EC:3.1.3.16 - FACTA Search

Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: EC:3.1.3.16 (calcineurin)
17,112 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The incidence of amyotrophic lateral sclerosis (ALS) and Parkinsonism-dementia complex (PDC) among the Chamorros in Guam is remarkably high. The patients with ALS have clinical and pathological characteristics similar to those in other parts of the world. The PDC patients display parkinsonism and progressive dementia and show a characteristic neuronal loss in certain parts of the central nervous system such as the hippocampus and substantia nigra. The Guamanian patients with ALS and PDC commonly have widespread Alzheimer's neurofibrillary changes, but without the associated senile plaques. We have applied immunohistochemical procedures to examine the expression of marker substances in Guamanian ALS and PDC. The markers studied include tau protein, ubiquitin, beta proteins, synaptophysin, calcineurin, Met-enkephalin, substance P and tyrosine hydroxylase. The results were compared with the findings in patients with Alzheimer's disease, Parkinson's disease, sporadic ALS and familial ALS.
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PMID:Amyotrophic lateral sclerosis and parkinsonism-dementia complex on Guam: immunohistochemical studies. 158 17

A comparative topographical immunohistochemical analysis was performed on the basal ganglia (including the substantia nigra) in Guamanian parkinsonism-dementia complex, idiopathic Parkinson's disease (PD), and Alzheimer's disease (AD). The striatal projection neurons and their efferent fibers were examined by using antibodies to calcineurin, methionine-enkephalin, and substance P. Tyrosine hydroxylase served as a marker for nigrostriatal dopaminergic neurons. The basal ganglia of patients with parkinsonism-dementia complex reacted strongly with all of the antibodies and the reaction products exhibited a normal distribution pattern. These findings suggest that the striatal output system is well preserved in patients with this disease. Similar results were obtained in patients with AD or PD. However, as compared to the patients with AD or PD, patients with parkinsonism-dementia complex showed severe reduction (greater than 90%) in the number of dopaminergic neurons in both the lateral and the medial portions of the substantia nigra. In view of the functional cortico-subcortical loops, these findings could explain the parkinsonian features and in part the cognitive impairment that occur in parkinsonism-dementia complex on Guam.
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PMID:Immunohistochemical study of the striatal efferents and nigral dopaminergic neurons in parkinsonism-dementia complex on Guam in comparison with those in Parkinson's and Alzheimer's diseases. 169 18

The regional selectivity and mechanisms underlying the toxicity of the serine/threonine protein phosphatase inhibitor okadaic acid (OA) were investigated in hippocampal slice cultures. Image analysis of propidium iodide-labeled cultures revealed that okadaic acid caused a dose- and time-dependent injury to hippocampal neurons. Pyramidal cells in the CA3 region and granule cells in the dentate gyrus were much more sensitive to okadaic acid than the pyramidal cells in the CA1 region. Electron microscopy revealed ultrastructural changes in the pyramidal cells that were not consistent with an apoptotic process. Treatment with okadaic acid led to a rapid and sustained tyrosine phosphorylation of the mitogen-activated protein kinases ERK1 and ERK2 (p44/42(mapk)). The phosphorylation was markedly reduced after treatment of the cultures with the microbial alkaloid K-252a (a nonselective protein kinase inhibitor) or the MAP kinase kinase (MEK1/2) inhibitor PD98059. K-252a and PD98059 also ameliorated the okadaic acid-induced cell death. Inhibitors of protein kinase C, Ca2+/calmodulin-dependent protein kinase II, or tyrosine kinase were ineffective. These results indicate that sustained activation of the MAP kinase pathway, as seen after e.g., ischemia, may selectively harm specific subsets of neurons. The susceptibility to MAP kinase activation of the CA3 pyramidal cells and dentate granule cells may provide insight into the observed relationship between cerebral ischemia and dementia in Alzheimer's disease.
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PMID:Regional selective neuronal degeneration after protein phosphatase inhibition in hippocampal slice cultures: evidence for a MAP kinase-dependent mechanism. 973 50

Coding region and intronic mutations in the tau gene cause frontotemporal dementia and parkinsonism linked to chromosome 17 (FTDP-17). We have previously reported that ABalphaC, a major form of protein phosphatase 2A (PP2A) in brain, binds tightly to tau protein in vitro and is a major tau phosphatase in vivo. Using in vitro assays, we show here that the FTDP-17 mutations G272V, DeltaK280, P301L, P301S, S305N, V337M, G389R, and R406W inhibit by approximately 20-95% the binding of recombinant three-repeat and four-repeat tau isoforms to the ABalphaC holoenzyme and the AC core enzyme of PP2A. Reduction in binding was maximal for tau proteins with the G272V, DeltaK280, and V337M mutations. We also show that tau protein can be specifically coimmunoprecipitated with endogenous PP2A from both rat brain and transfected cell extracts. It is significant that, by using similar coimmunoprecipitation assays, we show that all FTDP-17 mutations tested, including the N279K mutation, alter the ability of tau to associate with cellular PP2A. Taken together, these results indicate that FTDP-17 mutations induce a significant decrease in the binding affinity of tau for PP2A in vivo. We propose that altered protein-protein interactions between PP2A and tau may contribute to FTDP-17 pathogenesis.
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PMID:Reduced binding of protein phosphatase 2A to tau protein with frontotemporal dementia and parkinsonism linked to chromosome 17 mutations. 1103 5

