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)

We have developed an animal model to investigate acute changes in the axonal cytoskeleton caused by a mild stretching of the peripheral nerve in the upper limbs of rats. Rat forelimbs were continuously stretched at 2 N for 1 h. Thereafter, a part of the brachial plexus and median nerve were harvested and processed for electron microscopic analysis. The total number of microtubules in the brachial plexus decreased to 55% of that of the control animals (p<0.05) without change in the number of neurofilaments. No significant changes in microtubules or neurofilaments were observed in the median nerve. By Western blotting analysis, the amount of tau protein in the stretch group significantly decreased in the brachial plexus but not in the median nerve. However, no significant changes in the amount of tubulin protein were observed in either the brachial plexus or median nerve. These results suggest that the microtubules were depolymerized by stretching of the brachial plexus and that the depolymerization may have been mediated by the decrease in the tau protein.
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PMID:Acute changes in the axonal cytoskeleton after mild stretching of the rat brachial plexus. 1256 70

Tau protein is one of the major microtubule-associated proteins of the vertebrate nervous system. Some kinds of isoforms, for example, six isoforms in humans, are generated from a single gene by alternative mRNA splicing. The expression of tau protein is widely believed to be developmentally and pathologically regulated. We examined developmental changes in tau protein from humans, rats, mice, and guinea pigs to determine the universal function of each isoform. Tau isoforms, composed of variants in the amino terminal and carboxyl terminal regions, gradually shifted through development in protein. The developmental changes in the carboxyl terminal region were found to be conserved in all species in which three-repeat tau isoforms were dominant in the fetus or neonate, while four-repeat tau isoforms were dominant in adult brain. On the other hand, the changes in the amino terminal region were not identical in these species. These observations were confirmed using isoform-specific antibodies which could discriminate the numbers of amino-terminus insertions and carboxy-terminus repeat insertions. Developmental regulation of 3- and 4-repeat tau isoforms may contribute to axonal development and neural plasticity.
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PMID:Isoforms changes of tau protein during development in various species. 1271 63

Frontotemporal dementia with parkinsonism chromosome 17 type (FTDP-17) is caused by mutations in MAPT, the gene encoding tau. FTDP-17 begins with executive function deficits and other abnormal behaviors, which progress to dementia. Neurodegenerative changes include accumulation of aggregated tau as neuronal and glial fibrillary tangles. Aggregated tau is seen in numerous other neurodegenerative diseases, including Alzheimer's disease (AD). We expressed normal and FTDP-17 mutant human tau (mutations P301L and V337M) in Caenorhabditis elegans to model tauopathy disorders. Tau pan-neuronal expression caused progressive uncoordinated locomotion (Unc), characteristic of nervous system defects in worms. Subsequently, insoluble tau accumulates and both soluble and insoluble tau is phosphorylated at many of the sites hyperphosphorylated in FTDP-17, AD, and other tauopathies. Substantial neurodegeneration, seen as bulges and gaps in nerve cords followed by loss of neurons, occurs after insoluble tau begins to accumulate. Axons show vacuoles, membranous infoldings, and whorls with associated amorphous tau accumulations and abnormal tau-positive aggregates. FTDP-17 mutation lines had a more severe Unc phenotype, accumulated more insoluble tau at a younger age, were more resistant to cholinergic inhibitors, and had more severe axonal degeneration when compared with lines expressing normal tau. The Unc phenotype is caused by a presynaptic defect. Postsynaptic transmission is intact. This transgenic model will enable mechanistic dissection of tau-induced neurodegeneration and identification of genes and compounds that inhibit pathological tau formation.
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PMID:Neurodegeneration and defective neurotransmission in a Caenorhabditis elegans model of tauopathy. 1291 16

