Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts:   Target Concepts:
Query: UNIPROT:P10636 (tau protein)
 5,110 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Previous studies have demonstrated that the two cysteine residues in the calcium-binding protein S100B are required for its extracellular functions. In the present study, a recombinant S100B protein and mutant S100Bs containing one or no cysteine residue(s) have been used to determine the contribution of cysteine residues to S100B dimerization and interaction with the intracellular target proteins aldolase, phosphoglucomutase, and the microtubule associated tau protein. Mutation of C68 to a valine or C84 to a serine, C68 to valine and C84 to serine, or C68 to valine and C84 to alanine did not significantly alter S100B activation of aldolase. However, mutation of C84 to serine resulted in calcium-independent S100B activation of phosphoglucomutase and a loss of S100B inhibition of tau phosphorylation by Ca2+/calmodulin-dependent protein kinase II. The altered functionality of the C84S mutant with phosphoglucomutase and tau was not due to altered physical properties or dimerization state. All of the mutants exhibited heat stability and calcium dependent conformational changes which were identical to recombinant S100B. In addition, S100B proteins containing two, one or no cysteine residues behaved as dimers in size exclusion chromatography experiments in the presence or absence of calcium as well as in the presence or absence of reducing agent. Dynamic light scattering and analytical ultracentrifugation experiments confirmed that dimerization was not affected by calcium or reducing agent. Altogether these results demonstrate that S100B dimerization is not calcium- or sulfhydryl-dependent. In summary, cysteine residues are not necessary for the noncovalent dimerization of S100B, but are important in certain S100B target protein-interactions.
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PMID:The role of cysteine residues in S100B dimerization and regulation of target protein activity. 942 66

Abnormal protein processing and modification is associated with Alzheimer's disease (AD) pathology. The role of phosphorylation in AD has been studied extensively because the presumed abnormal phosphorylation of tau protein is believed to play a role in the formation of paired helical filaments. Glycosylation with O-linked N-acetylglucosamine (O-GlcNAc) to serine and threonine residues is a dynamic protein modification of intracellular proteins, and it shares similar features with protein phosphorylation. In this study, O-GlcNAc glycosylation of proteins from autopsied human brains with confirmed AD and non-AD age-matched controls was examined. O-GlcNAcylation was demonstrated by labeling protein extracts with [3H]galactose in the presence of galactosyltransferase and subsequent analyses of saccharide-protein linkage and saccharide structure. The number of O-GlcNAc-containing proteins and the overall O-GlcNAc level do not appear to be different between AD and control brain tissues. The only significant change observed is a marked reduction of O-GlcNAcylated clathrin assembly protein-3 (AP-3) in AD. The reduction is more evident in brain neocortical regions, and there appears to be a negative correlation between O-glycosylated AP-3 and the density of neurofibrillary tangles. These data suggest a possible association between the O-glycosylated AP-3 and AD pathology.
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PMID:Reduction of O-linked N-acetylglucosamine-modified assembly protein-3 in Alzheimer's disease. 950 1

Estramustine (EM) is an anti-microtubule drug used in the treatment of hormone-refractory advanced prostate cancer. Since microtubules are the targets for EM cytotoxicity, we investigated the effects of EM on the microtubule-associated protein tau to determine what role it may play in drug resistance. We have compared tau expression in human prostate cancer cells (DU145) and an EM-resistant derived cell line (E4). Reverse transcriptase polymerase chain reaction has established that tau is expressed in both cell lines but increased 1.9-fold in E4 compared with DU145 cells. This result was confirmed at the protein level by Western blotting. Tau is a phosphoprotein, most of its reported phosphorylation sites being serine or threonine residues. We have shown, however, that tau is also phosphorylated at tyrosine residues in DU145 cells and that the phosphotyrosine level of tau is significantly increased in E4 cells. Moreover, DU145 cells exposed to short term micromolar drug concentrations enter a phase of microtubule depolymerization, display an increased level of tau phosphorylation and follow a pattern similar to that observed in EM-resistant E4 cells. EM is therefore able to induce a very rapid change in the posttranslational state of tau. Our results show that the acquisition of EM resistance in E4 cells, which is accompanied by changes at the tubulin level, is also associated with important changes in tau expression and phosphorylation.
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PMID:Estramustine resistance correlates with tau over-expression in human prostatic carcinoma cells. 967 68

