain. Since this kinase was usually bound to tau but not directly to tubulin, the enzyme was associated with microtubules through tau. From these properties related to tau, this kinase is designated as tau protein kinase. The tau that been phosphorylated with this kinase using [gamma-32P]ATP as a phosphate donor, was digested by endoprotinase Lys-C to produce three labeled fragments, K1, K2 and K3. These three fragments were sequenced and the phosphorylation sites on tau by this kinase were identified. The K2 fragment overlapped with the tau-1 site known to be one of the phosphorylation site in PHF. This result strengthens the possibility that tau protein phosphorylated by tau protein kinase is incorporated into PHF. Tubulin binding sites on tau were located between K1 and K3 fragments, while K2 fragment was located in the neighboring to N-terminus of K1. No phosphorylated sites were found on the tubulin-binding domain of tau, leading us to the idea that the interaction of tau with tubulin could induce conformational changes on tau making it accessible to effects of the kinase. We detected -SP- as a sequence common to three major phosphorylation sites on K1, K2 and K3 fragments. Neurofilament-specific kinase and growth-associated histone H1 kinase are known to recognize the consensus sequence including -SP-. These enzymes exhibit certain properties similar to tau protein kinase and seem to play a crucial role in the regulation of neurite outgrowth or cell growth, through the phosphorylation of a specific substrate, neurofilaments or histone H1, respectively.(ABSTRACT TRUNCATED AT 400 WORDS)
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PMID:[Phosphorylation of tau protein]. 212 Apr 90

The localization and phosphorylation state of tau in LA-N-5 neuroblastoma cells was examined. Our results demonstrate that there are two populations of tau in LA-N-5 cells: cytosolic tau and nuclear tau. Indirect immunofluorescent microscopy revealed that nuclear tau is specifically localized to the nucleolus while cytosolic tau is diffusely distributed. To localize and quantitate tau in LA-N-5 cells by subcellular fractionation, a method was developed to extract tau from the nucleus while preserving the endogenous state of the protein. These studies revealed that 16% of the total tau protein in LA-N-5 cells is located in the nucleus and more specifically was found predominantly in the chromatin fraction containing DNA, chromatin, and associated proteins. The phosphorylation state of nuclear and cytosolic tau was examined by labeling LA-N-5 cells with 32Pi and immunoprecipitating tau from the different fractions. These data demonstrated that nuclear tau and cytosolic tau are phosphorylated approximately to the same extent. To determine if the phosphorylation of nuclear tau occurs in the nucleus, LA-N-5 nuclei were isolated, incubated with [gamma-32P]ATP, extracted, and tau was immunoprecipitated. Although numerous nuclear proteins were 32P-labeled, tau was not phosphorylated. These results suggest that nuclear tau is not phosphorylated in the nucleus but rather in the cytosol prior to transport into the nucleus. The specific localization of nuclear tau strongly suggests that it has a functional role in the nucleus. However, further studies are necessary to determine the function of nuclear tau and how it may be regulated by phosphorylation.
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PMID:Localization and in situ phosphorylation state of nuclear tau. 755 41

A cDNA for a bovine brain-specific protein p25 which had been originally found as a major protein in a partially purified fraction of tau protein kinases was cloned. The deduced amino-acid sequence consists of 218 amino acids (M(r) 23,472) and has no significant homology with previously reported proteins. p25 is a basic protein and has a consensus sequence for ATP-binding in the C-terminal region.
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PMID:cDNA cloning of a novel brain-specific protein p25. 764 94

Phosphorylation of tau protein has been suggested as a major mechanism regulating its functions. In assembled brain microtubules, tau is phosphorylated, but additional phosphorylation can be induced in vitro. Supply of excess ATP alone was sufficient to reduce migration of tau on SDS gels, diminish Tau-1 immunostaining, and induce the expression of epitopes recognized by the PHF-1 antibody, suggesting that Alzheimer-type phosphorylation may have occurred. Okadaic acid had no further effect. However, treatment with tyrosine kinase inhibitors modifies the phosphorylation profiles of tau proteins. Most evidently, migration of the largest tau isoform was further retarded on SDS gels and PHF-1 immunostaining was enhanced. The profound effect of tyrosine kinase inhibitors on tau phosphorylation was also demonstrated in living cells following microinjection of cultured hippocampal neurons. Identification of proline-directed protein kinases and their regulatory factors associated with assembled microtubules indicated the presence of multiple phosphorylation pathways in microtubules. Our results are consistent with the hypothesis that sequential phosphorylation of tau proteins is at least partially mediated through tyrosine phosphorylation/dephosphorylation mechanisms.
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PMID:Abnormal phosphorylation of tau proteins associated with bovine brain microtubules: activation by excess ATP and tyrosine dephosphorylation. 804 76

We previously reported that tau protein kinase II (TPKII) from bovine brain was composed of 30 kDa and 23 kDa subunits. The 30 kDa subunit of TPKII can be regarded as a catalytic subunit because of its ATP-binding activity. Antibodies directed against TPKII-phosphorylated tau also reacted with tau phosphorylated by cdc2 kinase obtained from starfish oocytes, indicating that TPKII and cdc2 kinase phosphorylate the same sites. We determined the amino acid sequence of the 30 kDa subunit and found it to be homologous with a cdc2-related kinase, PSSALRE/cdk5. Moreover, an antibody against PSSALRE/cdk5 reacted with the 30 kDa subunit. These results indicate that the 30 kDa subunit of TPKII is bovine homologue of PSSALRE/cdk5. Expression of the 30 kDa subunit mRNA was enhanced in juvenile rat brain. This result supports our previous hypothesis that the kinase works actively in juvenile brain.
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PMID:A cdc2-related kinase PSSALRE/cdk5 is homologous with the 30 kDa subunit of tau protein kinase II, a proline-directed protein kinase associated with microtubule. 825 90

