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 microtubule-associated protein tau is present in the pathologic hallmarks of Alzheimer's disease and its production and deposition have been implicated in the pathogenesis of the disease. We detected tau mRNA using in situ hybridization histochemistry in the hippocampus, visual cortex, and cerebellum, and compared its level in Alzheimer's disease with controls. The amount of tau mRNA also was determined as a ratio of total polyadenylated mRNA in each area. A significant and gene-specific increase in tau mRNA hybridization was found in hippocampal fields CA4 and CA3, with a similar trend in the dentate gyrus. In contrast, no change was found in the visual cortex or cerebellum in Alzheimer's disease. Increased hippocampal expression of tau mRNA also was present in cases of non-Alzheimer's dementia. Enhanced tau mRNA may be a marker of attempted plasticity involving the cytoskeleton in neuronal populations affected by various neurodegenerative disorders.
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PMID:Increased tau messenger RNA in Alzheimer's disease hippocampus. 211 43

Microtubule-associated protein tau is abnormally hyperphosphorylated in the brain of patients with Alzheimer disease (AD). Previous studies have shown (i) that in vitro tau can be phosphorylated to an Alzheimer abnormally phosphorylated state-like protein by proline-directed protein kinases MAP kinase and p34cdc2, and (ii) that the AD abnormally phosphorylated tau can be in vitro dephosphorylated by protein phosphatases PP-2B, PP-2A and PP-1 and not by PP-2C. However, to have a direct effect on the regulation of phosphorylation of tau, these enzymes should be present in the affected neurons. In the present study immunocytochemical localization of protein phosphatases PP-1, PP-2A, PP-2B and PTP, and protein kinases MAP kinase and p34cdc2 were studied in the hippocampal formation of AD and as a control in non-demented elderly patients. All the protein phosphatases and protein kinases studied were localized to both granular and pyramidal neurons. In the pyramidal neurons, the enzymes staining was observed in neuronal soma and neurites. PTP-1B, PP-1 and PP-2A were also highly expressed in microglia. The topographical distributions of all the enzymes studied were similar, i.e. the intensity of immunostaining in hippocampus in end-plate (CA3 and CA4) > prosubiculum, subiculum > entorhinal cortex > dentate gyrus > CA2 > CA1. Furthermore, the expression of all the enzymes was also observed in the tangle-bearing neurons. The PP-2B staining of the tangle-bearing neurons was weaker than the unaffected neurons in the same tissue section field in AD cases.
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PMID:Expression of protein phosphatases (PP-1, PP-2A, PP-2B and PTP-1B) and protein kinases (MAP kinase and P34cdc2) in the hippocampus of patients with Alzheimer disease and normal aged individuals. 781 92

Developmental expression and cellular localization of a novel brain-specific 25-kDa protein (p25), a substrate of tau protein kinase II, were investigated in the rat brain using polyclonal antibodies raised against peptides synthesized based on the p25 amino acid sequence. By western immunoblotting, p25 was found to be expressed only slightly in the embryonic period; the expression increased from 11 days up to 5 weeks of age, and continued to increase gradually until 1-2 years of age. Immunohistochemistry revealed distinct staining of glial cells in most regions of the central nervous system in the adult rat brain. These positively immunostained cells were especially abundant in the white matter, such as the corpus callosum, cingulum, external capsule, and internal capsule. The glial cells were identified as oligodendrocytes, and the nuclei of the cells remained unstained. Whereas the neuropil in most parts of the brain was immunostained less intensely than glias, the neuropil in the first and second layers of the cerebral cortex and the dentate gyrus was relatively strongly stained. Fiber-like structures were also stained in the CA3 region of hippocampus.
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PMID:A brain-specific protein p25 is localized and associated with oligodendrocytes, neuropil, and fiber-like structures of the CA3 hippocampal region in the rat brain. 841 44

Aberrant elevations in intracellular calcium levels, promoted by the excitatory amino acid glutamate, may be a final common mediator of the neuronal damage that occurs in hypoxic-ischemic and seizure disorders. Glutamate and altered neuronal calcium homeostasis have also been proposed to play roles in more chronic neurodegenerative disorders, including Alzheimer's disease. Any extrinsic factors that may augment calcium levels during such disorders may significantly exacerbate the resulting damage. Glucocorticoids (GCs), the adrenal steroid hormones released during stress, may represent one such extrinsic factor. GCs can exacerbate hippocampal damage induced by excitotoxic seizures and hypoxia-ischemia, and we have observed recently that GCs elevate intracellular calcium levels in hippocampal neurons. We now report that the excitotoxin kainic acid (KA) can elicit antigenic changes in the microtubule-associated protein tau similar to those seen in the neurofibrillary tangles of Alzheimer's disease. KA induced a transient increase in the immunoreactivity of hippocampal CA3 neurons towards antibodies that recognize aberrant forms of tau (5E2 and Alz-50). The tau immunoreactivity appeared within 3 h of KA injection, preceded extensive neuronal damage, and subsequently disappeared as neurons degenerated. KA also caused spectrin breakdown, indicating the involvement of calcium-dependent proteases. Physiological concentrations of corticosterone (the species-typical GC of rats) enhanced the neuronal damage induced by KA and, critically, enhanced the intensity of tau immunoreactivity and spectrin breakdown. Moreover, the GC enhancement of spectrin proteolysis was prevented by energy supplementation, supporting the hypothesis that GC disruption of calcium homeostasis in the hippocampus is energetic in nature. Taken together, these findings demonstrate that neurofibrillary tangle-like alterations in tau, and spectrin breakdown, can be induced by excitatory amino acids and exacerbated by GCs in vivo.
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PMID:Corticosterone exacerbates kainate-induced alterations in hippocampal tau immunoreactivity and spectrin proteolysis in vivo. 851 88

