Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound

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Query: UNIPROT:P10636 (tau protein)
5,110 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Phosphorus-31 (31P) NMR is proving to be a powerful analytical method for investigating molecular/metabolic issues in neural tissues. Recent studies have demonstrated high levels of phosphomonoesters and phosphodiesters in mammalian brain, and revealed the influence of brain maturation, development, and aging on these levels. Preliminary studies in Alzheimer's disease have demonstrated elevated levels of phosphomonoesters and phosphodiesters in the areas of Alzheimer's brain which exhibit neuropathological changes. Moreover, phosphomonoester levels were also elevated in areas of Alzheimer's brain that were devoid of neuropathological changes. These findings suggest that the phosphomonoester elevations in Alzheimer's brain antedate changes in cellular morphology and structure. Abnormalities in protein kinase function could potentially explain these findings, as well as the reported hyperphosphorylation of tau protein in Alzheimer's brain. Recent studies from this laboratory suggest that aluminum could also be involved in the changes in phosphomonoesters and phosphodiesters.
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PMID:31P nuclear magnetic resonance (NMR) spectroscopy of brain in aging and Alzheimer's disease. 331 99

Bovine microtubule protein preparations have been examined by proton nuclear magnetic resonance (1H NMR) spectroscopy at 270 MHz. Sharp resonances have been identified as deriving from microtubule-associated proteins. These resonances persist after self-assembly of microtubule protein. Brief tryptic treatment of assembled microtubules, specifically cleaving the microtubule-associated protein HMW2 (Mr = 270 000), releases the pendant portion of HMW2 (Mr = 240 000), three-quarters of which is in a flexible conformation. Isolated tau protein and HMW2 protein both show substantial flexibility; on recombination with tubulin dimer, tau shows considerable decrease in flexibility whereas HMW2 is unaffected. The observations may have important implications for the interactions between microtubules and other cytoskeletal structures.
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PMID:Molecular flexibility in microtubule proteins: proton nuclear magnetic resonance characterization. 686 Jun 59

Aluminium exposure has been shown to result in aggregation of microtubule-associated protein tau in vitro. In the light of recent observations that the native random structure of tau protein is maintained in its monomeric and dimeric states as well as in the paired helical filaments characteristic of Alzheimer's disease, it is likely that factors playing a causative role in neurofibrillary pathology would not drastically alter the native conformation of tau protein. We have studied the interaction of tau protein with aluminium using circular dichroism (CD) and 27Al NMR spectroscopy. The CD studies revealed a five-fold increase in the observed elipticity of the tau-aluminium assembly. The increase in elipticity was not associated with a change in the general conformation of the protein and was most likely due to an aggregation of the tau protein induced by aluminium. 27Al NMR spectroscopy confirmed the binding of aluminium to tau protein. Hyperphosphorylation of tau in Alzheimer's disease is known to be associated with defective microtubule assembly in this condition. Abnormally phosphorylated tau exists in a polymerized form in the paired helical filaments (PHF) which constitute the neurofibrillary tangles found in Alzheimer's disease. While it is hypothesized that its altered biophysical characteristics render abnormally phosphorylated tau resistant to proteolysis, causing the formation of stable deposits, the sequence of events resulting in the polymerization of tau are little understood, as are the additional factors or modifications required for this process. Based on the results of our spectroscopic studies, a model for the sequence of events occurring in neurofibrillary pathology is proposed.
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PMID:Preservation of native conformation during aluminium-induced aggregation of tau protein. 880 54

Pathological changes in the microtubule associated protein tau, leading to tau-containing filamentous lesions, are a major hallmark common to many types of human neurodegenerative diseases, including Alzheimer's disease (AD). No structural data are available which could rationalize the extensive conformational changes that occur when tau protein is converted to Alzheimer's paired helical filaments (PHF). The C-terminal portion of tau plays a crucial role in the aggregation of tau into PHF and in the truncation process that generates cytotoxic segments of tau. Therefore, we investigated the solution structure of the hydrophobic C-terminal segment 423-441 of tau protein (PQLATLADEVSASLAKQGL) by 1H 2D NMR spectroscopy. The peptide displays the typical NMR evidence consistent with a alpha-helix geometry with a stabilizing C-capping motif. The reported data represent the first piece of structural information on an important portion of the molecule and can have implications towards the understanding of its pathophysiology.
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PMID:The solution structure of the C-terminal segment of tau protein. 1114 14

