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)

The initial report on APOE as a susceptibility gene for late-onset Alzheimer's disease was presented a little more than two years ago. During the past year, several significant events have given added impetus to research into Alzheimer's. The association of increased allele frequency of APOE4 with Alzheimer's disease has been reproduced in several dozen laboratories around the world. The protective effect of the APOE2 allele has been reported and also rapidly verified. No evidence exists to support the notion of linkage disequilibrium with any nearby locus on chromosome 19. The neuropathological demonstration of apolipoprotein E (apoE) within neuronal cytoplasm in a location suitable for proposed interaction with microtubule-associated protein tau and MAP2c has introduced a new view of neuronal neurobiology. As apoE is not known to be expressed in neurons, its relationship with cellular receptors, such as the low-density lipoprotein related receptor, and the mechanism of intracellular trafficking are now important research problems. The role of apoE as a metabolic co-factor in neuronal metabolism presents new possibilities for neuronal mechanisms of maintenance and response to stress.
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PMID:APOE is a major susceptibility gene for Alzheimer's disease. 776 50

Apolipoprotein E (apoE, protein; APOE, gene) is a susceptibility gene for late-onset familial and sporadic Alzheimer's disease (AD). To examine the role of apoE in the pathogenesis of AD, we used immunocytochemistry to compare apoE localization in the hippocampus of histologically confirmed cases of AD, Parkinson's disease (PD), and normal controls. We confirmed apoE immunoreactivity in astrocytes, senile plaques, blood vessels, and some neurons containing neurofibrillary tangles (NFTs). In addition, we observed apoE immunoreactivity in hippocampal neurons without NFTs in AD and PD patients as well as in some nondemented aged controls. In AD cases, apoE-immunoreactive neurites were closely associated with beta-amyloid (A beta) containing senile plaques and intraneuronal apoE was sometimes associated with immunoreactive tau protein accumulation. Thus, apoE is localized where it may affect the biological expression of two characteristic AD pathological correlates: extracellular A beta deposition and intraneuronal tau metabolism and NFT formation.
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PMID:Apolipoprotein E is present in hippocampal neurons without neurofibrillary tangles in Alzheimer's disease and in age-matched controls. 807 May 17

The concentration of tau protein is elevated in the cerebrospinal fluid (CSF) in Alzheimer's disease (AD), suggesting that CSF tau may be a useful biochemical diagnostic marker for this disorder. We investigated CSF tau concentrations on two occasions in AD (n = 18), mild cognitive impairment (MCI, n = 9) and other dementing disease (OD, n = 9) by ELISA (Innotest hTau Antigen, Innogenetics, Belgium). Tau levels were statistically significant higher in the AD group than in MCI and OD groups on both occasions. Twelve of the AD patients showed increasing values of tau at follow-up and six demonstrated diminished values. All AD patients with increasing tau were carriers of one or two epsilon 4 alleles of the apolipoprotein E (APOE, gene. Of those AD cases with decreasing tau levels only three individuals had the epsilon 4 allele, a difference that was statistically significant (P < 0.05). These findings suggest that there may be apolipoprotein E (apoE) isoform-specific differences of tau regulation in AD.
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PMID:Increasing cerebrospinal fluid tau levels in a subgroup of Alzheimer patients with apolipoprotein E allele epsilon 4 during 14 months follow-up. 887 9

Mutations in the tau protein gene have recently been found to cause familial fronto-temporal dementia in a number of kindreds demonstrating linkage to chromosome 17. Given that tau pathology is a hallmark of Alzheimer's disease (AD), this raises the possibility that mutations in tau may also be associated with AD. We have investigated the allelic frequencies of polymorphisms in the Tau gene for a possible allelic distortion in Alzheimer's cases, which might suggest a conferred genetic risk. We have genotyped 65 community-based and 200 clinic-based AD cases, and 142 community-based controls at the Tau exon 6 AflIII and BslI polymorphisms and find no independent association with risk for AD in these samples. Further analysis including APOE genotypes from the same samples demonstrated no interaction between either of these polymorphisms and APOE in conferring risk for AD. In addition, haplotype analysis across both sites revealed no difference in haplotype frequencies between cases and controls, nor any interaction with APOE. Therefore our data do not suggest any association between these variations in the Tau gene and Alzheimer's disease.
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PMID:No genetic association between polymorphisms in the Tau gene and Alzheimer's disease in clinic or population based samples. 1046 6

