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)

The neuronal microtubule-associated protein tau has been implicated in the development of axonal morphology including the organization of microtubules into a uniformly oriented array of microtubules commonly referred to as "bundle." Determination of the functional organization of tau has revealed that regions of tau protein which flank the microtubule-binding domain affect the bundling of microtubules in vitro with a microtubule-binding fragment of tau being most effective [Brandt and Lee, 1993: J. Biol. Chem. 268:3414-3419]. In order to study the relation of microtubule bundles that form in vitro to those observed in the axon, we determined the orientation of individual microtubules in bundles and the effects of bundling on microtubule assembly and stability in cell-free assembly reactions. Here we report that bundles induced by a microtubule-binding fragment of tau contain randomly oriented microtubules as determined by using the difference in growth rates at microtubule plus and minus ends. We demonstrate that in vitro bundling increases microtubule growth (about 30%), stabilizes microtubules against dilution- and cold-induced disassembly, and allows microtubule nucleation despite the absence of a tau region which has previously been shown to be required for tau-dependent microtubule nucleation. We conclude that conditions that stabilize microtubules can lead to bundle formation and allow microtubule assembly by a mechanism different from that employed by microtubule-associated proteins. The data also support the view that additional mechanisms besides the action of tau and tubulin exist in order to organize microtubules in the axon.
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PMID:Orientation, assembly, and stability of microtubule bundles induced by a fragment of tau protein. 808 73

Alz-50 is a monoclonal antibody raised against ventral forebrain tissue from patients with Alzheimer's disease (AD). It was originally believed that the antigen recognized by Alz-50 was only found in degenerating neurons. However, recent studies indicate that Alz-50 stains neurons in a limited but specific distribution in normal brains throughout life. As the antigen recognized by Alz-50 in normal brains may give some insight into the AD degenerative process, we characterized Alz-50 staining in the normal ovine striatum using immunoblots and immunocytochemistry at the light and electron microscope levels. We then compared the Alz-50 staining pattern with those of NADPH diaphorase histochemistry and immunocytochemistry using antisera against several neuropeptides, Alzheimer-related proteins, and heat-shock proteins. Western blot analysis indicated that the epitope recognized by Alz-50 in the normal sheep brain is on the microtubule-associated protein tau, and preadsorbing Alz-50 with a peptide corresponding to the amino terminus of the tau molecule eliminated staining. Alz-50 labeled a single population of cells in the ovine striatum, the medium aspiny neurons. At the light microscope level, the granular staining pattern closely resembled Alz-50 immunoreactive neurons in the normal human striatum and in cells undergoing early degeneration in AD. Alz-50 immunoreactive neurons stained immunocytochemically with antisera against somatostatin, neuropeptide Y, and histochemically for NADPH diaphorase. These cells were morphologically characterized by smooth dendrites, elaborate local axonal plexuses, and indented nuclei with filamentous inclusions. Ultrastructurally, Alz-50 immunodecorated ribosomes and membranous structures (e.g. vesicles, endoplasmic reticulum), and many boutons which contained Alz-50-positive synaptic vesicles. None of the antisera against other Alzheimer-related proteins, including paired helical filament protein, ubiquitin, beta-amyloid protein, or heat-shock proteins specifically stained the population of cells labelled by Alz-50. Other tau antisera also did not specifically stain these cells. We conclude that Alz-50 recognizes an amino terminal epitope that is exposed on tau proteins within a single, discrete population of neurons in the normal sheep striatum. The presence of this epitope in a normal cell population raises the possibility that the early stages of AD degeneration may involve the activation of a normal cellular pathway that modifies the tau molecule.
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PMID:Alz-50 immunohistochemistry in the normal sheep striatum: a light and electron microscope study. 809 42

The neurotropic murine coronavirus JHM is capable of inducing various forms of neurologic diseases, including demyelination. Neurons have been shown to act as a repository site at the early stages of the disease process (O. Sorensen and S. Dales, J. Virol. 56:434-438, 1985). JHM virus (JHMV) replication and trafficking of viral proteins and virions in cultured rat hippocampal neurons and a neuronal cell line, OBL-21, were examined, with an emphasis placed on the role of the microtubular network. We show here that JHMV spread within the central nervous system occurs transneuronally and that virus protein trafficking was dependent upon microtubules. Viral trafficking occurred asymmetrically, involving both the somatodendritic and the axonal domains. Thus coronavirus can be disseminated from neurons at either the basolateral or the apical domains. A specific interaction between antibodies derived against the microtubule-associated protein tau and JHMV nucleocapsid protein (N) was observed, which can presumably be explained by an overall amino acid similarity of 44% and an identity of 20% between proteins N and tau, with optimal alignment at the microtubule binding domain of tau. Collectively, our data suggest an important role of the microtubule network in viral protein trafficking and distribution. They also draw attention to protein sequence mimicry of a cell component by this coronavirus as one strategy for making use of the host's functions on behalf of the virus.
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PMID:Distribution and trafficking of JHM coronavirus structural proteins and virions in primary neurons and the OBL-21 neuronal cell line. 815 62

