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)

Advanced glycation end products (AGEs) have been implicated in the chronic complications of diabetes mellitus and have been reported to play an important role in the pathogenesis of Alzheimer's disease. In this study, we examined the immunohistochemical localization of AGEs, amyloid beta protein (A beta), apolipoprotein E (ApoE), and tau protein in senile plaques, neurofibrillary tangles (NFTs), and cerebral amyloid angiopathy (CAA) in Alzheimer's disease and other neurodegenerative diseases (progressive supranuclear palsy, Pick's disease, and Guamanian amyotrophic lateral sclerosis/Parkinsonism-dementia complex). In most senile plaques (including diffuse plaques) and CAA from Alzheimer's brains, AGE and ApoE were observed together. However, approximately 5% of plaques were AGE positive but A beta negative, and the vessels without CAA often showed AGE immunoreactivity. In Alzheimer's disease, AGEs were mainly present in intracellular NFTs, whereas ApoE was mainly present in extracellular NFTs. Pick's bodies in Pick's disease and granulovacuolar degeneration in various neurodegenerative diseases were also AGE positive. In non-Alzheimer neurodegenerative diseases, senile plaques and NFTs showed similar findings to those in Alzheimer's disease. These results suggest that AGE may contribute to eventual neuronal dysfunction and death as an important factor in the progression of various neurodegenerative diseases, including Alzheimer's disease.
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PMID:Advanced glycation end products in Alzheimer's disease and other neurodegenerative diseases. 977 46

Senile dementia is one of the most important health problems in developed countries. The main disease causing dementia is Alzheimer's disease that is characterized by the progressive deterioration of the cholinergic system, beta-amyloid production and deposition, and neurofibrillary tangle formation. Most of the reviewed data, along with data from experiments performed in our laboratory, suggest that there are no changes in the number of muscarinic receptors between Alzheimer and control brains, although the receptors expressed in Alzheimer's disease brains can be anomalous in their function. The muscarinic receptor-G-protein interaction also seems to be impaired in Alzheimer's disease compared with control brains, as well as the G-protein system, with an important decrease in the function of the Gq/11, the most important G-protein stimulating phosphoinositide hydrolysis in human brain; in addition, the second messenger system is also impaired, with a decrease in the synthesis of phosphoinositides and in the number of IP3 receptors. Muscarinic cholinergic receptors are also linked to beta-amyloid production, stimulation of the M1 subtype with agonists results in the processing of the beta-amyloid precursor protein to non-amyloidogenic products and administration of a fraction of the beta-amyloid (beta-amyloid 25-35) to rats, results in a decrease in the number of muscarinic receptors in brain. M1 agonists also decrease the phosphorylation of tau proteins, playing again a modulatory role in the pathogenesis of Alzheimer's disease. The existence of a link between beta-amyloid and tau proteins also has been reported; treatment of hippocampal neurones with beta-amyloid, or the 25-35 residue fragment, resulted in an increase in tau protein phosphorylation. The particular contribution of muscarinic receptors, beta-amyloid and tau proteins in the pathogenesis of Alzheimer's disease remains still unclear. Probably Alzheimer's disease could be due to a progressive degeneration in the relationship between the three components covered in this review.
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PMID:Alzheimer's disease: relationship between muscarinic cholinergic receptors, beta-amyloid and tau proteins. 979 44

The diagnosis, genetics, risk factors, neuropathology, and pathogenesis of Alzheimer's disease (AD) are discussed. AD is a degenerative brain disorder and is the leading cause of dementia. Clinical manifestations of AD are primarily the progressive loss of memory and language. Other signs and symptoms of the disease include psychiatric and behavioral disturbances and impairments in the performance of activities of daily living (ADL). To diagnose AD, other causes of dementia-- some of which may be reversible--must be ruled out by laboratory testing and neuroimaging. The pathogenic process that causes AD has not been fully delineated; however, it clearly leads to neuropathology characterized by neuritic plaques, neurofibrillary tangles, and loss of cholinergic neurons in the nucleus basalis of Meynert. Genetic factors, including mutations in the amyloid precursor protein and the two presenilin genes, appear important in the development of early-onset familial AD, whereas the apolipoprotein E genotype influences the timing of disease onset after age 65. Genetic factors may promote or accelerate deposition of beta-amyloid protein to form plaques, as well as abnormal phosphorylation of tau protein to form neurofibrillary tangles. Several biochemical factors, such as inflammation, oxidative stress, and hormonal deficiency (estrogen), and other unmodifiable risk factors, notably aging, also play a role in the pathogenic process. The loss of neurons and synaptic connections is selective and causes deficiencies in cholinergic and other neurotransmitter systems, leading to cognitive dysfunction, psychiatric and behavioral disturbances, and eventual loss of ability to perform ADL. The etiology and pathogenesis of AD are highly complex; more effective therapeutic approaches than those currently available will be needed to address these underlying factors more specifically.
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PMID:Etiology and pathogenesis of Alzheimer's disease. 980 5

