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)

We report an autopsy case of progressive supranuclear palsy (PSP) with a five-year clinical course. A 67-year-old man was suffering from a gait disturbance and mental deterioration. Neurological examination at the age of 71 revealed pseudobulbar palsy, horizontal ophthalmoplegia, and truncal dystonia, and a diagnosis of PSP was made. Mental deterioration including forgetfulness and character change was also noted, and the patient sometimes exhibited intermittent stuporous states. Cranial computed tomography and magnetic resonance images revealed moderate brain atrophy, predominantly in the frontal lobes. The patient died of bronchopneumonia at the age of 71. Neuropathological examination confirmed typical pathological changes of PSP, such as neuronal loss, neurofibrillary tangles, and fibrillary gliosis in the subcortical nuclei. Gallyas-Braak silver impregnation revealed neurofibrillary tangles, silver-positive glia and thread-like structures in degenerating subcortical nuclei. In addition to these classical lesions, the argentophilic structures were detected in the cerebral cortex, cortical white matter and cerebellar white matter. In the cerebral cortex, they were abundant mostly in the precentral gyrus and subcortical white matter. Immunohistochemical studies revealed that most silver-positive structures were also tau 2 antibody-positive. Thus, these argentophilic structures seemed to be closely related to abnormal tau protein. Their distribution in this case implies that lesions related to abnormal tau protein may occur more extensively in the brains of PSP than expected.
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PMID:[Widespread argentophilic structures in progressive supranuclear palsy--an autopsy case report]. 806 Jun 88

Neurofibrillary tangles (NFTs) occur in neurons of human central nervous system (CNS) both in aged subjects and patients with several degenerative diseases, with a certain topographical predilection. In surveying the NFT distribution in nervous tissue of patients with progressive supranuclear palsy (PSP), we found silver-positive fibrillary tangles in the neurons of dorsal root ganglia (DRG) in two of five patients. By immunohistochemistry, these tangles were stained with antibodies to human tau protein, paired helical filaments (PHFs) and ubiquitin. Electron microscopy revealed that they were mainly composed of PHFs that were morphologically indistinguishable from PHFs in the NFTs of CNS typically seen in Alzheimer's disease brains. Our data demonstrate for the first time that the neurons of DRG produce NFTs in PSP and suggest that the pathological process(es) leading to tangle formation can occur in the neurons of the peripheral nervous system in this disease condition.
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PMID:Neurofibrillary tangles in the neurons of spinal dorsal root ganglia of patients with progressive supranuclear palsy. 838 45

Cerebrospinal fluid (CSF) leakage, which sometimes occurs after skull trauma, is a life-threatening condition. A prompt start with antibiotics and/or prompt surgical treatment of fistulas is essential to avoid severe complications. This requires a fast and reliable method for detecting CSF leakage. This paper describes a fast (< 2 h) method based on the identification of the tau protein (beta 2-transferrin) band(s). Tau protein is a brain-specific variant of transferrin that is characteristic of CSF. The method includes iso-electric focusing (IEF) on pre-cast polyacrylamide gels and silver staining using the PhastSystem, an automated instrument for electrophoresis and staining. In the present study, this technology was applied on 200 consecutive CSF samples, 32 of which were from healthy volunteers. Tau protein was detected in all CSF samples but 5 (2.5%), all of which were from patients with blood-brain barrier (BBB) damage. In these cases, the tau protein band was indistinct when direct silver staining was used. Therefore, immunofixation with an antitransferrin antibody was performed, and after that the tau protein band was easy to detect. The specificity of the method was high, since no brain-specific tau protein band was detected in serum, tears, saliva, or nasal secretion. As IEF of CSF using the PhastSystem is increasingly used as the routine method for detection of oligoclonal bands of IgG in neurological disorders, it could readily be used in the clinical (neuro) chemical laboratory also for the less frequent cases of suspected CSF leakage.
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PMID:Detection of cerebrospinal fluid leakage by isoelectric focusing on polyacrylamide gels with silver staining using the PhastSystem. 874 43

