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)

Familial multiple system tauopathy with presenile dementia (MSTD) is a neurodegenerative disease with an abundant filamentous tau protein pathology. It belongs to the group of familial frontotemporal dementias with Parkinsonism linked to chromosome 17 (FTDP-17), a major class of inherited dementing disorders whose genetic basis is unknown. We now report a G to A transition in the intron following exon 10 of the gene for microtubule-associated protein tau in familial MSTD. The mutation is located at the 3' neighboring nucleotide of the GT splice-donor site and disrupts a predicted stem-loop structure. We also report an abnormal preponderance of soluble tau protein isoforms with four microtubule-binding repeats over isoforms with three repeats in familial MSTD. This most likely accounts for our previous finding that sarkosyl-insoluble tau protein extracted from the filamentous deposits in familial MSTD consists only of tau isoforms with four repeats. These findings reveal that a departure from the normal ratio of four-repeat to three-repeat tau isoforms leads to the formation of abnormal tau filaments. The results show that dysregulation of tau protein production can cause neurodegeneration and imply that the FTDP-17 gene is the tau gene. This work has major implications for Alzheimer's disease and other tauopathies.
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PMID:Mutation in the tau gene in familial multiple system tauopathy with presenile dementia. 963 20

Neurodegenerative disorders referred to as tauopathies have cellular hyperphosphorylated tau protein aggregates in the absence of amyloid deposits. Comparative biochemistry of tau aggregates shows that they differ in both phosphorylation and content of tau isoforms. The six tau isoforms found in human brain contain either three (3R) or four microtubule-binding domains (4R). In Alzheimer's disease, all six tau isoforms are abnormally phosphorylated and aggregate into paired helical filaments. They are detected by immunoblotting as a major tau triplet (tau55, 64 and 69). In corticobasal degeneration and progressive supranuclear palsy, only 4R-tau isoforms aggregate into twisted and straight filaments respectively. They appear as a major tau doublet (tau64 and 69). Finally, in Pick's disease, only 3R-tau isoforms aggregate into random coiled filaments. They are characterized by another major tau doublet (tau55 and 64). These differences in tau isoforms may be related to either the degeneration of particular cell populations in a given disorder or aberrant cell trafficking of particular tau isoforms. Finally, recent findings provide a direct link between a genetic defect in tau and its abnormal aggregation into filaments in fronto-temporal dementia with Parkinsonism linked to chromosome 17, demonstrating that tau aggregation is sufficient for nerve cell degeneration. Thus, tau mutations and polymorphisms may also be instrumental in many neurodegenerative disorders.
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PMID:Comparative biochemistry of tau in progressive supranuclear palsy, corticobasal degeneration, FTDP-17 and Pick's disease. 1051 7

Hereditary frontotemporal dementia with Parkinsonism linked to chromosome 17 (FTDP-17) is associated with different mutations in the microtubule-associated protein (MAP) tau gene. Pathological changes consist of accumulation of hyperphosphorylated tau protein in frontal and temporal cortex, hippocampus, and some subcortical nuclei. We describe the neuropathological findings in five patients with P301L mutation, and in two affected sibs with R406W mutation. The P301L brains all showed a pretangle-type tauopathy of the frontal and temporal cortices. One of these patients, however, also showed an Alzheimer-type tauopathy with neurofibrillary tangles (NFT), neuritic plaques, and amyloid angiopathy of the temporoparietal cortex. Three tau bands (64, 68, and 72 kDa) were seen in the frontal cortex, while the temporal cortex revealed four bands (60, 64, 68, and 72 kDa), containing all six tau isoforms. The first R406W brain showed many NFT in affected regions with only a few diffuse amyloid plaques. The second R406W brain contained a much higher density of NFT in affected regions, and an extensive amyloid deposition consisting of both diffuse and neuritic plaques with dense cores. An intriguing question is whether the FTD and Alzheimer disease changes are concomitant, or whether there is an interaction between tau and amyloid pathology. An acceleration of NFT formation due to amyloid deposition has been observed in nondemented aging and preclinical AD. The question whether this mechanism occurs in FTD with tau mutations remains to be elucidated.
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PMID:Coexistent tau and amyloid pathology in hereditary frontotemporal dementia with tau mutations. 1119 39