Different mutations in the microtubule-associated tau protein gene have recently been identified in several families with hereditary frontotemporal dementia and Parkinsonism (FTDP-17) linked to chromosome 17q21-22. Some families show neuronal and glial deposits containing hyperphosphorylated tau in several brain regions. We have investigated the presence of tau deposits by using a panel of anti-tau antibodies in three brains of a family with the P301L mutation (HFTD1) and in another family with the G272V mutation (HFTD2) of the tau gene. Numerous intracytoplasmic tau deposits in neurons, glial cells, and neurites were found in hippocampal formation, neocortex, and substantia nigra. These deposits in three patients from HFTD1 consisted of slender twisted filaments 15 nm wide with variable periodicity and a few straight filaments. Tau extracted from these filaments appeared as two major bands of 64 and 68 kd and a minor band of 72 kd that, after alkaline phosphatase treatment, proved to consist mainly of 4-repeat tau isoforms and one of the 3-repeat isoforms. In three patients from HFTD2 numerous Pick-like bodies were present. The conclusion is that the type and distribution of tau deposits in HFTD1 and HFTD2, the physical structure of filaments, and tau isoform composition in HFTD1 differ from Alzheimer's disease and an FTDP-17 family with a V337M mutation in the tau gene.
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PMID:Tau pathology in two Dutch families with mutations in the microtubule-binding region of tau. 981 25

Recent work has shown that abnormal filamentous inclusions within some nerve cells is a characteristic shared by Alzheimer's disease, some frontotemporal dementias, Parkinson's disease, dementia with Lewy bodies, multiple system atrophy, as well as Huntington's disease and other trinucleotide repeat disorders. This suggests that in each of these disorders, the affected nerve cells degenerate as a result of these abnormal inclusions. Except for trinucleotide repeat disorders, the filaments involved have been shown to consist of either the microtubule-associated protein tau or alpha-synuclein. Over the past year, mutations in the genes for tau and alpha-synuclein have been identified as the genetic causes of some familial forms of frontotemporal dementia and Parkinson's disease, respectively. The discovery last year of neuronal intranuclear inclusions in Huntington's disease and other disorders with expanded glutamine repeats has suggested a unifying mechanism underlying the pathogenesis of this class of neurodegenerative diseases.
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PMID:Filamentous nerve cell inclusions in neurodegenerative diseases. 981 17

Recently exonic and intronic mutations in the gene for microtubule-associated protein tau have been discovered in cases of familial frontotemporal dementia and parkinsonism linked to chromosome 17 (FTDP-17). Intronic mutations have been shown to lead to an abnormal preponderance of four-repeat tau isoforms. The effects of the exonic mutations are unknown. We report here that the G272V, P301L, V337M and R406W mutations lead to a marked reduction in the ability of tau to promote microtubule assembly. This partial loss-of-function may be the primary effect of the known missense mutations in tau.
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PMID:Tau proteins with FTDP-17 mutations have a reduced ability to promote microtubule assembly. 982 91

