UNIPROT:P10636 - FACTA Search

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 investigated the correlation between the apolipoprotein E varepsilon4 allele (apoE epsilon4) carrier status, a major risk factor of Alzheimer's disease (AD), and levels of tau protein phosphorylated at threonine 231 (P-tau(231P)) in cerebrospinal fluid (CSF) in predementia and clinical stages of AD and healthy controls (HC). Thirty-one subjects with mild cognitive impairment (MCI) who had converted to AD during follow-up were included, as well as 71 AD patients, and 29 HC subjects. In MCI, but not in AD and HC, CSF P-tau(231P) levels were significantly higher in apoE epsilon4 carriers compared to non-carriers (p<0.001). Controlling for disease duration, the apoE epsilon4 effect on P-tau(231P) remained significant. Our study indicates that the apoE epsilon4 carrier status should be considered when CSF P-tau(231P) is evaluated as biomarker candidate of AD in MCI subjects.
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PMID:Increased levels of CSF phosphorylated tau in apolipoprotein E epsilon4 carriers with mild cognitive impairment. 1616 72

This is a comprehensive paper in three parts covering history, prevalence, clinical forms, differential diagnosis, genetics, molecular pathomechanism, pathology, clinical diagnosis and treatment of frontotemporal dementia (FTD). The second part focuses on the differential diagnosis, genetics, molecular pathomechanism and pathology. The clinical diagnosis of frontotemporal dementia is based on the presence of a prominent disturbance of the executive function and of frontal lobe syndrome or a progressive aphasic syndrome without severe global cognitive impairment. Of other dementias, it is primarily Alzheimer's disease that it should be differentiated from, but other psychiatric disorders must also be ruled out. The disease has familial and sporadic forms. Recent identification of mutations in the gene encoding the microtubule-associated tau protein in the inherited frontotemporal dementia and parkinsonism linked to chromosome 17 (FTDP-17) has demonstrated that various tau dysfunctions can lead to neurodegeneration. Tau gene mutations have varied effects on the biology and function of the protein. This heterogeneous pathomechanism explains the wide range of clinical and neuropathological features observed in the FTDP-17. Tau and ubiquitin antibodies can be detected by sensitive immunohistochemical methods. The diagnosis of FTD should be based on neuropathological examination, and this is also the only method by which it can be definitely differentiated from other types of dementias.
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PMID:Frontotemporal dementia--Part II. Differential diagnosis, genetics, molecular pathomechanism and pathology. 1617 70

Cerebrovascular diseases can causes cognitive impairment and dementia by loss of neurons and synaptic connections, destruction of axons, and demyelinization. Biological markers including genetic tests, brain imaging techniques, and biochemical assays in the CSF are valuable for the identification and quantification of cerebrovascular diseases. Genetic tests may be used to detect mutations that cause hereditary cerebral amyloid angiopathies or cerebral autosomal dominant arteriopathy with subcortical infarcts and leukoencephalopathy (CADASIL). Structural CT and MR imaging is routinely used to visualize and quantify infarcts and white-matter changes. Functional SPET and PET imaging can demonstrate focal and remote effects of vascular lesions on cerebral blood flow and metabolism. Biochemical imaging using proton MRS is a nonspecific marker for neuronal and axonal damage. Among biochemical markers in the CSF, tau protein, phospho-tau, and beta amyloid protein are helpful to differentiate vascular dementia from Alzheimer's disease.
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PMID:Potential biological markers for cerebrovascular disease. 1619 Dec 23

This study presents 5-year follow-up data on NG, a woman with adult onset myotonic dystrophy and progressive cognitive decline who was first described by Wilson et al. The extent of the cognitive impairment is atypical of symptom-onset in adulthood and of paternal inheritance, both of which apply to this case. Together, the present and earlier studies report the results of regular neuropsychological assessments over a 16-year period. Severe impairment in executive functioning, episodic and semantic memory were apparent early in the history, while visuospatial skills and working memory were only mildly impaired after 16 years of follow-up. There was also a progressive dyslexia, initially characterized by the regularization errors typical of surface dyslexia, but subsequently dominated by visual/phonological reading errors. This pattern of impairment is not typical of myotonic dystrophy but resembles semantic dementia. Whilst the deficits may be attributable wholly to myotonic dystrophy pathology, the co-existence of a form of semantic dementia is also possible. It is noted that the aggregation of tau protein is a neuropathological feature common to both diseases.
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PMID:A 5-year follow-up study of an atypical case of myotonic dystrophy. 1628 37