The microtubule-associated protein tau is a highly soluble protein that shows hardly any tendency to assemble under physiological conditions. In the brains of Alzheimer's disease (AD) patients, however, tau dissociates from the axonal microtubule and abnormally aggregates to form paired helical filaments (PHFs). One of the priorities in Alzheimer research is to clarify the mechanism of PHF formation. In recent years, several factors regulating tau assembly have come to light, yet some important questions remain to be answered. In this work, the His-tagged gene constructs of the four-repeat microtubule binding domain (4RMBD) in tau protein and its three mutants, 4RMBD S305N, N279K, and P301L, were expressed in E. coli and purified. Gel filtration chromatography and dynamic light scattering measurement yielded a Stokes radius of 3.1 nm, indicating that the His-tagged 4RMBD normally exists in buffer solution in a dimer state, which is formed by non-covalent intermolecular interactions. This non-covalent dimer can further polymerize to form filaments in the presence of polyanions such as heparin. The kinetics of the in vitro aggregation was monitored by thioflavine S dye fluorescence and CD measurements. The aggregation of 4RMBD was suggested to be a nucleation-dependent process, where the non-covalent dimer acts as an effective structural unit. The aggregation rate was strongly affected by the point mutation. Among the 4RMBD mutants, the rate of S305N was exceptionally fast, whereas N279K was the slowest, even slower than the wild-type. The aggregations were optimal in a weakly reducing environment for all the mutants and the wild type. However, the aggregations were affected differently by buffer pH, depending on the 4RMBD mutation.
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PMID:Aggregation analysis of the microtubule binding domain in tau protein by spectroscopic methods. 1294 75

Loss of synapses and dying back of axons are considered early events in brain degeneration during Alzheimer's disease. This is accompanied by an aberrant behavior of the microtubule-associated protein tau (hyperphosphorylation, aggregation). Since microtubules are the tracks for axonal transport, we are testing the hypothesis that tau plays a role in the malfunctioning of transport. Experiments with various neuronal and non-neuronal cells show that tau is capable of reducing net anterograde transport of vesicles and cell organelles by blocking the microtubule tracks. Thus, a misregulation of tau could cause the starvation of synapses and enhanced oxidative stress, long before tau detaches from microtubules and aggregates into Alzheimer neurofibrillary tangles. In particular, the transport of amyloid precursor protein is retarded when tau is elevated, suggesting a possible link between the two key proteins that show abnormal behavior in Alzheimer's disease.
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PMID:Clogging of axons by tau, inhibition of axonal traffic and starvation of synapses. 1464 79

The recent re-discovery of axonal damage in multiple sclerosis has led to a renewed interest in neurodegenerative mechanisms of the disease. Transected or injured axons release several molecules from their proximal extremity into the intercellular space. Although these molecules can be measured, however, a biological marker of axonal and neuronal degeneration is still lacking. Cytoskeleton structural proteins like actin, tubulin, L-neurofilaments and tau protein, axon-specific antibodies, other neuronal or glial proteins like S-100, 14-3-3 and glial fibrillary acid protein, neuronal specific enolase, and nitric oxide and its metabolites are some of the putative markers that deserve further investigation and validation. At present, none of them fulfils the criteria of applicability in clinical practice, and the levels of N-acetylaspartate determined by magnetic resonance spectroscopy remain the most reliable measure of axonal damage.
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PMID:Biological indicators of the neurodegenerative phase of multiple sclerosis. 1465 89

Neurofilaments are neuron-specific intermediate filaments. They are classed into three groups according to their molecular masses: neurofilament heavy, middle and light chains (NF-H, NF-M and NF-L). Neurofilaments assemble and form through the association of their central alpha-helical coiled-coil rod domains. NF-H and NF-M are distinct from NF-L as they contain a carboxyl-terminal tail domain, which appears to form connections with adjacent structures and other neurofilaments. Together with other axonal components such as microtubules, they form the dynamic axonal cytoskeleton. They maintain and regulate neuronal cytoskeletal plasticity through the regulation of neurite outgrowth, axonal caliber and axonal transport. Neurofilaments contain KSP repeats that are consensus motifs for the proline-directed kinases and are extensively phosphorylated in vivo, and their functions are thought to be regulated through their phosphorylation. Cyclin-dependent kinase 5 (Cdk5) is a proline-directed kinase, whose activity is restricted to the neuron through the neuronal-specific distribution of its activators p35 and p39. Cdk5 is the only kinase that affects the electrophoretic mobility of human NF-H and is thought to be the major neurofilament kinase. Cdk5 is involved in crosstalk with other signal transduction pathways such as the mitogen-activated protein kinase and myelin-associated glycoprotein pathways to influence the phosphorylation of neurofilaments and other cytoskeletal proteins. Both the hyperactivation of Cdk5 activity and subsequent hyperphosphorylation of neurofilaments and the microtubule-associated protein tau have been implicated in the pathogenesis of neurodegenerative disorders such as Alzheimer's disease and amyotrophic lateral sclerosis. Here we review the functions of neurofilaments and the significance of Cdk5 phosphorylation of neurofilaments.
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PMID:Cyclin-dependent kinase 5 in neurofilament function and regulation. 1467 12

