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)

Two clonal immortalized neurons designated CL8c4.7 and CL8a5.2 were established by somatic cell fusion between a hypoxanthine phosphoribosyltransferase-(HPRT-) deficient neuroblastoma N18TG2 and newborn mouse cerebellar/brain stem neurons. In the serum-containing medium without extra differentiating agents, both clones exhibited a morphology of differentiated neurons. They contained high levels of glutamate but no gamma-aminobutyric acid (GABA). The CL8a5.2 clone synthesized choline acetyltransferase and serotonin. In immunocytochemical studies, both clones expressed 200 kD neurofilament protein, neuron-specific enolase, microtubule-associated protein 2 (MAP2), tau protein, neuronal cell adhesion molecule (N-CAM), HNK-1, Thy-1.2, saxitoxin-binding sodium channel protein, and glutamate. Synaptophysin immunoreactivity was identified in the neuritic terminals of CL8c4.7 cells. Most of these antigens were barely detectable on N18TG2 cells. Electrophysiologically, both clones generated action potentials in response to electrical stimuli. The hybrid clones that express characteristics of differentiated neurons derived from the cerebellar and brain stem regions might be invaluable for the study of the molecular basis of neuronal differentiation and degeneration in these regions.
J Neurobiol 1992 Sep
PMID:Establishment of mouse-immortalized hybrid clones expressing characteristics of differentiated neurons derived from the cerebellar and brain stem regions. 135 6

Expression of tau protein in non-neuronal cells can result in a redistribution of the microtubule cytoskeleton into thick bundles of tau-containing microtubules (Lewis et al.: Nature 342:498-505, 1989; Kanai et al.: J Cell Biol 109:1173-1184, 1989). We reconstituted microtubule bundles using purified tubulin and tau in order to study the assembly of these structures. Taxol-stabilized tubulin polymers were incubated with various concentrations of recombinant human tau and examined by electron microscopy. With increasing concentrations of tau 3 (tau isoform containing three microtubule binding domains) or tau 4 (isoform containing four microtubule binding domains) the microtubules changed orientation from a random distribution to loosely and tightly packed parallel arrays and then to thick cables. In contrast, tau 4L, the tau isoform containing four microtubule binding domains plus a 58-amino acid insert near the N-terminus, showed minimal bundling activity. tau 4-induced bundling could be inhibited by the addition of 0.5 M NaCl or 0.4 mM estramustine phosphate, conditions which are known to inhibit tau binding to microtubules. A tau construct that contained only the microtubule binding domains plus 19 amino acids to the C-terminus was fully capable of bundling microtubules. Phosphorylation of tau 3 with cAMP-dependent protein kinase had no effect on its ability to induce microtubule bundling. These results indicate that tau protein is directly capable of bundling microtubules in vitro, and suggests that different tau isoforms differ in their ability to bundle microtubule filaments.
J Neurosci Res 1992 Sep
PMID:Tau protein induces bundling of microtubules in vitro: comparison of different tau isoforms and a tau protein fragment. 136 May 42

The immunological recognition pattern of one of the most commonly used monoclonal antibodies, PHF-1, which detects the paired helical filaments of Alzheimer's disease, exhibits a high degree of similarity with the recognition of a polyclonal antibody, anti-T3P, raised against a synthetic phosphopeptide, GAEIVYKS(Phospho)PVVSGD, corresponding to amino acids 389-402 of the microtubule-associated protein tau. A panel of 16 synthetic non-phosphorylated and phosphorylated peptides, excised from different regions of tau and peptide analogs thereof, were used to show that PHF-1 is indeed directed against the T3 fragment. Circular dichroism spectroscopy shows that the phosphorylated peptide exhibits a limited propensity to form intramolecular beta-pleated sheets, and alteration is found in the reverse-turn structure that dominates the middle section of the molecule. The shift in the turn-forming amino acids may also allow a stacking procedure, may interfere with microtubule assembly, and, consequently, may be accountable for deposit formation.
Biochem Biophys Res Commun 1992 Sep 16
PMID:Immunological and conformation characterization of a phosphorylated immunodominant epitope on the paired helical filaments found in Alzheimer's disease. 138 20

The paired helical filament, which comprises the major fibrous element of the neurofibrillary tangle in Alzheimer's disease, contains abnormally phosphorylated microtubule-associated protein tau as its principal constituent. The repeat region of tau protein, which represents the microtubule binding domain, forms the core of the filament. Here we show that an expressed fragment of tau protein spanning the repeat region can assemble in vitro into filaments like those found in Alzheimer's disease.
FEBS Lett 1992 Sep 07
PMID:The microtubule binding repeats of tau protein assemble into filaments like those found in Alzheimer's disease. 150 83

It has been suggested that hyperphosphorylation of the tau protein in neurofibrillary tangles may be relevant to the etiology of Alzheimer's disease and that at least one of the hyperphosphorylated sites lies within a consensus sequence for the p34cdc2/cdc28 family of kinases. We describe a new method for large-scale purification of p34cdc28 kinase from Saccharomyces cerevisiae and show that the purified enzyme can phosphorylate bovine and human tau. Phosphorylation was greatly enhanced by the addition of basic and acidic substrate modulators. The effect of the substrate modulators differed both with the structures of the substrates and the modulators. Similar results were obtained with a kinase that could be purified from neurofilaments by p13suc1 affinity chromatography, a hallmark of p34cdc2/cdc28-type kinases. These results are consistent with the hypothesis that a kinase of this type is involved in tau phosphorylation in vivo and open the possibility that hyperphosphorylation in Alzheimer's disease may be controlled by substrate modulators.
J Biol Chem 1992 Sep 25
PMID:Phosphorylation of tau protein by purified p34cdc28 and a related protein kinase from neurofilaments. 152 90

