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)

Two different tubulin-assembly-promoting proteins were isolated from porcine brain microtubule protein. Following a heat step performed on microtubule protein, the thermal-stable proteins were fractionated by chromatography on phosphocellulose and Sepharose 4B. Two highly purified associated proteins were obtained. One resembles the previously described MAP2 protein (polypeptide molecular weight approximately 300,000), the other a mixture of four or five polypeptides previously described as tau protein (molecular weights between 55,000 and 70,000). Both proteins stimulate the polymerization of pure brain tubulin into microtubules with comparable activity. The resulting microtubules were characterized by electron microscopical analysis. Microtubules polymerized in the presence of MAP2 protein show typical side projections, which are conspicuously absent in microtubules assembled in the presence of tau protein. The latter microtubules show smooth surfaces. Some biochemical similarities and differences between the two different microtubule-associated proteins are discussed.
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PMID:Fractionation of brain microtubule-associated proteins. Isolation of two different proteins which stimulate tubulin polymerization in vitro. 72 84

Insect ovarian Sf9 cells extend processes with complex morphologies when infected with a recombinant baculovirus encoding the catalytic subunit of protein kinase A. Within the shafts of the processes are abundant microtubules, which, in contrast to those in Sf9 cells expressing the microtubule-associated protein tau, are generally not organized into parallel bundles. During infection the late viral polypeptide p10 becomes phosphorylated by the protein kinase A catalytic subunit at its penultimate residue, Ser92. The expression or phosphorylation of other major host cell or viral polypeptides does not change, compared with polypeptides from a wild-type viral infection. Once phosphorylated, p10 associates with microtubules in the infected cells and may thereby play a role in process formation.
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PMID:Phosphorylated baculovirus p10 is a heat-stable microtubule-associated protein associated with process formation in Sf9 cells. 133 Nov 30

Neurofibrillary tangles and senile plaques are the characteristic neuropathological lesions of Alzheimer's disease. Neurofibrillary tangles are composed of a microtubule-associated protein, the tau protein. This protein plays a role in the development of neuronal polarity and the stabilisation of microtubules. In Alzheimer's disease, tau proteins are abnormally phosphorylated on several sites. This abnormal phosphorylation might induce the modifications of the microtubule network observed in affected neurones. The main component of the senile plaque is an amyloid deposit made of a polypeptide (beta/A4 amyloid) which derives from a larger precursor. The overexpression of this precursor in experimental models or mutations of its gene leads to the development of neuropathological lesions. The relationships between cytoskeletal abnormalities and beta/A4 amyloid are further discussed.
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PMID:[Cellular lesions in Alzheimer's disease: structural and molecular analysis]. 134 72

Lewy bodies are cytoskeletal inclusions associated with neuronal injury and death in idiopathic Parkinson's disease and other neurodegenerative disorders. The chemical composition of the 8-10-nm fibrils of the Lewy body is unknown, although they are related to both normal cytoskeletal elements and paired helical filaments of Alzheimer neurofibrillary tangles. From the Lewy body-rich cerebral cortex of patients with diffuse Lewy body disease we have isolated intact Lewy bodies using a high salt buffer/nonionic detergent gradient centrifugation procedure and extracted the constitutive fibrils with urea and sodium dodecyl sulfate. Urea/detergent-resistant Lewy body fibrils were solubilized with formic acid and found to contain a single protein band of 68 kDa, which was not found in identically prepared normal brain homogenates. The Lewy body derived-polypeptide was recognized on immunoblots by a polyclonal antibody that reacted with both the 68-kDa neurofilament subunit and the microtubule-associated protein tau. The 68-kDa Lewy body protein was not labeled by the monoclonal antibody tau-1 despite prior in vitro enzymatic dephosphorylation. We conclude that the detergent-insoluble component of the cortical Lewy body fibril shares epitopes with neurofilament and tau and may be a posttranslationally modified derivative of either neurofilament or tau with substantially altered biochemical and immunologic properties.
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PMID:Detergent-insoluble cortical Lewy body fibrils share epitopes with neurofilament and tau. 137 81

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

The microtubule-associated protein MAP2 is a prominent large-sized component of purified brain microtubules that, like the 36- to 38-kilodalton tau proteins, bears antigenic determinants found in association with the neurofibrillary tangles of Alzheimer's disease. The complete sequence of mouse brain MAP2 was determined from a series of overlapping cloned complementary DNAs. The sequence of the carboxyl-terminal 185 amino acids is very similar (67 percent) to a corresponding region of tau protein, and includes a series of three imperfect repeats, each 18 amino acids long and separated by 13 or 14 amino acids. A subcloned fragment spanning the first two of the 18-amino acid repeats was expressed as a polypeptide by translation in vitro. This polypeptide copurified with microtubules through two successive cycles of polymerization and depolymerization, whereas a control polypeptide derived from the amino-terminal region of MAP2 completely failed to copurify. These data imply that the carboxyl-terminal domain containing the 18-amino acid repeats constitutes the microtubule binding site in MAP2. The occurrence of these repeats in tau protein suggests that these may be a general feature of microtubule binding proteins.
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PMID:Microtubule-associated protein MAP2 shares a microtubule binding motif with tau protein. 314 41