Epidemiological studies show that postmenopausal women who undertake estrogen-replacement therapy have significantly lower risk for the onset of Alzheimer's disease (AD) than women who do not. Animal behavior studies have shown that ovariectomy results in the development of cognitive dysfunction that is prevented by estrogen-replacement, suggesting that normal mammalian cognitive function is impaired by estrogen reduction. Soy isoflavones in particular genistein have been demonstrated to have weak and selective estrogenic actions in various models of human chronic diseases. A hallmark of several human dementias including AD and fronto temporal dementia with Parkinsonism on chromosome 17 (FTDP-17) is the hyperphosphorylation of the microtubule-associated protein tau. Preliminary experiments are discussed here which show that isoflavones delivered in a soy protein matrix attenuated selected AD-relevant tau phosphorylations in a primate model of menopause. The rationale is discussed for the use of soy-based foods for protection against postmenopausal neurodegeneration.
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PMID:Attenuation of neurodegeneration-relevant modifications of brain proteins by dietary soy. 1121 92

Abundant neurofibrillary lesions made of the microtubule-associated protein tau constitute a defining neuropathological characteristic of Alzheimer's disease. Filamentous tau protein deposits are also the defining neuropathological characteristic of other neurodegenerative diseases, many of which are frontotemporal dementias or movement disorders, such as Pick's disease, progressive supranuclear palsy and corticobasal degeneration. It is well established that the distribution of tau pathology correlates with the presence of symptoms of disease. However, until recently, there was no genetic evidence linking dysfunction of tau protein to neurodegeneration and dementia. This has now changed with the discovery of close to 20 mutations in the tau gene in frontotemporal dementia with Parkinsonism linked to chromosome 17. All cases with tau mutations examined to date have shown an abundant filamentous tau pathology in brain cells. Pathological heterogeneity is determined to a large extent by the location of mutations in tau. Known mutations are either coding region or intronic mutations located close to the splice-donor site of the intron downstream of exon 10. Most coding region mutations produce a reduced ability of tau to interact with microtubules. Several of these mutations also promote sulphated glycosaminoglycan-induced assembly of tau into filaments. Intronic mutations and some coding region mutations produce increased splicing in of exon 10, resulting in an overexpression of four-repeat tau isoforms. Thus a normal ratio of three-repeat to four-repeat tau isoforms is essential for preventing the development of tau pathology. The new work has shown that dysfunction of tau protein can cause neurodegeneration and dementia.
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PMID:Tau gene mutations and neurodegeneration. 1144 40

The inherited form of frontotemporal dementia with Parkinsonism linked to chromosome 17 (FTDP-17) has been attributed to mutations in the tau gene. Pathologically, affected FTDP-17 brains share tau aggregates with other tauopathies, the most common being Alzheimer's disease. FTDP-17 mutations may therefore affect tau function leading to tau aggregation and cell loss. Interaction of tau with microtubules is thought to be regulated by phosphorylation. Investigating FTDP-17 mutations transiently expressed as enhanced green fluorescent protein (EGFP)-tagged proteins for the first time in differentiated neuronal cells, we found that two out of three missense mutations showed surprisingly decreased phosphorylation at the pathologically relevant S202/T205 site, mutant EGFP-tau being completely dephosphorylated in most cells. Moreover, phosphorylation at the S396/S404 site was moderately decreased for all mutant isoforms. Although microtubule integrity was not affected, with all mutants tested we demonstrated an increase in cellular tau protein level, some of which is microtubule-bound. Further enhancing this EGFP-tau accumulation by inhibition of tau degradation resulted in the previously less phosphorylated mutant EGFP-tau becoming highly phosphorylated. We conclude that the missense tau mutations primarily result in an excess of neuronal tau, which may interfere with important cellular functions such as axonal transport.
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PMID:Tau proteins with frontotemporal dementia-17 mutations have both altered expression levels and phosphorylation profiles in differentiated neuroblastoma cells. 1173 5