The standardized extract from Ginkgo biloba (EGb 761) is used for the treatment of dementia. Because of allergenic and genotoxic effects, ginkgolic acids are restricted in EGb 761 to 5 ppm. The question arises whether ginkgolic acids also have neurotoxic effects. In the present study, ginkgolic acids caused death of cultured chick embryonic neurons in a concentration-dependent manner, in the presence and in the absence of serum. Ginkgolic acids-induced death showed features of apoptosis as we observed chromatin condensation, shrinkage of the nucleus and reduction of the damage by the protein synthesis inhibitor cycloheximide, demonstrating an active type of cell death. However, DNA fragmentation detected by the terminal-transferase-mediated ddUTP-digoxigenin nick-end labeling (TUNEL) assay and caspase-3 activation, which are also considered as hallmarks of apoptosis, were not seen after treatment with 150 microM ginkgolic acids in serum-free medium, a dose which increased the percentage of neurons with chromatin condensation and shrunken nuclei to 88% compared with 25% in serum-deprived, vehicle-treated controls. This suggests that ginkgolic acid-induced death showed signs of apoptosis as well as of necrosis. Ginkgolic acids specifically increased the activity of protein phosphatase type-2C, whereas other protein phosphatases such as protein phosphatases 1A, 2A and 2B, tyrosine phosphatase, and unspecific acid- and alkaline phosphatases were inhibited or remained unchanged, suggesting protein phosphatase 2C to play a role in the neurotoxic effect mediated by ginkgolic acids.
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PMID:Ginkgolic acids induce neuronal death and activate protein phosphatase type-2C. 1169 56

Alzheimer disease and related dementia are characterized by the presence of hyperphosphorylated tau aggregated into filaments. The role of tau phosphorylation in the fibrillogenesis has not yet been unraveled. Therefore, it is important to know which phosphatases can dephosphorylate tau protein in vivo. The effect of recombinant purified calcineurin (CN(PP2B)) and several calcineurin mutants on tau phosphorylation was studied in two neuronal like cell lines PC12 and SH-SY5Y. The modulation of tau phosphorylation at Serl99/Ser202, Ser396/Ser404, Ser262/Ser356, and Thr181 sites was examined in these cell lines using the phosphorylation state-dependent antitau antibodies Tau 1, PHF1, 12E8, and AT270. The results have shown that CN directly dephosphorylates all of those sites of tau protein. Recombinant calcineurin introduced into cells that have previously been treated with okadaic acid and cyclosporin A, which are inhibitors of phosphatases (PP1/PP2A and PP2B), has a direct effect on the phosphorylation status on all phosphorylation sites studied. We conclude that calcineurin is (besides PP2A) a important modulator of tau phosphorylation in vivo.
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PMID:Dephosphorylation of tau protein by calcineurin triturated into neural living cells. 1206 14

Abnormally hyperphosphorylated tau which is the major protein subunit of paired helical filaments (PHF)/neurofibrillary tangles is the pivotal lesion in Alzheimer disease (AD) and related tauopathies. The cosegregation of tau mutations with disease in inherited cases of frontotemporal dementia has confirmed that abnormalities in this protein can be a primary cause of neurodegeneration. Unlike normal tau that promotes assembly and maintains the structure of microtubules, the abnormally hyperphosphorylated protein sequesters normal tau, MAP1 and MAP2 and consequently disassembles microtubules. The abnormal hyperphosphorylation also promotes the self assembly of tau into tangles of PHF. The hyperphosphorylation of tau in AD is probably due to a protein phosphorylation/dephosphorylation imbalance produced by a decrease in the activity of protein phosphatase (PP)-2A and increase in the activities of tau kinases which are directly or indirectly regulated by PP-2A. Two of the most promising pharmacologic therapeutic approaches to AD are (1) the development of drugs that can inhibit the sequestration of normal MAPs by the abnormally hyperphosphorylated tau, and (2) the development of drugs that can reverse the abnormal hyperphosphorylation of tau by correcting the protein phosphorylation/dephosphorylation imbalance.
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PMID:Significance and mechanism of Alzheimer neurofibrillary degeneration and therapeutic targets to inhibit this lesion. 1221 1