The finding that APOE (the gene encoding apolipoprotein E) polymorphic variation was associated with an altered risk of developing Alzheimer's disease (AD) was a significant advance and immediately prompted a search for the mechanisms responsible for this alteration. Some 6 years later, a number of different hypotheses remain that might account for this influence on pathogenesis with no single mechanism being unequivocally accepted. The different approaches to understanding these mechanisms can be broadly categorized as: those suggesting a remote effect, such as different rates of vascular risk factors in those with the different APOE alleles; those proposing altered neuronal vulnerability, perhaps due to apolipoprotein E (ApoE)-isoform-specific differences in local cholesterol transport; and those hypotheses postulating an ApoE interaction with the two key lesions of AD, plaques and tangles. In this chapter we will review the evidence for and against an interaction between ApoE and the neuronal cytoskeleton, in particular with the microtubule-associated protein tau.
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PMID:Apolipoprotein E gene and Alzheimer's disease: is tau the link? 1144 27

In this longitudinal study of 77 patients with mild cognitive impairment (MCI), the authors analyzed whether levels of tau protein phosphorylated at threonine 231 (p-tau(231)) in CSF correlate with progression of cognitive decline. High CSF p-tau(231) levels at baseline, but not total tau protein levels, correlated with cognitive decline and conversion from MCI to AD. Independently, old age and APOE-epsilon 4 carrier status were predictive as well. Our data indicate that an increased p-tau(231) level is a potential risk factor for cognitive decline in patients with MCI.
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PMID:CSF tau protein phosphorylated at threonine 231 correlates with cognitive decline in MCI subjects. 1219 65

Frontotemporal dementia (FTD) is a common neurodegenerative disorder and is connected with about 10% of all dementias. In approximately half of all FTD cases, a positive family history has been reported. To date, several mutations at the tau protein gene (MAPT) were identified causing familial and sporadic FTD. Extensive polymorphic variability at the MAPT gene has also been shown to be a risk factor in progressive supranuclear palsy (PSP). The recently described gene Saitohin (STH), located in the intron 9 of MAPT gene, was also reported to be polymorphic. In the present study 23 unrelated Polish patients with clinically defined sporadic and familial FTD were screened for mutations at the MAPT gene. No pathogenic mutations were found in the group. Several novel silent intronic and exonic mutations were identified, most of them associated with two common haplotypes. In the reported group no correlation between extended MAPT haplotype and APOE genotype was determined. There was also no observed relation between age of onset and APOE status. At the STH gene only a common polymorphic change was found. It is postulated that MAPT mutations are not connected with most of the FTD cases in the Polish population.
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PMID:Mutation screening of the MAPT and STH genes in Polish patients with clinically diagnosed frontotemporal dementia. 1282 37

Linkage studies have identified a large (>60-Mb) region on chromosome 10q that segregates with Alzheimer Disease (AD). Within the region, the gene for insulin degrading enzyme (IDE) represents a notable biological candidate given that it degrades amyloid beta-protein (one of the major constituents of senile plaques) and the intracellular amyloid precursor protein (APP) domain released by gamma-secretase processing. We have used a single nucleotide polymorphism (SNP) genetic association strategy to investigate AD in relation to a 480-kb region encompassing IDE. A 276-kb linkage disequilibrium block was revealed that spans three genes (IDE, KNSL1, and HHEX). Assessing this block in several independent sets of case-control materials (early- and late-onset AD) and focusing also upon quantitative measures that are pertinent to AD diagnosis and severity (MMSE scores, microtubule-associated protein Tau [MAPT] levels in CSF, degree of brain pathology, and age-at-onset) produced extensive evidence for significant AD association. Signals (p-values ranging from 0.05 to <1x10(-9)) were generally stronger when examining haplotypes rather than individual SNPs, and quantitative trait tests most uniformly revealed the detected associations. Consistent risk alleles and haplotypes were apparent across the study, with effects in some cases as large as that of the epsilon4 allele of APOE. A subsequent mutation screen of exons in all three suspect genes provided no evidence for common causative mutations. These results provide substantial evidence that genetic variation within or extremely close to IDE impacts both disease risk and traits related to the severity of AD.
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PMID:Genetic variation in a haplotype block spanning IDE influences Alzheimer disease. 1451 47