The neuronal microtubule-associated protein tau promotes microtubule assembly and has been implicated in the development of axonal morphology. To study the effect of phosphorylation and substrate modulation on tau's distinct activities to promote growth of existing microtubules and nucleation of new ones, we phosphorylated bacterially expressed human tau by cAMP-dependent protein kinase in the absence or presence of heparin, an acidic substrate modulator. We found that heparin increased phosphorylation of tau by a factor of more than 2 and produced tau bands with decreased electrophoretic mobility. We demonstrate that phosphorylation of tau in the absence or presence of heparin similarly reduced tau's activity to promote microtubule growth, whereas tau's activity to promote microtubules was suppressed much more after phosphorylation in the presence of heparin. Using recombinant tau fragments we showed that heparin-induced phosphorylation caused a specific shift in electrophoretic mobility indicative of a change in tau's conformation. By aminoterminal sequencing of a tau fragment starting at residue 154 we provide evidence that phosphorylation of serine 156 is responsible for this mobility shift and for the effect on tau's nucleation activity. We conclude that tau's activities to promote growth of existing microtubules and nucleation of new ones are differentially affected by the phosphorylation of specific tau residues. Regulation of the phosphorylation state by substrate modulation may play an important role in regulating tau's function.
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PMID:Differential effect of phosphorylation and substrate modulation on tau's ability to promote microtubule growth and nucleation. 816 74

Calcineurin is a calmodulin-dependent serine-threonine phosphatase found in many cell types but most abundant in neurons. To determine its localization in developing neurons, dissociated cultures from embryonic day 15 rat cerebellum were analyzed immunocytochemically after treatment with cytoskeletal-disrupting drugs. During the initial outgrowth of neurites, calcineurin is enriched in growth cones where its localization depends upon the integrity of both microtubules and actin filaments. Treatment with cytochalasin shifts calcineurin from the growth cone to the neurite shaft, and with nocadozole calcineurin translocates to the cell body. Therefore calcineurin is well positioned to mediate interactions between cytoskeletal systems during neurite elongation. By 14 d in culture, when the neurons have developed extensive neuronal contacts and synapses are present, calcineurin is predominantly in the neurite shaft. Incubation of cultured cells with Cyclosporin A or a specific peptide, both of which selectively inhibit calcineurin's phosphatase activity, prevented axonal elongation. Because the microtubule-associated protein tau appears to play a key role in asymmetric neurite elongation, we examined modifications in its phosphorylation state resulting from calcineurin inhibition. In contrast to the normal development of cerebellar macroneurons in which reactivity with the phosphorylation-dependent antibody, tau-1, progressively increases, there was a persistent inhibition of tau-1 reactivity in cells exposed to Cyclosporin A. These findings suggest a role for calcineurin in regulating tau phosphorylation and possibly modulating other steps required for the determination of polarity.
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PMID:Calcineurin is associated with the cytoskeleton of cultured neurons and has a role in the acquisition of polarity. 816 6

The microtubule-associated protein tau has been isolated and purified from both white and grey brain matter. Tau isoforms were fractionated, based on their different phosphate contents, by iron-chelating affinity chromatography. Differences were observed in the proportions of phosphorylated isoforms of tau protein (containing four tubulin-binding motifs) present in white and grey matter. In white matter, isoforms containing four tubulin-binding motifs are mainly present in a phosphorylated form. Thus there appears to be a correlation between the modification, by phosphorylation, of some sites in the tau molecule and the subcellular localization (axonal or somatodendritic compartments) of the modified isoforms.
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PMID:Differential distribution in white and grey matter of tau phosphoisoforms containing four tubulin-binding motifs. 825 24

To understand the roles of various microtubule-associated proteins (MAPs) in the development of axons and dendrites, we have expressed individual neuronal MAPs in normally rounded Sf9 host cells. We previously reported that expression of tau protein in these cells results in the elaboration of long processes containing dense bundles of microtubules (MTs). These bundles generally terminate in the hillock region of the cell body, and almost all of the MTs within the bundles are oriented with their plus ends distal to the cell body. Here we report the expression of a construct that approximates the MAP2C sequence and also induces the elaboration of processes with dense bundles of predominantly plus-end-distal MTs. Whereas tau generally results in a single process, there is a significantly greater tendency for the MAP2C-like construct to induce multiple processes. In contrast to the tau processes, the MT bundle in these processes extends far into the cell body. This latter observation suggests that MAP2C and tau have different effects on MT assembly and/or transport events in the cell. Although both of these MAPs can organize MTs that are competent to participate in process formation, the detailed organization of MTs induced by each of the two constructs is distinctive, and these differences may be relevant to axonal and dendritic differentiation.
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PMID:Process formation in Sf9 cells induced by the expression of a microtubule-associated protein 2C-like construct. 832 2