A 57-year-old man had exhibited cortical sensory disturbance, rigidity, spasticity, dementia, alien hand, grasp reflex, supranuclear ophthalmoplegia, pseudobulbar palsy, and neck dystonia for 4 years. Histological examination of autopsied specimens revealed neuronal loss in the cerebral cortex, with ballooned neurons, subthalamic nucleus, substantia nigra, basal ganglia, midbrain tegmentum, and the thalamus. There were neurofibrillary tangles in the subthalamic nucleus and the substantia nigra. Gallyas-Braak silver impregnation demonstrated numerous argentophilic tangles, threads, and a few argentophilic glia in the cerebral cortex, subcortical white matter, particularly in the precentral gyrus, subcortical nuclei, and the brainstem. These argentophilic structures were largely positive for tau, and negative for ubiquitin, paired helical filaments, and phosphorylated neurofilament. Ultrastructurally, 15-nm-wide straight tubules were observed in the neurons of the substantia nigra, globus pallidus, and the precentral cortex, coexisting with a few twisted tubules periodically constricted at 160- to 230-nm intervals. It was conclusively shown that Gallyas- and tau-positive cytoskeletal abnormalities occurred widely in brain of corticobasal degeneration. Both distribution and morphology of abnormal phosphorylated tau protein in corticobasal degeneration appear to resemble these features in progressive supranuclear palsy. These findings suggest a common cytoskeletal etiopathological significance in corticobasal degeneration and progressive supranuclear palsy.
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PMID:Corticobasal degeneration: widespread argentophilic threads and glia in addition to neurofibrillary tangles. Similarities of cytoskeletal abnormalities in corticobasal degeneration and progressive supranuclear palsy. 879 Dec 41

Increasing use of immunocytochemistry for evaluation of dementia disorders has revealed histopathological alterations that were previously unknown, even with sensitive silver techniques. Disorders [Pick's disease (PD), diffuse Lewy body disease (DLBD) and corticobasal degeneration (CBD)] in which immunocytochemistry has revealed occult pathology are discussed. All three disorders have neurofilament (NF) immunoreactive neuronal alterations in the neocortex. In DLBD round, eosinophilic cytoplasmic inclusions referred to as cortical Lewy bodies are neurofilament-positive, while in both PD and CBD neurofilament epitopes are expressed in irregularly swollen neurons and their proximal cell processes, which are referred to as ballooned neurons. Interestingly, the cortical neuronal population that is vulnerable to Lewy bodies is similar to that which is vulnerable to ballooned neurons. Furthermore, Lewy bodies can occasionally be detected within the cytoplasm of ballooned neurons. Besides neurofilament-immunoreactivity, Lewy bodies are immunoreactive for ubiquitin, while ballooned neurons are inconsistently stained with antibodies to ubiquitin. Both Lewy bodies and ballooned neurons can be appreciated with routine histology, but they are much easier to detect with immunocytochemistry. In contrast, a new type of neuritic alteration in the hippocampal CA2/3 region has been recognized in DLBD. These dystrophic neurites cannot be appreciated with routine histology and are only optimally seen with immunocytochemistry for ubiquitin. Their presence is a certain indication of the presence of cortical Lewy bodies. The microtuble associated protein tau is the major constituent of neurofibrillary tangles in Alzheimer's disease (AD). Biochemical studies have shown that Pick bodies, argyrophilic neuronal inclusions that are highly characteristic of, if not pathognomonic for PD are also composed of abnormal tau protein. Along with Pick bodies, tau has recently been detected in glial cells in PD. Similar so-called "gliofibrillary tangles" are increasingly recognized in progressive supranuclear palsy. Previously, CBD was considered to be free of such lesions, but recent studies have revealed widespread tau-positive neuronal and glial cytoskeletal lesions in CBD. A distinctive type of tau-positive glial lesion in CBD is characterized by annular clusters of grain-like tau immunoreactivity reminiscent of a neuritic plaque in AD, except that the clusters are devoid of amyloid. The tau-positive profiles are consistently located around a central astrocyte cell body. Double labeling studies with glial fibrillary acidic protein, vimentin and CD44, which are markers for reactive astrocytes, demonstrates tau immunoreactivity within astrocytic processes; these "astrocytic plaques" appear to be specific for CBD. Although NF, ubiquitin and tau proteins are present in diverse neuronal and glial inclusions in these disorders, the morphology and distribution of these lesions differentiate non-AD dementias.
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PMID:Cytoskeletal pathology in non-Alzheimer degenerative dementia: new lesions in diffuse Lewy body disease, Pick's disease, and corticobasal degeneration. 884 55