The pathological hallmarks of Alzheimer's disease include neurofibrillary tangles, neuropil threads and neuritic plaques. Neurofibrillary tangles and neuropil threads are comprised of paired helical filaments which are themselves composed of a hyperphosphorylated form of the microtubule-associated protein tau. Neuritic plaques are extracellular deposits of aggregated beta amyloid associated with neurites containing hyperphosphorylated tau. The mechanisms by which the neurofibrillary tangles and neuritic plaques develop in Alzhemier's disease are not clear but it is hypothesized that sulphated glycosaminoglycans are important in their formation. This impression is based on the finding that the glycosaminoglycan, heparan sulphate, is found associated with neurofibrillary tangles, neuritic plaques and neuropil threads while dermatan sulphate, chondroitin sulphate and keratan sulphate immunoreactivity is found around neuritic plaques in brains of Alzheimer's disease patients. Furthermore, in vitro studies demonstrate that sulphated glycosaminoglycans such as heparan sulphate and the closely related molecule heparin interact with tau and potentiate its phosphorylation by a number of serine/threonine kinases, reduce its ability to bind to microtubules and induce paired helical filament formation, all properties associated with tau isolated from Alzheimer's disease brain. Thus, we were interested to learn whether intracerebral injection of the sulphated glycosaminoglycan heparin would give rise to alterations in the cytoskeletal protein tau in the rat brain. Although no cytoskeletal changes were observed, to our considerable surprise we found that the intrahippocampal injection of heparin gave rise to seizures. We have investigated this unexpected effect further in vivo and by using in vitro electrophysiological techniques.
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PMID:Heparin injection into the adult rat hippocampus induces seizures in the absence of macroscopic abnormalities. 1007 16

One of the neuropathological hallmarks of Alzheimer's disease is the neurofibrillary tangle, which contains paired helical filaments (PHFs) composed of the microtubule-associated protein tau. Tau is hyperphosphorylated in PHFs, and phosphorylation of tau abolishes its ability to bind microtubules and promote microtubule assembly. Restoring the function of phosphorylated tau might prevent or reverse PHF formation in Alzheimer's disease. Phosphorylation on a serine or threonine that precedes proline (pS/T-P) alters the rate of prolyl isomerization and creates a binding site for the WW domain of the prolyl isomerase Pin1. Pin1 specifically isomerizes pS/T-P bonds and regulates the function of mitotic phosphoproteins. Here we show that Pin1 binds to only one pT-P motif in tau and copurifies with PHFs, resulting in depletion of soluble Pin1 in the brains of Alzheimer's disease patients. Pin1 can restore the ability of phosphorylated tau to bind microtubules and promote microtubule assembly in vitro. As depletion of Pin1 induces mitotic arrest and apoptotic cell death, sequestration of Pin1 into PHFs may contribute to neuronal death. These findings provide a new insight into the pathogenesis of Alzheimer's disease.
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PMID:The prolyl isomerase Pin1 restores the function of Alzheimer-associated phosphorylated tau protein. 1039 Dec 37

Neurofibrillary tangles (NFT) in Alzheimer's disease (AD) consist largely of hyperphosphorylated tau protein. Many of the phosphorylation sites on tau are serine/threonine-proline sequences, several of which are phosphorylated in vitro by neuronal Cdc2-like kinase (Nclk), a kinase composed of Cdk5 and its activator(s). Thus, tau hyperphosphorylation in AD may result in part from deregulation of Nclk. To test this hypothesis, we examined Nclk activity in prefrontal and cerebellar cortex from 15 postmortem AD and 16 age-matched control subjects, and corrected either for Cdk5 level or for neuronal loss. The ratio of Nclk activity in prefrontal versus cerebellar cortex was then compared. When corrections were made for neuronal loss, the ratios of kinase activity in prefrontal versus cerebellar cortex were significantly higher in AD (6.45+/-0.86) than the controls (3.13+/-0.46; P = 0.003). This finding is consistent with a role for Nclk in the pathogenesis of NFT in AD.
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PMID:Elevated neuronal Cdc2-like kinase activity in the Alzheimer disease brain. 1041 23

The causes and the mechanisms of neuronal death in Alzheimer's disease are not elucidated, although some new insights have been proposed over the past years, including free-radical toxicity, beta-amyloid toxicity, excitotoxicity, and disturbed cellular calcium metabolism. Some authors have also pointed out that apoptosis could play a role in neuronal degeneration, but it is still largely debated. Here, we review some recent data linking the induction of experimental neuronal apoptosis in vitro and the molecular pathology of the tau protein and amyloid precursor protein (APP). In cultures exposed to mild glutamate toxicity, tau mRNA expression, not beta-actin, is enhanced in stressed neurons. The Guam cycad toxin metabolite methylazoxymethanol also produces an increase of tau gene transcription that exacerbates changes induced by glutamate. In serum-deprived cultures or glutamate-exposed cultures, neurons committed to apoptosis have a reduced tau gene expression, whereas resistant neurons display a stable or even augmented tau mRNA expression accompanied by a persistent tau phosphorylation near serine 202. In the same conditions, stressed neurons produce membrane blebbings strongly immunopositive for APP and putative amyloidogenic fragments that are subsequently released in the extracellular space. Experimental apoptosis in neurons can recapitulate tau and APP modifications that could be associated with a selective vulnerability and a progression of cellular degeneration along the neuronal network.
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PMID:Toxic neuronal apoptosis and modifications of tau and APP gene and protein expressions. 1046 44