Alzheimer disease (AD), an age-related neurodegenerative disorder with progressive loss of memory and deterioration of comprehensive cognition, is characterized by extracellular senile plaques of aggregated beta-amyloid (Abeta), and intracellular neurofibrillary tangles that contain hyperphosphorylated tau protein. Recent studies showed that melatonin, an indoleamine secreted by the pineal gland, may play an important role in aging and AD as an antioxidant and neuroprotector. Melatonin decreases during aging and patients with AD have a more profound reduction in this hormone. Data from clinical trials indicate that melatonin supplementation improves sleep, ameliorates sundowning, and slows down the progression of cognitive impairment in Alzheimer patients. Melatonin efficiently protects neuronal cells from Abeta-mediated toxicity via antioxidant and anti-amyloid properties: it not only inhibits Abeta generation, but also arrests the formation of amyloid fibrils by a structure-dependent interaction with Abeta. Our recent studies have demonstrated that melatonin efficiently attenuates Alzheimer-like tau hyperphosphorylation. Although the exact mechanism is still not fully understood, a direct regulatory influence of melatonin on the activities of protein kinases and protein phosphatases is proposed. Additionally, melatonin also plays a role in protecting cholinergic neurons and in anti-inflammation. Here, the neuroprotective effects of melatonin and the underlying mechanisms by which it exerts its effects are reviewed. The capacity of melatonin to prevent or ameliorate tau and Abeta pathology further enhances its potential in the prevention or treatment of AD.
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PMID:Role of melatonin in Alzheimer-like neurodegeneration. 1636 9

Neurofibrillary tangles are brain lesions that have been discovered at the beginning of the 20th century, using histological silver staining. Tangles are intra-neuronal hallmarks of a degenerating process: neurofibrillary degeneration (NFD). The basic component involved in tangle formation is tau protein. Tangles are found in more than 20 different neurodegenerative disorders, suggesting that NFD is a unique consequence to different types of etiological factors. However, tangles have a morphological and biochemical signature which is disease-specific. They are made up of different types of filaments such as paired helical filaments (PHFs) in Alzheimer's disease or straight filaments in progressive supranuclear palsy. Tau aggregates have a disease-specific biochemical bar-code due to the aggregation of specific sets of tau isoforms. Tau lesions have also a disease-specific pattern of spatio-temporal progression in the human brain which is well correlated to cognitive impairment. At last, pathological tau mutations are at the origin of familial fronto-temporal diseases with parkinsonism (FTDP-17). Together, these observations have generated the concept of tauopathies. Indeed, each tauopathy is defined by a combination of clinical, neuropathological, biochemical and genetic features. Most of them have a specific defect on tau (mutation, aberrant splicing, abnormal phosphorylation, abnormal processing, neuronal or genotypic vulnerability), suggesting that, in fact, the etiology of most tauopathies is directly linked to tau dysfunction. In conclusion, we observe that most dementing disorders are tauopathies and that most demented patients have a tauopathy.
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PMID:Tauopathies: recent insights into old diseases. 1641 89

The two hallmark lesions of Alzheimer's disease (AD) are extracellular amyloid plaques, mainly formed by a small peptide called amyloid-beta (Abeta), and neurofibrillary tangles, which are intracellular inclusions formed by aggregates of hyperphosphorylated tau protein. One of the major neurochemical features of AD is the marked reduction of nicotinic acetylcholine receptors in disease-relevant brain regions such as the cerebral cortex and hippocampus. This loss is further compounded by the loss of cholinergic cells, which contributes to the cognitive dysfunction. This observation has had a major impact on therapeutic treatments, as efforts to restore cholinergic function such as the administration of acetylcholinesterase inhibitors have been, until recently, the major treatment options available for AD. Understanding the relationship of these hallmark lesions with the plethora of other changes that occur in the AD brain has proven to be a difficult challenge to resolve. The utilization of transgenic mouse models, that recapitulate one or more neuropathological and neurochemical features of the AD brain is providing some inroads, as they offer a means to gain mechanistic insights into the disease process in an in vivo setting. In this review, we consider the role of nicotinic acetylcholine receptors in transgenic models and in AD.
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PMID:The role of nicotinic acetylcholine receptors in Alzheimer's disease. 1644 8