We report the presence of round eosinophilic intranuclear inclusions in a patient with sporadic amyotrophic lateral sclerosis (ALS). The inclusions were limited to the hippocampal pyramidal neurons; they were frequently encountered in the CA1 and CA2 regions and much less frequently in the CA3 and CA4 regions and in the subiculum. Ultrastructurally, they consisted of randomly oriented straight filaments, each about 8-14 nm in diameter, some of which had a tubular appearance in cross-section. Electron-dense, granular material was intermingled with the filaments. Immunohistochemically, all the inclusions were positive for ubiquitin, but were negative for several kinds of cytoskeletal protein, including actin, glial fibrillary acidic protein, vimentin, neurofilament polypeptides, keratin, tubulin, tau protein and microtubule-associated protein 2. To our knowledge, this type of neuronal intranuclear inclusion has not so far been reported in ALS, and its distribution limited to the hippocampal formation is of great interest.
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PMID:Eosinophilic intranuclear inclusions in the hippocampal pyramidal neurons of a patient with amyotrophic lateral sclerosis. 993 Sep 2

Nitric oxide is a multifunctional molecule that acts as messenger/modulator in synaptogenesis and potential neurotoxin and is synthesized by three isozymes of Nitric oxide synthase (NOS). The role of NOS in Alzheimer's disease (AD) is unclear. For example, neurons in the entorhinal cortex (EC) that are highly vulnerable to neurodegeneration in AD express low levels of NOS and while it has been suggested that the inducible form of NOS is upregulated in AD, it is still not clear if the constitutive expressed isozyme (nNOS) is involved in the process of neurodegeneration. In order to better understand the role of nNOS in the pathogenesis of AD, sections from the EC and hippocampus (HC) of AD and control cases were immunohistochemically analyzed by single- and double-immunolabeling using antibodies against nNOS and PHF-tau. Semiquantitative assessment of numbers of nNOS expressing neurons in different areas of the HC and EC showed a remarkable loss of nNOS expressing neurons in the entorhinal cortex layer II and--less severe--CA1 and CA3 of the hippocampus in patients with AD. In addition, double-immunolabeling studies revealed that nNOS is strongly associated with neurofibrillary tangles and plaques. These findings indicate that nNOS expressing neurons are highly susceptible to neurodegeneration and that nNOS might contribute to the pathogenesis of AD.
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PMID:nNOS expressing neurons in the entorhinal cortex and hippocampus are affected in patients with Alzheimer's disease. 951 29

A study of brains of 16 dogs from one to 19 years of age showed a structure- and cell-type- specific pattern of tau protein phosphorylation at mAb Tau-1 site and the absence of phosphorylation at the mAb AT8 site. Strong immunolabeling with mAb Tau-1 of the mossy fibers and perikarya of neurons in sectors CA3 and CA4 of the cornu Ammonis, less intensive staining in the cytoplasm in neocortical and subcortical neurons, and selective staining of some pyramidal cells in sectors CA1 and CA2 show differences in the amount of phosphorylated tau, not only in different types of neurons, but also in different parts of the cell. The immunoreactivity of oligodendrocytes and the absence of the reaction in astrocytes reflect differences in tau phosphorylation in glial cells. Marked immunoreactivity in 13 dogs but minimal reaction in brains of three other dogs appears to reflect interindividual differences, which are associated presumably with genetic background. Shrinkage of neurons, tortuosity of mossy fibers, accumulation of phosphorylated tau in the nucleoplasm, and deformation of the nuclei of neurons and oligodendrocytes suggest that excessive phosphorylation at the mAb Tau-1 site is associated with neuronal and oligodendrocyte degeneration and, possibly, cell death.
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PMID:Region- and cell-type-specific pattern of tau phosphorylation in dog brain. 974 20