alpha-Synuclein has been implicated in the pathogenesis of several neurodegenerative disorders based on the direct linking of missense mutations in alpha-synuclein to autosomal dominant Parkinson's disease and its presence in Lewy-like lesions. To gain insight into alpha-synuclein functions, we have investigated whether it binds neuronal proteins and modulates their functional state. The microtubule-associated protein tau was identified as a ligand by alpha-synuclein affinity chromatography of human brain cytosol. Direct binding assays using (125)I-labeled human tau40 demonstrated a reversible binding with a IC(50) about 50 pM. The interacting domains were localized to the C terminus of alpha-synuclein and the microtubule binding region of tau as determined by protein fragmentation and the use of recombinant peptides. High concentrations of tubulin inhibited the binding between tau and alpha-synuclein. Functionally, alpha-synuclein stimulated the protein kinase A-catalyzed phosphorylation of tau serine residues 262 and 356 as determined using a phospho-epitope-specific antibody. We propose that alpha-synuclein modulates the phosphorylation of soluble axonal tau and thereby indirectly affects the stability of axonal microtubules.
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PMID:alpha-synuclein binds to Tau and stimulates the protein kinase A-catalyzed tau phosphorylation of serine residues 262 and 356. 1046 79

Glycogen synthase kinase 3beta (GSK-3beta) is a proline-directed kinase that forms part of the wingless signaling pathway. Recent studies have shown that GSK-3beta phosphorylates the microtubule-associated protein tau in vitro and in cell culture. Tau is the principal component of the paired helical filaments (PHFs) found in the brains of patients with Alzheimer disease, and PHF-tau is hyperphosphorylated. GSK-3beta is therefore one of the candidate kinases for phosphorylating tau in Alzheimer disease. GSK-3beta activity is negatively regulated by phosphorylation on serine 9 and positively regulated by phosphorylation on tyrosine 216. However, since overexpression of GSK-3beta by transfection leads to increased activity in the absence of any stimuli, GSK-3beta activity may also be regulated at the transcriptional level. Indeed, increased GSK-3beta protein levels are found in Alzheimer disease brains, and GSK-3beta is found associated with PHFs in Alzheimer disease. To understand how GSK-3beta activity may be regulated at the transcriptional level, we have isolated the human GSK-3beta promoter. The GSK-3beta promoter does not contain a conventional TATA box although several other transcription factor binding sites were identified. A putative transcription start site was mapped by 5' RACE. Transfection of various GSK-3beta promoter CAT reporter genes into both COS-7 cells and SHSY5Y neuronal cells revealed that the GSK-3beta promoter is more active in neuronal cells. Such transfection studies involving promoter deletion mutants revealed that a negative transcriptional response element may be present at position -1421 to -1363 and an activator sequence at position -427 to -384. CP2 binding sites were also present within the promoter. CP2 has recently been shown to interact with the Alzheimer disease amyloid precursor protein binding protein Fe65. The significance of these results with respect to Alzheimer disease pathogenesis are discussed.
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PMID:Molecular cloning and characterization of the human glycogen synthase kinase-3beta promoter. 1048 3

The CNS of the sea lamprey (Petromyzon marinus) contains giant, individually identifiable neurons that can be microinjected intracellularly in the living animal. We have used the unique accessibility of this system to investigate the role played by serine/threonine kinases and phosphatases in regulating cytoskeletal stability in identified reticulospinal neurons (ABCs) in situ. Injection of broad spectrum kinase and phosphatase inhibitors induce marked changes in ABC gross morphology and in the extent and morphology of sprouts induced by axotomy. The kinase inhibitor K-252a causes regenerating sprouts to be longer and narrower than those seen in control preparations, and significantly reduces the diameters of axon stumps; this latter effect is similar to the effect of microinjecting anti neurofilament (NF) antibodies. By contrast, the phosphatase inhibitor okadaic acid (OA) causes the selective disruption of axonal integrity, blocking axonal regeneration and causing axon stump retraction in axotomized ABCs. The microtubule (MT) disrupting drug colchicine has an effect similar but less marked than OA on ABC axonal morphology. Both OA and colchicine also induce the formation of large somatodendritic swellings in axotomized (but not intact) ABCs by 1-3 weeks post-injection. Immunocytochemical analyses indicate that both colchicine and OA treatments result in the destabilization of MTs and the phosphorylation of NFs, while OA induces the accumulation of phosphorylated tau protein in some dendritic swellings. Control injections of inactive substances have none of these effects. These results suggest that OA does not have its primary effect on NF assembly at the doses used, but may block axonal regeneration by inducing a prolonged disruption of axonal MTs, possibly via an indirect mechanism involving the hyperphosphorylation of tau and other MAPs. K-252a, on the other hand, may interfere with NF assembly and sidearm phosphorylation, thereby reducing NF transport into both axon stumps and sprouts and in turn reducing sprout diameter. The implications of these results for the respective roles of MTs, MAPs, and NFs in axonal regeneration in the vertebrate CNS are discussed.
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PMID:Neuronal morphology, axonal integrity, and axonal regeneration in situ are regulated by cytoskeletal phosphorylation in identified lamprey central neurons. 1062 Jul 83


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