Three Mutations were recently reported in the same codon (N296) in exon 10 of the tau gene. Two of these mutations, N296N and N296H, lead to a clinical syndrome similar to autosomal dominant fronto-temporal dementia with Parkinsonism linked to chromosome 17. In contrast the third mutation, delN296, gives rise to atypical progressive supranuclear palsy in individuals homozygous for the mutation, but in heterozygous individuals this mutation is incompletely penetrant and associated with a phenotype similar to idiopathic Parkinson's disease. Functional assays were employed to determine the effects of these mutations on alternative splicing of exon 10, on microtubule assembly and self-aggregation of recombinant tau protein. We demonstrate that these mutations exhibit a spectrum of potentially pathogenic changes in tau function, and provide insight into the possible cause of the incompletely penetrant phenotype of the delN296 mutation.
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PMID:Effects on splicing and protein function of three mutations in codon N296 of tau in vitro. 1191 84

Filamentous tau-positive inclusions in neurons and glia are a unifying mechanism underlying a variety of late onset neurodegenerative disorders termed "tauopathies". Oligodendroglial lesions and white matter pathology have long been underestimated and are specifically prominent in frontotemporal dementias (FTDs), such as Pick's disease (PiD), progressive supranuclear palsy (PSP), corticobasal degeneration (CBD) and frontotemporal dementia with Parkinsonism linked to chromosome 17 (FTDP-17). Oligodendrocytes contain an extensive microtubule network and express the microtubule-associated protein tau. Tau-positive inclusion bodies in oligodendrocytes are positively stained with antibodies against ubiquitin and heat shock proteins (HSPs). Specifically the small HSP alphaB-crystallin has been identified in oligodendroglial lesions. HSPs act as molecular chaperones and prevent the accumulation of abnormal proteins, and support proteolytic degradation by targeting non-reparable proteins to the ubiquitin proteasomal pathway. HSPs and the proteasomal system closely work together. The present report summarizes recent data on HSP induction and aggregate formation in oligodendroglia cell culture systems, indicating that posttranslational modification of tau, HSP induction and alterations of the proteasomal system, which might occur during aging and disease processes, are involved in the neuropathological events leading to aggregate formation and degeneration.
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PMID:Tau-inclusion body formation in oligodendroglia: the role of stress proteins and proteasome inhibition. 1546 74

Progressive supranuclear palsy (PSP), corticobasal degeneration (CBD), sporadic multisystem tauopathy, and some forms of frontotemporal dementia with Parkinsonism linked to chromosome 17 are characterized by neuronal and glial lesions accumulating tau protein containing 4 conserved repeats in microtubule-binding domain (4R tau). Corticospinal tract degeneration is not a common feature of 4R tauopathies. Our objective was to describe 12 cases with pathologic features similar to those of PSP but with prominent corticospinal tract degeneration. We reviewed the historical records and neuropathologic evaluation using standardized sampling, immunohistochemistry, semiquantitative analysis, image analysis, and electron microscopy. The mean age at onset and illness duration was 71 and 5.7 years, respectively. Eight cases were female. Eleven cases had clinical evidence of prominent upper motor neuron disease plus extrapyramidal features. There was focal parasagittal cortical atrophy involving motor cortex and degeneration of corticospinal tract with sparing of lower motor neurons like in primary lateral sclerosis. Prominent tau pathology was found in oligodendrocytes in motor cortex, subjacent white matter, and corticospinal tract characterized by globular cytoplasmic filamentous inclusions that were immunoreactive for 4R tau. The clinicopathologic features of these 12 cases expand the spectrum of 4R tauopathies.
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PMID:Atypical progressive supranuclear palsy with corticospinal tract degeneration. 1669 Nov 20

The microtubule-associated protein tau is impacted in neurodegeneration and dementia through its deposition in the form of paired helical filaments in Alzheimer's disease neurofibrillary tangles and through mutations linking it to the autosomal dominant disorder frontotemporal dementia with Parkinsonism. When isolated in solution tau is intrinsically unstructured and does not fold, while the conformation of the protein in the microtubule-bound state remains uncharacterized. Here we show that the repeat region of tau, which has been reported both to mediate tau microtubule interactions and to constitute the proteolysis-resistant core of disease-associated tau aggregates, associates with lipid micelles and vesicles and folds into an ordered structure upon doing so. In addition to providing the first structural insights into a folded state of tau, our results support a role for lipid membranes in mediating tau function and tau pathology.
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PMID:Folding of the repeat domain of tau upon binding to lipid surfaces. 1690 29


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