The microtubule-associated protein tau is found primarily in neuronal tissues and is highly enriched in the axon. It promotes microtubule assembly in vitro and stabilizes microtubules in cells. To study how tau protein might be involved in the unique features of axonal microtubules, we have analyzed the effect of E. coli-synthesized tau protein using an in vitro centrosome-mediated microtubule regrowth assay over a wide range of tau/tubulin ratios. We report that microtubule assembly promoted by tau protein exhibits characteristic changes dependent on the tau/tubulin ratio. Above a threshold level, nucleation of new microtubules is favored over growth of existing ones. tau isoform variation does not change this phase transition in microtubule assembly. We discuss how tau might participate in the elaboration of axonal morphology based on our results and present evidence that the phase transition from microtubule growth to nucleation is critical for axonal development.
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PMID:The balance between tau protein's microtubule growth and nucleation activities: implications for the formation of axonal microtubules. 836 Jun 96

The microtubule-associated protein tau plays an important role in the dynamics of microtubule assembly necessary for axonal growth and neurite plasticity. Ischemia disrupts the neuronal cytoskeleton both by promoting proteolysis of its components and by affecting kinase and phosphatase activities that alter its assembly. In this study the effect of ischemia and reperfusion on the expression and phosphorylation of tau was examined in a reversible model of spinal cord ischemia in rabbits. tau was found to be dephosphorylated in response to ischemia with a time course that closely matched the production of permanent paraplegia. Dephosphorylation of tau was limited to the caudal lumbar spinal cord. In a similar manner, Ca2+/calmodulin-dependent kinase II activity was reduced only in the ischemic region. Thus, dephosphorylation of tau is an early marker of ischemia as is the rapid loss of Ca2+/calmodulin-dependent kinase II activity. tau, however, was rephosphorylated rapidly during reperfusion at site(s) that cause a reduction in its electrophoretic mobility regardless of the neurological outcome. Alterations in phosphorylation or degradation of tau may affect microtubule stability, possibly contributing to disruption of axonal transport but also facilitating neurite plasticity in a regenerative response.
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PMID:Changes in phosphorylation of tau during ischemia and reperfusion in the rabbit spinal cord. 852 66

The monoclonal antibodies TAU-1 and AT8 are directed at human microtubule-associated protein tau epitopes that contain a dephosphorylated and phosphorylated Ser202, respectively, while AT180 and AT270 are anti-tau monoclonals with epitopes that require phosphorylated Thr181 and Thr231, respectively. We used these antibodies to study the developmental profiles of tau proteins in rat cerebral cortex and chicken optic lobes. In tau extracts from perinatal rat cerebral cortex. AT8 recognized one major protein band of approximately 50 kDa that peaks on postnatal day 6 and declines rapidly to lower levels at day 12. At later stages, the AT8 epitope was expressed by several adult tau isoforms that were, however, stained only very faintly in highly enriched samples. Two additional tau epitopes recognized by AT180 and AT270 were found to be expressed by one or two protein bands up to about postnatal day 19 and then declined. Unlike the AT8 epitope, in the mature brain these epitopes were stained strongly in enriched samples, where they were expressed by a greater number of adult isoforms. Between embryonic day 19 and postnatal day 12, TAU-1 was found to recognize one major protein band of approximately 50 kDa which migrated slightly faster than the AT8-binding band. At postnatal day 19 and all older stages (including adult cortex), at least three additional TAU-1-binding isoforms with higher apparent molecular weights were present. Hence, the transition from one immature to several adult TAU-1-binding tau isoforms between postnatal day 12 and 19 in rat cerebral cortex coincides with the phase of rapid down-regulation of the AT8 epitope. As in the rat cerebrum, in chicken optic lobes there is a developmental decrease of AT8-binding proteins which is paralleled by striking changes in the electrophoretic pattern of tau isoforms recognized by TAU-1. In both rat cerebral cortex and chicken optic lobes, the period of maximal expression of AT8-binding tau is morphologically characterized by intense axonal growth and beginning synaptogenesis, whereas its subsequent rapid down-regulation and the appearance of novel TAU-1-binding isoforms correlates with synaptic maturation, the onset of spontaneous electrical activity and the beginning of myelination.
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PMID:Developmental expression of tau proteins in the chicken and rat brain: rapid down-regulation of a paired helical filament epitope in the rat cerebral cortex coincides with the transition from immature to adult tau isoforms. 855 95

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