Paired helical filament (PHF)/tau immunoreactive dystrophic neurites are a common pathological feature in the brain of patients with Alzheimer's disease. Recent studies suggest that swollen neurofilament-immunoreactive neurites are also present in senile plaques. In the present study, we investigated whether PHF/tau-positive dystrophic neurites are located in all subtypes of plaques and whether swollen neurofilament-immunoreactive neurites are hyper-phosphorylated, using a battery of antibodies to PHF/tau, neurofilament, and beta-amyloid protein. PHF/tau-positive dystrophic neurites were present in and around nearly all subtypes of plaques, including small amyloid deposits, diffuse plaques, and perivascular plaques in the hippocampal formation of Alzheimer brain. The earlier changes were detectable with AT8 antibody and later changes with PHF-1 antibody. Plaque-associated PHF/tau-positive dystrophic neurites were rare or absent in the hippocampal formation of normal aged brain. Swollen neurofilament-positive neurites appeared to be hyper-phosphorylated in Alzheimer's disease and to a lesser degree in aged control brains. Neurites that contained hyper-phosphorylated tau as well as neurofilament were strongly argentophilic because both populations of dystrophic neurites stained with silver stains. Swollen neurofilament-positive plaque-associated neurites were often present in the absence of PHF/tau-positive plaque-associated dystrophic neurites. These data suggest that PHF/tau-positive dystrophic neurites are a common component of all subtypes of plaques in Alzheimer brain and neurofilament protein in swollen neurites, like tau protein, is hyper-phosphorylated. Hyper-phosphorylated neurofilaments in plaque-associated neurites may represent one of the earliest cytoskeletal changes in vulnerable neurons in Alzheimer's disease and aged control brains.
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PMID:Plaque biogenesis in brain aging and Alzheimer's disease. I. Progressive changes in phosphorylation states of paired helical filaments and neurofilaments. 895 27

Argyrophilic grains (ArG) and coiled bodies of argyrophilic grain disease (AgD) and the neurofibrillary lesions of Alzheimer's disease (AD) share similar antigenic determinants, among them hyperphosphorylated microtubule-associated protein tau. Nothing is known about the mechanisms underlying tau hyperphosphorylation in AgD, the hyperphosphorylated sites or the intracellular distribution of abnormally phosphorylated tau. We have analysed brain tissue sections from 41 subjects with AgD with a panel of phosphorylation-dependent (AT270, AT8, Tau-1, AT180, 12E8, PHF-1 and AT100) and phosphorylation-independent anti-tau antibodies (N-tau 5, 304, 189 and 134). All antibodies labelled ArG, coiled bodies and neurofibrillary lesions, with the exception of antibody 12E8, which stained a subset of neurofibrillary tangles, but no ArG or coiled bodies. Most pyramidal neurons in areas rich in ArG showed diffuse granular tau labelling in cell bodies and dendrites. Only very few tau-positive cells also contained neurofibrillary tangles. Phosphorylation-dependent anti-tau antibodies also stained a felt-like network of Gallyas-negative filiform neurites in layer CA1 of the hippocampus and in layer pre-B of the transentorhinal cortex. These results demonstrate a widespread hyperphosphorylation of tau protein in the somatodendritic domain of neurons in AgD, in addition to silver grains in the neuropil. Unlike in AD, tau hyperphosphorylation in the somatodendritic domain in AgD does not appear to be followed by neurofibrillary tangle formation, even in the presence of widespread ArG in the neuropil. Furthermore, our data suggest that no strict correlation exists between the presence or density of ArG in the limbic area and the occurrence of dementia.
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PMID:Argyrophilic grain disease: widespread hyperphosphorylation of tau protein in limbic neurons. 914 86

Braak's argyrophilic grains (ArGs) are spindle-shaped neuropil structures originally found in patients afflicted with adult onset dementia. We recently observed that tau protein is hyperphosphorylated in most nerve cells in areas rich in ArGs, suggesting that these grains may be a morphological expression of tau protein pathology in local neurons. The aim of this study was therefore to determine in three cases with ArGs whether grains are associated with individual neurons containing hyperphosphorylated tau. A combination of Gallyas silver staining and AT8 immunocytochemistry was used. AT8 is a monoclonal antibody that recognizes tau in a phosphorylation-dependent manner. Up to 80% of pyramidal cells of sector CA1 showed diffuse AT8 staining of their cell bodies and dendrites. Most grains were freely scattered throughout the neuropil. However, some were clearly located in side-branches of apical dendrites of AT8 immunoreactive pyramidal neurons. Dendritic branches often formed bush-like ramifications containing clusters of ArGs. Other dendrites consisted of a single stump containing one or two large grains at their tips. Spheroidal enlargements of dendritic branches, with a size corresponding to ArGs, were also found in Golgi Cox preparations of cases with ArGs but not in Alzheimer's disease cases or in controls. Our results show that some ArGs are formed within dendrites of neurons whose most obvious pathology is a diffuse hyperphosphorylation of the tau protein. Furthermore, morphology of dendrites containing grains suggests that a process of progressive shrinkage of dendrites is taking place in neurons bearing ArGs.
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PMID:Argyrophilic grains of Braak: occurrence in dendrites of neurons containing hyperphosphorylated tau protein. 954 29

