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)

Alzheimer's disease (AD) is the most common cause of dementia in developed countries. AD is characterized pathologically by the presence of senile plaques and neurofibrillary tangles (NFTs), the major constituents of which are amyloid beta protein (A beta) and tau protein, respectively. Based on the disease pathology, numerous blood and cerebrospinal fluid (CSF) tests have been proposed for early detection of AD. However, there is no definite clinical method to determine in which patients with mild cognitive impairment will progress to AD with dementia. Therefore, to develop a novel promising biomarker for early diagnosis of AD is urgently needed. Several epidemiological studies have reported moderately increased risks for AD in diabetic patients compared with general population. In diabetes mellitus, the formation and accumulation of advanced glycation end-products (AGEs), senescent macroprotein derivatives, progress more rapidly. In addition, recent understanding of this process has confirmed that AGEs-their receptor (RAGE) interactions may play a role in the pathogenesis of neurodegenerative disorders including AD. In human AD brains, AGEs are distributed in the cytosol of neurons in the hippocampus and para-hippocampal gyrus. In this paper, we discuss the pathophysiological role for toxic AGEs (TAGE) in AD. We further review here the possibility that serum or cerebrospinal fluid levels of TAGE could become a promising biomarker for early detection of AD.
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PMID:Diagnostic utility of serum or cerebrospinal fluid levels of toxic advanced glycation end-products (TAGE) in early detection of Alzheimer's disease. 1788 85

We report, for the first time, how intraspinal carcinoma metastasis can cause reversible dementia accompanied by distinct cerebrospinal fluid (CSF) alterations. A 73-year-old male patient who suffered from rapidly progressive dementia and gait disturbance showed marked abnormalities of CSF tau protein, amyloid beta(1-42), and prostate-specific antigen. A lumbosacral, intraspinal metastasis from a prostate carcinoma was found, and after microsurgical removal, CSF alterations normalized and the clinical symptoms regressed. This case illustrates how malignant tumors can disturb brain function via indirect mechanisms.
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PMID:Reversible dementia and corresponding CSF alterations due to intraspinal lumbosacral metastasis of a prostate carcinoma. 1790 11

A high-fat diet has been shown to significantly increase the risk of the development of Alzheimer's disease (AD), a neurodegenerative disease histochemically characterized by the accumulation of amyloid beta (Abeta) protein in senile plaques and hyperphosphorylated tau in neurofibrillary tangles. Previously, we have shown that saturated free fatty acids (FFAs), palmitic and stearic acids, caused increased amyloidogenesis and tau hyperphosphorylaion in primary rat cortical neurons. These FFA-induced effects observed in neurons were found to be mediated by astroglial FFA metabolism. Therefore, in the present study we investigated the basic mechanism relating astroglial FFA metabolism and AD-like changes observed in neurons. We found that palmitic acid significantly increased de-novo synthesis of ceramide in astroglia, which in turn was involved in inducing both increased production of the Abeta protein and hyperphosphorylation of the tau protein. Increased amyloidogenesis and hyperphoshorylation of tau lead to formation of the two most important pathophysiological characteristics associated with AD, Abeta or senile plaques and neurofibrillary tangles, respectively. In addition to these pathophysiological changes, AD is also characterized by certain metabolic changes; abnormal cerebral glucose metabolism is one of the distinct characteristics of AD. In this context, we found that palmitic acid significantly decreased the levels of astroglial glucose transporter (GLUT1) and down-regulated glucose uptake and lactate release by astroglia. Our present data establish an underlying mechanism by which saturated fatty acids induce AD-associated pathophysiological as well as metabolic changes, placing 'astroglial fatty acid metabolism' at the center of the pathogenic cascade in AD.
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PMID:Involvement of astroglial ceramide in palmitic acid-induced Alzheimer-like changes in primary neurons. 1790 74