Phosphorylation is an indispensable process for energy and signal transduction in biological systems. AlCl3 at 10 nM to 10 microM range activated in-vitro [gamma-32P]ATP phosphorylation of the brain (tau) tau protein in both normal human or E. coli expressed tau forms; in the presence of the kinases P34, PKP, and PKC. However, higher concentrations of ALCl3 inhibited the tau phosphorylation with P34, PKP, and PKC to a maximum at 1 mM level. AlCl3 at 100 microM to 500 microM range induced non-enzymatic phosphorylation of tau with gamma-ATP, gamma-GTP, and alpha-GTP. AlCl3 activated histone phosphorylation by P34 in a similar pattern. The hyperphosphorylation of tau by Al3+ was accompanied by molecular shift and mobility retardation in SDS-PAGE. This may demonstrate the mechanism of the longterm neurological effect of Al3+ in human brain leading to the formation of the neurofibrillary tangles related to Alzheimer's disease.
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PMID:Aluminum interaction with human brain tau protein phosphorylation by various kinases. 827 Jul 65

The ATP.Mg-dependent protein phosphatase activating factor (FA) has been identified as a microtubule protein kinase and as a microtubule protein phosphatase activator. FA could phosphorylate microtubule-associated tau protein up to 4 moles of phosphates per mole of protein. However, more than 80% of the phosphates in 32P-tau phosphorylated by FA could be removed by ATP.Mg-dependent protein phosphatase and the tau phosphatase activity was FA-dependent. Functional study further revealed that as a tau kinase, FA could phosphorylate tau and thereby inhibits cross-linking copolymerization of tau with tubulin and actin filaments whereas as a tau phosphatase activating factor, FA could promote copolymerization of tau with tubulin and actin filaments. Taken together, the results provide evidence that a cyclic modulation of cytoskeleton assembly-disassembly can be controlled by FA, representing an efficient cyclic cascade mechanism for rapid structural and functional regulation of cytoskeletal system in the central nervous system.
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PMID:Cyclic modulation of cytoskeleton assembly-disassembly by the ATP.Mg-dependent protein phosphatase activator (kinase FA). 839 3

Incubation of purified recombinant human tau protein with aluminum salts at concentrations > or = 100 microM induces aggregation of tau that prevents its entry into SDS-polyacrylamide gels and filtration through nylon membranes. This effect is noncovalent and can be reversed by addition of EDTA. However, when incubated along with ATP, GTP, or CTP, aluminum catalyzes a covalent linkage that results in incorporation of the alpha- and gamma-phosphates into the tau protein (phospho-incorporation). The sensitivity to phosphatases and partial hydrolysis and the labeling observed with ATP containing radioisotopes at different positions suggest a novel reaction in which the entire triphosphate moiety is transferred from ATP and linked to tau via an O-linkage to the alpha-phosphate. The aggregation and triphosphorylation phenomena were not catalyzed by divalent or quadrivalent cations, but similar effects were observed with some other trivalent cations. They occurred at aluminum concentrations similar to those found in human brains with Alzheimer's disease, suggesting the possibility that related reactions may have physiological significance in vivo.
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PMID:Aluminum-induced nonenzymatic phospho-incorporation into human tau and other proteins. 850 22

This paper presents a comprehensive survey of the pathogenesis and pathophysiology of Alzheimer's disease (AD). Two mechanisms are of etiological importance in the development of a degenerative dementing brain disease: 1. Lesions in the mitochondrial genome that are caused by free radicals. Primary degenerative AD is characterized by a tendency to acquire random lesions within mitochondrial DNA that are produced by free radicals. The consequence of these lesions is a decrease in glucose turnover and a decline in oxidative phosphorylation. Point mutations on chromosome 21 are hypothesized to increase the susceptibility of mitochondrial DNA to lesions created by free radicals. 2. Ischemic brain lesions as well as traumatic brain damage cause an increase in the release of excitotoxic amino acids (glutamate, aspartate, etc.). These neurotransmitters increase CA(+2) influx into the nerve cell and significantly lower energy production. From a pathogenetic point of view, AD is characterized by a decrease in glucose turnover in the brain. The progression of AD can be monitored by F18- deoxyglucose PET studies. This technique also allows the recognition of patients who are prone to develop AD. The actual development of a cognitive deficit is a threshold phenomenon that occurs if glucose turnover in the hippocampus or temporoparietal cortex drops below a critical level of about 40% of the level of age-matched controls. The low glucose turnover in AD causes a cholinergic deficit by decreasing the synthesis of AcCoA, which is used by choline acetyltransferase in the acetylation of choline to acetylcholine. The decrease in glucose turnover also reduces oxidative phosphorylation. The resulting decrease in ATP triggers the hyperphosphorylation of tau protein by activating protein kinase 40erk. The hyperphosphorylation leads to the development of paired helical filaments. The generation of beta amyloid and the loss of neuronal synapses are also caused by a decrease in oxidative phosphorylation, since beta amyloid precursor proteins are not inserted into the membranes of nerve cells in the absence of a sufficient amount of ATP. This results in the generation of intact beta amyloid molecules and leads to amyloidosis in the brains of patients with Alzheimer's disease.
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PMID:The significance of glucose turnover in the brain in the pathogenetic mechanisms of Alzheimer's disease. 873 75

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