The hyperphosphorylated microtubule-associated protein tau is a major component of Alzheimer-related intraneuronal cytoskeletal changes. Hyperphosphorylated tau proteins may form straight and paired helical filaments, which can condensate and crosslink, leading to agglomerations called neurofibrillary changes. The non-crosslinked filaments have been shown to precede the neurofibrillary changes in the cell body and dendritic processes of neurons. However, Alzheimer-related cytoskeletal changes are also found in dystrophic neurites of axonal origin. In the present study, occurrence of non-crosslinked and crosslinked cytoskeletal changes in dystrophic neurites of plaques has been investigated in the entorhinal region, hippocampal formation, and amygdala of cases at transentorhinal and limbic stages according to Braak and Braak. Consecutive 7 microm thick paraffin sections have been stained with the Campbell/Switzer and Gallyas silver techniques, as well as AT8 antibody for demonstration of beta-amyloid deposits, neurofibrillary changes, and non-crosslinked filaments, respectively. Most beta-amyloid deposits contained neither AT8-immunoreactive nor Gallyas positive argyrophilic neurites. Furthermore, a considerable proportion of beta-amyloid deposits displayed only AT8-immunoreactive dystrophic neurites. The findings indicate that AT8-immunoreactive neuronal processes located in beta-amyloid deposits precede Gallyas positive argyrophilic neurites in neuritic plaques. Both non-crosslinked and crosslinked forms of Alzheimer-type cytoskeletal changes are likely to develop in beta-amyloid deposits.
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PMID:Pathogenesis of Alzheimer-related neuritic plaques: AT8 immunoreactive dystrophic neurites precede argyrophilic neurites in plaques of the entorhinal region, hippocampal formation, and amygdala. 970 33

Pick's disease is a progressive degenerative disorder of the human brain which involves not only numerous areas of the cerebral cortex but also a characteristic set of subcortical nuclei. The disorder is associated with the formation of abnormal and hyperphosphorylated tau protein, which occurs in only a few susceptible neuronal types and leads to major cytoskeletal alterations. Preferentially affected by the destructive process are small nerve cells of both cortical areas and subcortical nuclei. Immunoreactions for abnormally phosphorylated tau protein permit identification of the alterations in their entirety. In an initial step in their development, patches of a nonargyrophilic material appear, irregularly filling both the somata and neurites of afflicted cells. The abnormal material is then partially converted into condensed spindle-shaped or spherical structures, which gradually become significantly argyrophilic. Globose argyrophilic Pick bodies eventually appear within the somata, and small Pick neurites of variable sizes and shapes develop in varicose expansions of the dendritic processes. Silver staining reveals only a fraction of the abnormal material and is adequate only for diagnostic purposes, while immunostaining of the abnormal tau protein discloses the complete neuropathological picture. The present study points to a conspicuous affliction of specific precerebellar nuclei in Pick's disease. Immunoreactive punctae, probably corresponding to terminal synaptic boutons of afferent fibers, appear at sites in the inferior olive receiving intense input from the cerebral cortex. The brunt of the changes, however, are borne by the pontine gray, the arcuate nucleus, the pontobulbar body, and the paramedian reticular nucleus. Altered areas show immunoreactive punctae and an abundance of small immunoreactive nerve cells partially containing Pick bodies and Pick neurites. Again, a feature common to all the affected nuclei is that they receive major input from the cerebral cortex, while other precerebellar nuclei with preponderant input from the spinal cord and/or other noncortical sources remain unscathed or exhibit only sparse involvement. The lesional pattern which develops in specific precerebellar nuclei is interpreted to be a partial reflection of the cortical involvement of Pick's disease.
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PMID:Involvement of precerebellar nuclei in Pick's disease. 978 94

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