In vivo, post-mortem and biopsy data suggest that coupled declines occur in brain synaptic activity and brain energy consumption during the evolution of Alzheimer disease. In the first stage of these declines, changes in synaptic structure and function reduce neuronal energy demand and lead to potentially reversible downregulation of oxidative phosphorylation (OXPHOS) within neuronal mitochondria. At this stage, measuring brain glucose metabolism or brain blood flow in patients, using positron emission tomography (PET), shows that the brain can be almost normally activated in response to stimulation. Thus, therapy at this stage should be designed to re-establish synaptic integrity or prevent its further deterioration. As disease progresses, neurofibrillary tangles with abnormally phosphorylated tau protein accumulate within neuronal cytoplasm, to the point that they co-opt the nonphosphorylated tau necessary for axonal transport of mitochondria between the cell nucleus and the synapse. In this second stage, severe energy depletion and other pathological processes associated with irreversibly downregulated OXPHOS lead to cell death, and the brain cannot normally respond to functional stimulation.
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PMID:Coupled reductions in brain oxidative phosphorylation and synaptic function can be quantified and staged in the course of Alzheimer disease. 1471 41

To study the role of Abeta amyloid deposits in the generation of cytoskeletal lesions, we have generated a transgenic mouse line coexpressing in the same neurons a wild-type human tau isoform (0N3R), a mutant form of APP (751SL) and a mutant form of PS1 (M146L). These mice developed early cerebral extracellular deposits of Abeta, starting at 2.5 months. A somatodendritic neuronal accumulation of transgenic tau protein was observed in tau only and in tau/PS1/APP transgenic mice, including in neurons adjacent to Abeta deposits. The phosphorylation status of this somatodendritic tau was similar in the two transgenic lines. The Abeta deposits were surrounded by a neuritic reaction composed of axonal dystrophic processes, immunoreactive for many phosphotau epitopes and for the human tau transgenic protein. Ultrastructural observation showed in these dystrophic neurites a disorganisation of the microtubule and the neurofilament network but animals that were observed up to 18 months of age did not develop neurofibrillary tangles. These results indicate that overexpression of mutant PS1, mutant APP and of wild-type human tau were not sufficient per se to drive the formation of neurofibrillary tangles in a transgenic model. The Abeta deposits, however, were associated to marked changes in cytoskeletal organisation and in tau phosphorylation in adjacent dystrophic neurites.
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PMID:Characterisation of cytoskeletal abnormalities in mice transgenic for wild-type human tau and familial Alzheimer's disease mutants of APP and presenilin-1. 1475 70

In the brains of Alzheimer's disease patients, the tau protein dissociates from the axonal microtubule and abnormally aggregates to form a paired helical filament (PHF). One of the priorities in Alzheimer research is to clarify the mechanism of PHF formation. Although several reports on the regulation of tau assembly have been published, it is not yet clear whether in vivo PHFs are composed of beta-structures or alpha-helices. Since the four-repeat microtubule-binding domain (4RMBD) of the tau protein has been considered to play an essential role in PHF formation, its heparin-induced assembly propensity was investigated by the thioflavin fluorescence method to clarify what conformation is most preferred for the assembly. We analyzed the assembly propensity of 4RMBD in Tris-HCl buffer with different trifluoroethanol (TFE) contents, because TFE reversibly induces the transition of the random structure to the alpha-helical structure in an aqueous solution. Consequently, it was observed that the 4RMBD assembly is most significantly favored to proceed in the 10-30% TFE solution, the concentration of which corresponds to the activated transition state of 4RMBD from a random structure to an alpha-helical structure, as determined from the circular dichroism (CD) spectral changes. Since such an assembly does not occur in a buffer containing TFE of < 10% or > 40%, the intermediate conformation between the random and alpha-helical structures could be most responsible for the PHF formation of 4RMBD. This is the first report to clarify that the non-native alpha-helical intermediate in transition from random coil is directly associated with filament formation at the start of PHF formation.
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PMID:Conformational transition state is responsible for assembly of microtubule-binding domain of tau protein. 1497 51


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