The recent crystal structure of Pin1 protein bound to a doubly phosphorylated peptide from the C-terminal domain of RNA polymerase II revealed that binding interactions between Pin1 and its substrate take place through its Trp-Trp (WW) domain at the level of the loop Ser(11)-Arg(12) and the aromatic pair Tyr(18)-Trp(29), and showed a trans conformation for both pSer-Pro peptide bonds. However, the orientation of the ligand in the aromatic recognition groove still could be sequence-specific, as previously observed in SH3 domains complexed by peptide ligands or for different class of WW domains (Zarrinpar, A., and Lim, W. A. (2000) Nat. Struct. Biol. 7, 611-613). Because the bound peptide conformation could also differ as observed for peptide ligands bound to the 14-3-3 domain, ligand orientation and conformation for two other biologically relevant monophosphate substrates, one derived from the Cdc25 phosphatase of Xenopus laevis (EQPLpTPVTDL) and another from the human tau protein (KVSVVRpTPPKSPS) in complex with the WW domain are here studied by solution NMR methods. First, the proton resonance perturbations on the WW domain upon complexation with both peptide ligands were determined to be essentially located in the positively charged beta-hairpin Ser(11)-Gly(15) and around the aromatic Trp(29). Dissociation equilibrium constants of 117 and 230 microm for Cdc25 and tau peptides, respectively, were found. Several intermolecular nuclear Overhauser effects between WW domain and substrates were obtained from a ligand-saturated solution and were used to determine the structures of the complexes in solution. We found a similar N to C orientation as the one observed in the crystal complex structure of Pin1 and a trans conformation for the pThr-Pro peptidic bond in both peptide ligands, thereby indicating a unique binding scheme for the Pin1 WW domain to its multiple substrates.
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PMID:1H NMR study on the binding of Pin1 Trp-Trp domain with phosphothreonine peptides. 1131 38

The third repeat fragment (3MBD, 31 residues) in the four-repeat microtubule-binding domain of water-soluble tau protein has been considered to be responsible for the formation of the neuropathological filament. To clarify the structural requisite of 3MBD for the filamentous assembly, the solution structures in water and trifluoroethanol (TFE) were investigated by a combination of two-dimensional (1)H-NMR measurements and molecular modeling calculations. All protons were assigned by various 2D NMR spectral measurements. The NOE patterns characteristic to the typical helical structure were observed in TFE solution, as was expected from the CD spectra. Using 273 NOE and 23 (3)J(NHC(alpha)H) data, possible 3D structures were generated by the dynamical simulated annealing method. The constructed NMR conformers showed that the N-terminal Val1-Lys6 and Leu10-Leu20 fragments form the well-refined extended and alpha-helical structures, respectively, whereas the C-terminal moiety is highly flexible. Interestingly, the helical structure showed amphipathic distribution of the respective side chains. This amphipathic behavior of the 3MBD structure would be necessary for self-associating into a helical filament of the tau MBD domain, because such a filament is stabilized by the alternating hydrophilic and hydrophobic interactions between the 3MBD fragments.
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PMID:Amphipathic helical behavior of the third repeat fragment in the tau microtubule-binding domain, studied by (1)H NMR spectroscopy. 1205 95

Protease resistant paired helical filaments (prcPHF) can be isolated from the brains of Alzheimer's diseased patients. A second type of PHF, A68 PHF, may be extracted in soluble form from brain homogenate and induced to form filaments in vitro. Here we use a variety of analytical techniques to assess the protein, carbohydrate and fatty acid composition of prcPHF and A68 PHF. High-field ^1H NMR of both PHF preparations display similar fatty acid and carbohydrate proton resonances, consistent with the presence of a structurally similar glycolipid. Carbohydrate analysis showed that both preparations contained greater than 82% less than 12% C16:1 was significantly lower in A68 PHF than in prcPHF, both preparations contained otherwise similar fatty acid profiles with the most abundant lipid component being oleic acid (C18:1, 29.3 +/- 9.0%) followed by palmitic (C16:0, 28.5 +/- 5.6%) 17.6 +/- 7.5%) preparations revealed a profile reasonably consistent with that previously determined for PHF-tau but significantly higher in glycine and lower in lysine than would be predicted from the cDNA sequence. On a weight per cent basis, protein accounted for about 51% A68 PHF samples but only about 10% Carbohydrate and fatty acid accounted for about 39% A68 PHF samples but 74% preparations showed strong correlations between the total amount of tau protein and fatty acid. These results suggest that a glycolipid component forms an integral part of the PHF structure.
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PMID:A quantitative assessment of glycolipid and protein associated with paired helical filament preparations from Alzheimer's diseased brain. 1221 31