Skeins or skein-like inclusions (SLIs) in motor neurons detected by ubiquitin immunohistochemistry are a characteristic finding of amyotrophic lateral sclerosis (ALS). Here we report ubiquitinated SLIs in the putamen and caudate nucleus from a case of ALS with dementia. A 48-year-old Japanese man developed apathy and amimia. Mental and neurological examinations revealed severe character change, muscle atrophy and fasciculation of the distal upper extremities and the tongue, and an exaggeration of the deep tendon reflex. He subsequently showed dysphagia and dysarthria. He died at the age of 51 years, after a total clinical course of about 2.5 years. By immunohistochemistry, ubiquitin-immunoreactive intraneuronal inclusions were observed in the spinal anterior horn cells, the frontal, temporal and entorhinal cortices, dentate fascia of the hippocampus and the amygdala. In addition, ubiquitinated inclusions were also seen in the putamen and caudate nucleus, which appeared as aggregates of thread-like structures similar to SLIs in the spinal anterior horn neurons. They were not seen on hematoxylin-eosin staining, and they also did not show any argentophilia nor did they react with other antibodies, including antibody against tau protein. To our knowledge, this is the first report of the presence of SLIs in non-motor neurons. Our results thus support the notion that ALS is a multisystem disease, and not simply a disease of the motor neurons.
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PMID:Skein-like inclusions in the neostriatum from a case of amyotrophic lateral sclerosis with dementia. 982 21

The main lesions of Alzheimer's disease are: 1. amyloid deposits, labelled by antibodies directed against the A beta peptide (core of the senile plaques, diffuse deposits and amyloid angiopathy), 2. neurofibrillary lesions labelled by anti-tau antibodies (neurofibrillary tangles, neuropil threads, crown of the senile plaques) and 3. loss of neurons and synapses. The distribution of neurofibrillary pathology is hierarchical: they begin in the entorhinal cortex, progress along the anterograde corticocortical pathways toward the multimodal and unimodal associative cortices to reach, in the most severe cases, the primary cortices. Amyloid lesions are more diffuse, rapidly affecting all the cortical areas. The density of neurofibrillary tangles in the cerebral cortex is correlated with the severity of dementia. Neuritic plaques, synaptic and neuronal loss also contribute to the intellectual deterioration. There are various causes of Alzheimer's disease (several mutations, trisomy 21, repeated head trauma as in dementia pugilistica): it should be considered a syndrome. Its pathophysiology is complex and involves several proteins (e.g. amyloid protein precursor, tau protein, presenilins 1 and 2, and apolipoprotein E).
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PMID:[Brain lesions, pathogenic and etiologic hypotheses of Alzheimer's disease]. 985 88

The concentration of tau protein in cerebrospinal fluid (CSF) was determined in 40 patients with clinically diagnosed probable Alzheimer disease (AD) and in 36 cognitively healthy controls. A significant increase of CSF tau was found in the AD patients, even in 19 subjects with very mild dementia as defined by a Mini-Mental State Examination score of 25 and above. Using a cutoff value of 260 pg/mL the sensitivity of elevated tau was 0.89, the specificity was 0.97, and the proportion of correctly allocated cases was 95%. In the AD groups there were no significant associations between CSF tau level and age, age at onset, duration of illness, apolipoprotein E genotype, severity of cognitive impairment, or deficit in regional cerebral blood flow as measured using 99Tm-ethyl cystein dimer single photon emission computed tomography. The findings demonstrate that CSF tau is significantly increased at the earliest clinical stage of AD and shows only minimal overlap with age-matched cognitively healthy controls. This finding suggests that CSF tau could be a biological marker of AD even before dementia has developed.
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PMID:Tau protein in cerebrospinal fluid is significantly increased at the earliest clinical stage of Alzheimer disease. 987 68

As in Alzheimer's disease, brains of Guam Chamorros with amyotrophic lateral sclerosis (ALS) and Parkinsonism-dementia complex (PDC) contain intraneuronal-paired helical filaments composed of accumulated phosphorylated tau protein. Tau mRNA expression in rat neuronal cultures-normally modulated by glutamate-increases after treatment with the aglycone of cycasin, a cycad-derived toxin whose concentration in Chamorro food varies with disease incidence. Elevated Tau gene expression in vitro is coincident with increased cycasin-related DNA adducts and reduced DNA repair. Cycasin and endogenous glutamate may together promote the accumulation of tau protein and neuronal degeneration in Western Pacific ALS/PDC.
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PMID:The Guam cycad toxin methylazoxymethanol damages neuronal DNA and modulates tau mRNA expression and excitotoxicity. 991


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