Abnormally hyperphosphorylated tau polymers known as paired helical filaments constitute one of the major characteristic lesions that lead to the demise of neurons in Alzheimer's disease. Here, we demonstrate that the environmental toxin arsenite causes a significant increase in the phosphorylation of several amino acid residues (Thr-181, Ser-202, Thr-205, Thr-231, Ser-262, Ser-356, Ser-396, and Ser-404) in tau, which are also hyperphosphorylated under pathological conditions. Complementary phosphopeptide mapping revealed a dramatic increase in the (32)P-labeling of many peptides in tau following arsenite treatment. Although arsenite activates extracellular-signal regulated kinases-1/-2 and stress-activated protein kinases, these enzymes did not contribute to the arsenite-increased phosphorylation, nor did they appear to normally modify tau in vivo. Tau phosphorylation induced by arsenite did not involve glycogen synthase kinase-3 or protein phosphatase-1 or -2, but the activity responsible for tau hyperphosphorylation could be inhibited with the protein kinase inhibitor roscovitine. The effects of arsenite on the phosphorylation of some tau mutations (DeltaKappa280, V337M, and R406W) associated with frontal-temporal dementia with parkinsonism linked to chromosome 17 was analyzed. The unchallenged and arsenite-induced phosphorylation of some mutant proteins, especially R406W, was altered at several phosphorylation sites, indicating that these mutations can significantly affect the structure of tau in vivo. Although the major kinase(s) involved in aberrant tau phosphorylation remains elusive, these results indicate that environmental factors, such as arsenite, may be involved in the cascade leading to deregulation of tau function associated with neurodegeneration.
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PMID:The environmental toxin arsenite induces tau hyperphosphorylation. 1248 77

Abnormal hyperphosphorylation of tau and cholinergic deficit occur in the early stage of Alzheimer's disease (AD) and relate to the dementia symptom. Hyperphosphorylation of tau, neurofilament (NF) and other proteins in AD brain appears to be caused by a down-regulation of protein phosphatase 2A (PP2A), but the mechanism leading to cholinergic deficit is still unknown. In this study, we selectively inhibited PP2A by injection of okadaic acid (OA) into the Meynert nucleus basalis of rats. We found that injection of OA induced hyperphosphorylation of tau and NF and decreased acetylcholine (ACh) level in the nucleus basalis of Meynert. These alterations were accompanied by spatial memory deficit in OA-injected rats. We also demonstrated that the OA-induced ACh reduction may be due to a failure of intraneuronal transport of choline acetyltransferase (ChAT) from cell body to the neuronal terminals rather than an alteration of activity of ChAT or acetylcholinesterase. This study suggests that a down-regulation of PP2A may underlie both abnormal hyperphosphorylation of cytoskeletal proteins leading to neurofibrillary degeneration and cholinergic deficiency in AD.
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PMID:Injection of okadaic acid into the meynert nucleus basalis of rat brain induces decreased acetylcholine level and spatial memory deficit. 1520 45

Neurofibrillary degeneration (ND) is both a pivotal and a primary lesion of Alzheimer disease (AD) and related tauopathies. To date in all known tauopathics including AD, the neurofibrillary changes, whether of paired helical filaments (PHF), twisted ribbons or straight filaments (SF) are made up of abnormally hyperphosphorylated tau, and the number of these lesions directly correlates to the degree of dementia in the affected individuals. Unlike normal tau which promotes assembly and maintains structure of microtubules, the abnormal tau not only lacks these functions but also sequesters normal tau, MAPI and MAP2, and causes disassembly of microtubules. This toxic behavior of the abnormal tau is solely due to its hyperphosphorylation because dephosphorylation restores it into a normal-like protein. The abnormal hyperphosphorylation also promotes the self-assembly of tau into PHF/SF. Missense mutations in tau that cosegregate with the disease in inherited cases of frontotemporal dementia make it a more favorable substrate for hyperphosphorylation. A cause of the abnormal hyperphosphorylation in AD brain is a decrease in the activity of protein phosphatase (PP)-2A, a major regulator of the phosphorylation of tau. The abnormal hyperphosphorylation of tau and neurofibrillary degeneration may be inhibited by increasing the activity of PP-2A, inhibiting the activity of one or more tau kinases or by the sequestration of normal tau by the abnormally hyperphosphorylated tau. A great advantage of developing therapeutic drugs to inhibit neurofibrillary degeneration is that the efficacy of these drugs can be monitored by assaying the CSF levels of phosphotau and total tau, both of which are elevated in AD. Thus, the development of drugs that inhibit neurofibrillary degeneration is a very promising and feasible therapeutic approach to AD and related tauopathies.
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PMID:Inhibition of neurofibrillary degeneration: a promising approach to Alzheimer's disease and other tauopathies. 1527 Jan 96

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