Recent studies have suggested that variants of CYP46A1, encoding cholesterol 24-hydroxylase (CYP46), confer risk for Alzheimer's disease (AD), a prospect substantiated by evidence of genetic association from several quantitative traits related to AD pathology, including cerebrospinal fluid (CSF) levels of the 42 amino-acid cleavage product of beta-amyloid (Abeta42) and the tau protein. In the present study, these claims have been explored by the genotyping of previously associated markers in CYP46A1 in three independent northern European case-control series encompassing 1323 individuals and including approximately 400 patients with measurements of CSF Abeta42 and phospho-tau protein levels. Tests of association in case-control models revealed limited evidence that CYP46A1 variants contributed to AD risk across these samples. However, models testing for potential effects upon CSF measures suggested a possible interaction of an intronic marker (rs754203) with age and APOE genotype. In stratified analyses, significant effects were evident that were restricted to elderly APOE epsilon4 carriers for both CSF Abeta42 ( P=0.0009) and phospho-tau ( P=0.046). Computational analyses indicate that the rs754203 marker probably does not impact the binding of regulatory factors, suggesting that other polymorphic sites underlie the observed associations. Our results provide an important independent replication of previous findings, supporting the existence of CYP46A1 sequence variants that contribute to variability in beta-amyloid metabolism.
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PMID:Variants of CYP46A1 may interact with age and APOE to influence CSF Abeta42 levels in Alzheimer's disease. 1503 81

Alzheimer's disease (AD) and dementia with vascular component (DVC) are the most prevalent forms of dementia. Both clinical entities share many similarities, but they differ in major phenotypic and genotypic profiles as revealed by structural and functional genomics studies. Comparative phenotypic studies have identified significant differences in 25% of more than 100 parametric variables, including anthropometry, cardiovascular function, aortic atherosclerosis, brain atrophy, blood pressure, blood biochemistry, hematology, thyroid function, folate and vitamin B12 levels, brain hemodynamics and lymphocyte markers. The phenotypic profile of patients with DVC differs from that of AD patients in the following: anthropometric values (weight, height); cardiovascular function (ECG, heart rate); blood pressure; lipid metabolism (HDL-CHO, TGs); uric acid metabolism; peripheral calcium homeostasis; liver function (GOT, GPT, GGT); alkaline phosphatase; lactate dehydrogenase; red and white blood cells; regional brain atrophy (left temporal region, inter-hippocampal distance); and left anterior blood flow velocity. Functional genomics studies incorporating APOE-related changes in biological markers extended the difference between AD and DVC up to 57%. Brain perfusion studies show a severe brain hypoperfusion in dementia associated with enlarged age-dependent arterial perfusion times. Structural genomics studies with AD-related genes, including APP, MAPT, APOE, PS1, PS2, A2M, ACE, AGT, cFOS and PRNP genes, demonstrate different genetic profiles in AD and DVC, with an absolute genetic variation rate ranging from 30% to 80%, depending upon genes and genetic clusters. Single gene analysis identifies relative genetic variations ranging from 0% to 5%. The relative polymorphic variation in genetic clusters integrated by two, three or four genes associated with AD ranges from 1% to 3%. The main phenotypic differences between AD and DVC are genotype-dependent, especially in AD, probably indicating that different genomic factors are determinant for the expression of dementia symptoms which might be accelerated or induced by environmental and/or cerebrovascular factors.
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PMID:Phenotypic profiles and functional genomics in Alzheimer's disease and in dementia with a vascular component. 1526 64


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