Using epitope mapping we have demonstrated that a high molecular weight protein (Mr approximately 115 x 10(3)) present in brain and spinal cord is a member of the tau family of microtubule-associated proteins. Antibodies directed against the amino-terminal, middle and carboxyl-terminal portions of tau recognize this protein. A limited survey of neuronal tissues has shown that this high molecular weight tau protein is present in brain, spinal cord, dorsal root ganglia, dorsal and ventral roots and peripheral nerves. High molecular weight tau protein is expressed at higher levels in spinal cord than in brain and is the only form of tau detected in the adult peripheral nervous system.
J Cell Sci 1991 Sep
PMID:High molecular weight tau: preferential localization in the peripheral nervous system. 172 50

Three isoforms of human tau protein were compared for their abilities to induce microtubule assembly. The three isoforms, tau 3 (tau containing three microtubule-binding domains), tau 4 (tau containing four microtubule-binding domains) and tau 4L (tau containing four microtubule binding domains plus a 58-amino-acid insert near the N-terminus) were expressed in E. coli and purified using ammonium sulfate precipitation, ion exchange, and size exclusion chromatography. All three isoforms induced microtubule assembly at micromolar concentrations and showed similar critical concentrations for assembly of 0.4-0.45 microM. However, tau 4 induced microtubule formation at a rate five- to tenfold faster than either tau 3 or tau 4L. The rate of microtubule elongation seen with tau 4 was twofold greater than with tau 3 or tau 4L, suggesting that the faster rate of microtubule assembly seen with tau 4 was due, at least in part, to faster elongation. Tau 4 induced a greater number of microtubules to form at steady state than did tau 3 or tau 4L. The microtubules generated with each tau isoform had similar steady-state length distributions and were equally susceptible to cold-induced disassembly. These results indicate that the additional microtubule-binding domain in tau 4 enhances microtubule assembly, while the 58-amino-acid insert negates the stimulatory effect of the fourth microtubule-binding domain.
J Neurosci Res 1991 Sep
PMID:Differences in the abilities of human tau isoforms to promote microtubule assembly. 179 99

Tau microtubule-associated proteins are believed to play a role in regulation of the growth of neuronal processes. In order to study the function of tau protein in vivo, we examined the inhibition of tau expression in PC12 cells by exposing the cells to tau antisense oligodeoxynucleotides. A specific retraction of neurites was observed after 3-4 days of incubation with nerve growth factor (NGF) and the antisense oligodeoxynucleotides. This is different from the previously described retraction of neurites at the initiation step following exposure to tubulin antisense oligodeoxynucleotides, indicating that tau proteins are involved at later stages of neurite outgrowth. Analysis of tau protein isoforms in NGF-induced PC12 cells showed a transition from immature to mature tau isoforms, thus relating the appearance of the latter with the stabilization step of neurite outgrowth. Use of an RNase-protection assay demonstrated a similar switch from immature to mature tau mRNA species. The transition to stable microtubules was verified by the appearance of microtubule bundles and their stability to colchicine treatment. Both phenomena occurred between 2 and 4 days of NGF induction. These results indicate that in vivo only mature tau isoforms are involved in the transition from unstable to stable neurites, which is a key step in neuronal development.
J Neurosci Res 1991 Sep
PMID:Involvement of mature tau isoforms in the stabilization of neurites in PC12 cells. 179

Antibodies directed against three regions of tau have been used in a histologic study of granulovacuolar degeneration (GVD) in Alzheimer's disease (AD). Granulovascular degeneration complexes, consisting of a dense granule in a less-dense vacuole, were found in hippocampal pyramidal neurons in all patients studied. Anti-tau antibodies directed against the N-and C-termini, and the repeat region of tau, were found to immunolabel the granule of the GVD complex. Intracellular neurofibrillary tangles also were labeled by these antibodies. In particular, MAb6.423, which recognizes tau protein sequestered in paired helical filaments (PHF) in AD, but not the normal tau proteins so far described in human brain, labeled GVD granules. Contrarily, a generic tau marker (MAb7.51), which immunolabels all known isoforms of isolated and expressed tau protein, including PHF-tau, did not label the GVD granule. These findings demonstrate that the entire tau molecule is sequestered within the GVD granule, and that the tau protein found in GVD complexes is antigenically related to that found in PHFs. There is, however, a difference in the way in which the repeat region of tau is incorporated into the two structures, making the MAb7.51 epitope unavailable in the GVD complex. These findings suggest that the formation of GVD complexes in hippocampal pyramidal neurons vulnerable to neurofibrillary degeneration may represent an alternative pathway for dealing with an aberrant molecular complex, which contributes to the formation of GVD granules and neurofibrillary tangles in AD.
Am J Pathol 1991 Sep
PMID:Sequestration of tau by granulovacuolar degeneration in Alzheimer's disease. 190 92

A novel brain-specific 25 kDa protein (p25) was purified from a bovine brain extract. The protein was phosphorylated by Ser/Thr-Pro kinase (TPK II) in tau protein kinase fractions at the Ser residues of Ser-Pro sequences. Using immunoblot analysis, the protein was found only in brain extracts, and was most abundant in the brain regions such as cerebrum and hippocampus, but less abundant in cerebellum, medulla oblongata and olfactory bulb. The protein was detected in rat, bovine and human brain extracts, indicating that this protein specifically exists in mammalian brain tissues.
FEBS Lett 1991 Sep 02
PMID:A novel brain-specific 25 kDa protein (p25) is phosphorylated by a Ser/Thr-Pro kinase (TPK II) from tau protein kinase fractions. 190 72


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