The third repeat fragment (R3) in the four-repeat microtubule-binding domain of the water-soluble tau protein has been considered to play an essential role in the protein's filamentous assembly. To clarify the associational and conformational features that differentiate R3 from the second repeat, R2, the heparin-induced assembly profiles of these peptide fragments were monitored by the thioflavin fluorescence method and electron microscopy. The trifluoroethanol-induced reversible conformational change from a random structure to an alpha-helical structure, in an aqueous solution, was monitored by CD measurement, and the structure of R2 in trifluoroethanol solution was analyzed by a combination of two-dimensional 1H-NMR measurements and molecular modeling calculations to facilitate comparison with the structure of R3. The speed of R3 assembly was remarkably faster than that of R2, in spite of their similar amino acid sequences. The averaged NMR conformers of R2 exhibited the whole-spanning alpha-helical structure. Similar features observed in R2 and R3 conformers in trifluoroethanol were that the Leu10-Leu20/Lys20 sequence takes a helical structure with the amphipathic-like distribution of the respective side-chains, whereas the C-terminal moieties are both flexible. In contrast, a notable difference was observed at the N-terminal Val1-Lys6 sequence, namely, a helical conformation for R2 and an extended conformation for R3. These conformational behaviors would be associated with the different self-aggregation speeds and seeding reactions between R2 and R3.
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PMID:Different associational and conformational behaviors between the second and third repeat fragments in the tau microtubule-binding domain. 1472 81

The microtubule-associated protein tau is found aggregated into paired helical filaments in the intraneuronal neurofibrillary tangle deposits of victims of Alzheimer's disease (AD) and other related dementias. Tau contains a repeat domain consisting of three or four 31-32-residue imperfect repeats that forms the core of tau filaments and is capable of self-assembling into filaments in vitro. We have used high-resolution NMR spectroscopy to characterize the structural properties of the three-repeat domain of tau at the level of individual residues. We find that three distinct regions of the polypeptide corresponding to previously mapped microtubule interaction sites exhibit a preference for helical conformations, suggesting that these sites adopt a helical structure when bound to microtubules. In addition, we directly observe a marked preference for extended or beta-strand-like conformations in a stretch of residues between two of the helical regions, which corresponds closely to a region previously implicated as an early site of beta-strand structure formation and intermolecular interactions leading to paired helical filament (PHF) formation. This observation supports the idea that this region of the protein plays a crucial role in the formation of tau aggregates. We further show that disulfide-bond-mediated dimer formation does not affect and is not responsible for the observed structural preferences of the protein. Our results provide the first high-resolution view of the structural properties of the protein tau, are consistent with an important role for beta structure in PHF formation, and may also help explain recent reports that tau filaments contain helical structure.
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PMID:Residual structure in the repeat domain of tau: echoes of microtubule binding and paired helical filament formation. 1565 59

The aggregation of the microtubule-associated tau protein and formation of "neurofibrillary tangles" is one of the hallmarks of Alzheimer disease. The mechanisms underlying the structural transition of innocuous, natively unfolded tau to neurotoxic forms and the detailed mechanisms of binding to microtubules are largely unknown. Here we report the high-resolution characterization of the repeat domain of soluble tau using multidimensional NMR spectroscopy. NMR secondary chemical shifts detect residual beta-structure for 8-10 residues at the beginning of repeats R2-R4. These regions correspond to sequence motifs known to form the core of the cross-beta-structure of tau-paired helical filaments. Chemical shift perturbation studies show that polyanions, which promote paired helical filament aggregation, as well as microtubules interact with tau through positive charges near the ends of the repeats and through the beta-forming motifs at the beginning of repeats 2 and 3. The high degree of similarity between the binding of polyanions and microtubules supports the hypothesis that stable microtubules prevent paired helical filament formation by blocking the tau-polyanion interaction sites, which are crucial for paired helical filament formation.
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PMID:Sites of tau important for aggregation populate {beta}-structure and bind to microtubules and polyanions. 1585 60


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