Proteolytic processing and phosphorylation of amyloid precursor protein (APP), and hyperphosphorylation of tau protein, have been shown to be increased in Alzheimer's disease (AD) brains, leading to increased production of beta-amyloid (Abeta) peptides and neurofibrillary tangles, respectively. These observations suggest that phosphorylation events are critical to the understanding of the pathogenesis and treatment of this devastating disease. Pin-1, one of the peptidyl-prolyl isomerases (PPIase), catalyzes the isomerization of the peptide bond between pSer/Thr-Pro in proteins, thereby regulating their biological functions which include protein assembly, folding, intracellular transport, intracellular signaling, transcription, cell cycle progression and apoptosis. A number of previous studies have shown that Pin1 is co-localized with phosphorylated tau in AD brain, and shows an inverse relationship to the expression of tau. Pin1 protects neurons under in vitro conditions. Moreover, recent studies demonstrate that APP is a target for Pin1 and thus, in Abeta production. Furthermore, Pin1 was found to be oxidatively modified and to have reduced activity in the hippocampus in mild cognitive impairment (MCI) and AD. Because of the diverse functions of Pin1, and the discovery that this protein is one of the oxidized proteins common to both MCI and AD brain, the question arises as to whether Pin1 is one of the driving forces for the initiation or progression of AD pathogenesis, finally leading to neurodegeneration and neuronal apoptosis. In the present review, we discuss the role of Pin1 with respect to Alzheimer's disease.
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PMID:Pin1 in Alzheimer's disease. 1694

Standard markers in cerebrospinal fluid (CSF), as soluble amyloid beta 1-42 (Abeta1-42) and total tau protein (t-tau), may contribute to dementia subtypes diagnostic accuracy. Yet, their sensitivity to assess the different degree of cognitive deficit is not fully clarified. Our study analyses Abeta1-42 and t-tau CSF levels in different cohorts of Alzheimer's disease (AD) patients, distinguished as early AD (mild cognitively impaired subjects recently converted to AD), mild AD (MMSE<23; > or =18), and moderately advanced AD (MMSE<18). The control group was represented by age-matched patients affected by depressive pseudo-dementia. Reduced Abeta1-42 and increased t-tau CSF levels were confirmed as hallmarks of AD at any disease stage. In early AD patients, Abeta1-42 levels were already significantly low, if compared to the control group (336 vs 867 ng/L; p<0.0001). On the contrary, Abeta1-42 levels did not differ between AD subgroups, and in particular between mild to moderate AD. A significant progressive increase of t-tau concentration was found when comparing early AD (269 ng/L) to more advanced AD stages (468 ng/L and 495 ng/L for mild and moderate AD, respectively). Our findings confirm that the impairment of amyloidogenic cascade is an early, even pre-clinical process, but suggest that soluble Abeta1-42 concentration has a negligible correlation with the clinical progression. Conversely, t-tau concentration correlates with the transition towards marked cognitive impairment.
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PMID:CSF markers in Alzheimer disease patients are not related to the different degree of cognitive impairment. 1709 9

Alzheimer's disease (AD) is a common neurodegenerative disorder that presents clinically as inexorable cognitive impairment and decline in performance of activities of daily living. AD is characterized pathologically by neuronal depopulation, extracellular amyloid plaques, and intraneuronal accumulation of neurofibrillary tangles (NFTs). Accumulation of these polypeptide aggregates is generally believed to be integral to the pathogenesis of AD. Recent evidence implicates the protein kinase glycogen synthase kinase 3 (GSK-3) in the regulation of both of these processes. GSK-3 has long been studied as one of several tau protein kinases, and has more recently been shown to be involved in the generation of Abeta peptides. GSK-3 activity may also promote cell death and conversely, inhibition of GSK-3 has been associated with increased cell survival under a variety of cytotoxic conditions. Thus drugs that target GSK-3 could attack AD pathogenesis on multiple fronts simultaneously. Here we will briefly review the molecular understanding of AD pathogenesis as it stands at this point, and then discuss the emerging role of GSK-3 in regulating these processes.
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PMID:Multiple roles for glycogen synthase kinase-3 as a drug target in Alzheimer's disease. 1710 May 79

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