The precise pathological events that cause cognitive deficits in Alzheimer's disease remain to be determined. The most widely held view is that accumulation of amyloid beta peptide initiates the disease process; however, with more than eighteen amyloid-based therapeutic candidates currently in clinical trials, the targeting of amyloid alone may not be sufficient to improve functional deficits over the course of the disease. Alternative targets, such as the tau protein and apolipoprotein E, have thus been increasingly investigated, and in the future, therapeutic strategies will likely address events that are upstream of a more broadly construed pathological cascade that includes but is not limited to the generation and accumulation of amyloid beta. Consideration of such events provides the basis for an "indirect amyloid hypothesis," for which data are beginning to emerge. Although it is clinically defined by simple post-mortem criteria, Alzheimer's disease likely has a complex etiology, and effective treatments for this disease will become ever more urgent as the world's population ages.
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PMID:Beyond amyloid: the next generation of Alzheimer's disease therapeutics. 1793 15

Prevention of Alzheimer disease (AD) is a national and global imperative. Therapy is optimally initiated when individuals are asymptomatic or exhibit mild cognitive impairment (MCI). Development of therapeutically beneficial compounds requires the creation of clinical trial methodologies for primary and secondary prevention. Populations in primary prevention trials selected only on the basis of age will have low rates of emergent MCI or AD. Epidemiologically based risk factors or biomarkers can be used to enrich trials and increase the likelihood of disease occurrence during the trial. Enrichment strategies for clinical trials with MCI include use of biomarkers such as amyloid imaging, MRI with demonstration of medial temporal lobe atrophy, bilateral parietal hypometabolism on PET, and reduced amyloid beta peptide and increased tau protein in CSF. Neuropsychological measures appropriate for trials of MCI may not be identical to those measures most suited for AD trials. Attention to these and other features of trial design, clinical assessment, and use of biomarkers is critical to improving the detection of disease-modifying effects of emerging therapies in presymptomatic or minimally symptomatic populations. The neurologic health of the growing aging population demands disease-modifying therapies and the development of methods to identify and test promising candidate agents.
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PMID:Disease-modifying therapies for Alzheimer disease: challenges to early intervention. 1793 73

Curcumin binds to the amyloid beta peptide (Abeta) and inhibits or modulates amyloid precursor protein (APP) metabolism. Therefore, curcumin-derived isoxazoles and pyrazoles were synthesized to minimize the metal chelation properties of curcumin. The decreased rotational freedom and absence of stereoisomers was predicted to enhance affinity toward Abeta(42) aggregates. Accordingly, replacement of the 1,3-dicarbonyl moiety with isosteric heterocycles turned curcumin analogue isoxazoles and pyrazoles into potent ligands of fibrillar Abeta(42) aggregates. Additionally, several compounds are potent inhibitors of tau protein aggregation and depolymerized tau protein aggregates at low micromolar concentrations.
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PMID:Curcumin-derived pyrazoles and isoxazoles: Swiss army knives or blunt tools for Alzheimer's disease? 1794 13

In this comprehensive review, we summarize the current state-of-the-art of neurochemical biomarkers for Alzheimer's disease. Predominantly, these biomarkers comprise cerebrospinal fluid biomarkers directly related to the pathophysiology of this disorder (such as amyloid beta protein, tau protein). We particularly pay attention to the innovations in this area that have been made in technological aspects during the past 5 years (e.g., multiplex analysis of biomarkers, proteomics), to the discovery of novel, potential biomarkers (e.g., amyloid beta oligomers, isoprostanes), and to the extension of this research towards identification of biomarkers in plasma.
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PMID:Current state and future directions of neurochemical biomarkers for Alzheimer's disease. 1797 Jun 99