Niemann-Pick type C (NPC) disease is a fatal hereditary neurovisceral disorder with diagnostically relevant intracellular accumulation of cholesterol in non-brain tissue, for example the spleen and fibroblasts. In the brain, many ballooned neurons are seen. Using filipin microfluorodensitometry, significant accumulations of free cholesterol in specified neurons have been described in NPC patients. The present study demonstrates spatial and temporal accumulation of free cholesterol in the brains of homozygous NPC (-(npc)/-(npc)) mice, a widely acknowledged mouse model, and in primarily cultured neurons therefrom. Intraneuronal storage of free cholesterol was already prominent at a pre-clinical stage in various grey matter areas of the murine cerebral cortex. Hippocampal areas showed differential development of the pathological distribution of free cholesterol. The pyramidal cells in the CA3 sector of Ammon's horn were affected much earlier than in CA1. Some of the deeper cerebral nuclei were affected only slightly, even at the final stage. Neurons (E15-E17) cultured in a cholesterol-free medium also showed massive accumulation of intracellular free cholesterol. In addition, brains from the murine NPC model for Alzheimer's disease (AD)-like changes in the microtubule-associated protein tau were tested using the Gallyas silver technique and AT8-immunolabelling, since both human diseases are accompanied by intraneuronal tangles made up of tau protein aggregations. Although the analysis failed to show classical silver-stainable tangles of the AD type in the NPC mice, tau protein phosphorylated at epitopes considered to represent early stages of AD was found. This further strengthens the concept that an alteration in cholesterol metabolism may play an important role in AD. The NPC mouse model may thus serve as a tool to analyse the role of cholesterol in initial changes of tau that eventually lead to the formation of tangles in both NPC and AD.
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PMID:Spatial and temporal distribution of intracellular free cholesterol in brains of a Niemann-Pick type C mouse model showing hyperphosphorylated tau protein. Implications for Alzheimer's disease. 1269 47

Neurofibrillary pathology [paired helical filaments (PHFs)] formed by the microtubule-associated protein tau in a hyperphosphorylated form is a major hallmark of Alzheimer's disease and related disorders. The process of tau phosphorylation, thought to be of critical importance for PHF formation, and its potential link to neurodegeneration, however, is not understood very well, mostly because of the lack of a physiological in vivo model of PHF-like tau phosphorylation. Here we describe the formation of highly phosphorylated tau, containing a number of PHF-like epitopes in torpor during hibernation. PHF-like phosphorylation of tau was not associated with fibril formation and was fully reversible after arousal. Distribution of PHF-like tau followed a consistent pattern, being most intense in the entorhinal cortex, hippocampus, and isocortical areas. Within the hippocampus, a particularly high labeling was seen in CA3 pyramidal cells. Somewhat lesser reactivity was present in CA1 neurons while dentate gyrus granule cells were not reactive. Formation of PHF-like tau in CA3 neurons was paralleled by the regression of synaptic contacts of the mossy fiber system terminating on CA3 apical dendrites. Mossy fiber afferentation was re-established during arousal, concomitantly with the decrease of PHF-like tau in CA3 neurons. These findings implicate an essential link between neuronal plasticity and PHF-like phosphorylation of tau. The repeated formation and degradation of PHF-like tau might, thus, represent a physiological mechanism not necessarily associated with pathological effects. Hibernation will, therefore, be a valuable model to study the regulation of PHF-like tau-phosphorylation and its cell biological sequelae under physiological in vivo conditions.
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PMID:Reversible paired helical filament-like phosphorylation of tau is an adaptive process associated with neuronal plasticity in hibernating animals. 1290 58

Oxidative stress has been implicated in the pathophysiology of Alzheimer's disease (AD) and diabetes mellitus (DM). N epsilon-carboxymethyllysine (CML) is an advanced glycation end product (AGE) recently found to be associated with oxidative stress mechanisms. Using immunocytochemical methods we examined the distribution of CML in brain tissue from AD and DM subjects and aging controls. CML reactivity was present in the cytoplasm of neurons, but there were marked differences in the intensity of expression, number of cells, and topographical distribution. CML expression was higher in hippocampus than in frontal and temporal cortex. In the hippocampus, neuronal and, to an extent, glial expression was more marked in CA3 and CA4 than in CA1 and CA2. In AD, CML was found to be coexpressed with tau protein, showing the similar neurofibrillary tangle shape, as well as in neuritic plaques but not in the core of amyloid plaques. We noted an increasing degree of CML expression such that the highest reactivity was evident in those with both AD and DM, followed by AD, DM, and aging controls. There was an inverse relationship between Braak staging and topography of CML expression. Although DM cases did not show Abeta deposition or neurofibrillary tangles, these findings suggest increased CML expression is not limited to AD. Nonetheless, high CML expression in AD with coexistent DM suggests there are additive effects compared with AD alone. It is plausible that the microangiopathy also associated with DM could worsen AD pathogenesis.
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PMID:N epsilon-carboxymethyllysine in brain aging, diabetes mellitus, and Alzheimer's disease. 1511 Mar 89

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