The major components of neurofibrillary tangles (NFT) in Alzheimer's disease are bundles of paired helical filaments (PHF) which are primarily composed of highly phosphorylated tau proteins (PHF-tau). To further understand the mechanism of PHF accumulation in NFT, we examined the calpain-induced proteolysis of highly purified and primarily non-aggregated PHF and normal tau proteins with various contents of phosphate isolated from either fetal (F-tau) or adult human brain (N-tau). The extent of proteolysis was determined by decreases in tau immunoreactivity using Western-blot analysis and a panel of site-specific tau antibodies (Alz 50, Tau-2, Tau 14, Tau-1, AT8, E-11, AH-1 and PHF-1). We found that full-size polypeptides of N-tau and F-tau were similarly and rapidly proteolyzed in vitro by calpain (calpain II, 3.3 units/mg protein) during a 10-min incubation at 30 degrees C, and that their half lives (t1/2) were 1.5 min and 1.8 min, respectively. Analysis of immunoblots suggests that full-length polypeptides of tau are first degraded into large fragments similar in size to that generated endogenously, then into smaller fragments. Since both endogenous and in-vitro-generated tau fragments retained N-terminal epitopes, the results suggest that most of the calpain-sensitive sites may be located in the C-terminal half of the tau molecule. In contrast, PHF were extremely resistant to degradation and only a fivefold higher concentration of calpain (16.7 units/mg protein) induced partial proteolysis of PHF. A major calpain-generated fragment was a 45-kDa polypeptide derived from the C-terminal region of PHF-tau, which forms a core of filaments. The results suggest that the inaccessibility of potential calpain-digestion sites in the filament core could contribute to the resistance of PHF to calpain and subsequently lead to the accumulation of PHF in Alzheimer's disease. The results also suggest that hyperphosphorylation of tau may be marginally involved in the resistance of PHF to degradation by calpain. Ultrastructural examination revealed that, in contrast to previous studies with trypsin, calpain did not alter the morphologic appearance of filaments; after incubation with calpain, the majority of PHF remained short and disperse and the number of PHF aggregated into NFT-like clusters was not significantly increased. The results suggest that the role of calpain in promoting the aggregation and clustering of filaments is limited.
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PMID:Calpain-induced proteolysis of normal human tau and tau associated with paired helical filaments. 758 78

We have studied the conformation of tau protein and Alzheimer paired helical filaments (PHF) by several spectroscopic, scattering, and imaging methods revealing the overall shape and the conformation of the polypeptide backbone. Tau protein behaves in solution as if it were denatured; no evidence for compact folding was detected. The protein is highly extended, there is no defined radius of gyration, and the scattering is best described by that of a random ("Gaussian") polymer. CD and Fourier transform infrared spectroscopy show only a minimal content of ordered secondary structure (alpha-helix or beta-sheet). Similarly, PHFs from Alzheimer brain tissue show no detectable secondary structure by x-ray diffraction or spectroscopy. It is thus unlikely that the aggregation of tau into Alzheimer PHFs is based on interactions between strands of beta-sheets (a model currently favored for other disease-related polymers such as beta-amyloid fibers of Alzheimer's disease).
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PMID:Structural studies of tau protein and Alzheimer paired helical filaments show no evidence for beta-structure. 792 85

Alzheimer's disease is a degenerative disorder of the human central nervous system that results in a progressive loss of memory and intellectual abilities. It is strongly related to aging and it is thus assumed that 0.5% of the total population, and up to 30% of eighty-year-olds suffer from the disease. Many require expensive institutional care, often over long periods, as there is no effective treatment at present. Abundant amyloid plaques and neurofibrillary tangles constitute the two major neuropathological lesions that characterize the brains of patients with Alzheimer's disease. The amyloid plaque consists mainly of a soluble polypeptide of 42-43 amino acids called beta-amyloid. beta-Amyloids is derived by an alternative cleavage of the much larger amyloid precursor protein (APP), but it is not known which proteolytic enzyme is responsible for this alternative cleavage. In contrast to plaques, the neurofibrillary tangles are formed intracellularly and the number of them seems to correlate with the progression of the disease. Their main components are paired helical filaments (PHF) which seem to consist almost entirely of the protein tau. The normal function of tau is to bind to microtubules and thereby stabilize the nerve cell's structure and integrity. In contrast to normal tau, PHF-tau is heavily phosphorylated, and it is assumed that this phosphorylation is the underlying cause of the formation of PHF and the neurofibrillary tangles. Despite extensive research it is still not known which enzymes are responsible for the over phosphorylation of tau that occurs in Alzheimer's disease. If they could be identified and controlled pharmacologically, an effective treatment of the disease might be possible.
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PMID:[Tau, amyloid and Alzheimer's disease]. 811 89

A68, the primary protein constituent of Alzheimer's disease-associated neurofibrillary tangles, is an abnormally phosphorylated form of the microtubule-associated protein tau. We find that A68 is formed in neuronal PC12 cells when the cells are subjected to a heat shock (45 degrees C for 30 min). A68 was identified by immunoprecipitation with two different anti-tau antibodies (tau-2 and Alz50). Upon separation by SDS-polyacrylamide gel electrophoresis, the tau immunoprecipitates from heat-shocked cells exhibited an additional polypeptide of reduced electrophoretic mobility (approximately 68 kDa) when compared to control cells. A68 was formed with heat shock in the presence of cycloheximide, suggesting that its production occurred by post-translational modification of existing polypeptides. The tau/A68 polypeptides were identified as phosphoproteins by incorporation of 32P into the immunoprecipitates. The phosphorylation of tau to form A68 was reversed with recovery of the intact cells from the heat shock. Finally, immunoprecipitation of lysates from heat-shocked cells with antibodies to heat shock protein (hsp) 72/73 resulted in co-precipitation of tau with hsp 72, which indicates a stable complex formation between these two proteins. On the other hand, A68 remained unassociated with hsp during the heat shock. These results suggest that tau is reversibly phosphorylated to form A68 in neuronal PC12 cells under conditions of stress.
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PMID:Reversible phosphorylation of tau to form A68 in heat-shocked neuronal PC12 cells. 836 38

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