A growing body of evidence implicates impairments in brain insulin signaling in early sporadic Alzheimer disease (sAD) pathology. However, the most widely accepted hypothesis for AD aetiology stipulates that pathological aggregations of the amyloid beta (Abeta) peptide are the cause of all forms of Alzheimer's disease. Streptozotocin-intracerebroventricularly (STZ-icv) treated rats are proposed as a probable experimental model of sAD. The current work reviews evidence obtained from this model indicating that central STZ administration induces brain pathology and behavioural alterations resembling those in sAD patients. Recently, alterations of the brain insulin system resembling those in sAD have been found in the STZ-icv rat model and are associated with tau protein hyperphosphorylation and Abeta-like aggregations in meningeal vessels. In line with these findings the hypothesis has been proposed that insulin resistance in the brain might be the primary event which precedes the Abeta pathology in sAD.
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PMID:Central insulin resistance as a trigger for sporadic Alzheimer-like pathology: an experimental approach. 1798 98

The invariant characteristic features associated with Alzheimer's disease (AD) brain include the presence of extracellular neuritic plaques composed of amyloid beta (Abeta) peptide, intracellular neurofibrillary tangles containing hyper-phosphorylated tau protein and the loss of basal forebrain cholinergic neurons. Studies of the pathological changes that characterize AD and several other lines of evidence indicate that in vivo accumulation of Abeta(1-42) may initiate the process of neurodegeneration observed in AD brains. However, the cause of degeneration of the basal forebrain cholinergic neurons and their association to Abeta peptides or phosphorylated tau protein have not been clearly established. In the present study, using rat primary septal cultures, we have shown that Abeta(1-42), in a time (1-48 h) and concentration (0.01-20 microM)-dependent manner, induce toxicity in cultured neurons. Subsequently, we have demonstrated that Abeta toxicity is mediated via activation of cysteine proteases, i.e., calpain and caspase, and proteolytic breakdown of their downstream substrates tau, microtubule-associated protein-2 and alpha II-spectrin. Additionally, Abeta-treatment was found to induce phosphorylation of tau protein along with decreased levels of phospho-Akt and phospho-Ser(9)glycogen synthase kinase-3beta. Exposure to specific inhibitors of caspase or calpain can partially protect cultured neurons against Abeta-induced toxicity but their effects are not found to be additive. These results, taken together, suggest that Abeta peptide can induce toxicity in rat septal cultured neurons by activating multiple intracellular signaling molecules. Additionally, evidence that inhibitors of caspase and calpains can partially protect the cultured basal forebrain neurons raised the possibility that their inhibitors could be of therapeutic relevance in the treatment of AD pathology.
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PMID:Role of calpain and caspase in beta-amyloid-induced cell death in rat primary septal cultured neurons. 1822 94

Tumor necrosis factor related apoptosis inducing ligand (TRAIL) is involved in amyloid beta dependent neurotoxicity via the extrinsic pathway. Recently, several genes modulating TRAIL cytotoxicity have been characterized, providing evidence for a role of wingless-type mouse mammary tumor virus integration site family (Wnt), Jun-N-terminal kinase and other pathways in increased cell susceptibility to the cytokine. We investigated whether neurotoxic effects of TRAIL could be due to modulation of the Wnt signaling pathway. Western blot analysis of Wnt in SH-SY5Y human neuroblastoma cells showed significantly decreased Wnt expression in cultures treated with TRAIL. Correspondingly, both phosphorylation of glycogen synthase kinase 3 beta and degradation of cytoplasmic beta-catenin were increased, as well as phosphorylation of the tau protein, bringing about the picture of neuronal damage. As a counterproof of the interaction of TRAIL with the Wnt pathway, the addition of the specific glycogen synthase kinase 3 beta inhibitor SB216763 resulted in rescue of a significant percent of cells from TRAIL-induced apoptosis. The rescue was total when the caspase 8 inhibitor z-IETD-FMK was added in combination with SB216763. Results show that, probably, in addition to triggering caspase signaling, TRAIL also interferes with the Wnt pathway, additionally concurring to neuronal damage. These data suggest that the Wnt pathway substantially contributes to the TRAIL-related neurotoxicity and indicate the TRAIL system as a candidate target for pharmacological treatment of Alzheimer's disease and related disorders.
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PMID:TRAIL-related neurotoxicity implies interaction with the Wnt pathway in human neuronal cells in vitro. 1826 28


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