Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: 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 Raf-1 protein kinase participates in transduction of mitogenic signals, but its mechanisms of activation are incompletely understood. Treatment of human Raf-1 purified from insect Sf9 cells co-expressing c-H-Ras and Src(Y527F) (in which phenylalanine replaces tyrosine at residue 527) with either serine-threonine or tyrosine phosphatases resulted in enzymatic inactivation of Raf-1. Inactivation of purified Raf-1 was blocked by addition of either the 14-3-3 zeta protein or heat shock protein 90. Loading of plasma membranes from transformed cells with guanosine triphosphate (GTP) resulted in inactivation of endogenous or exogenous Raf-1; inactivation was blocked by inclusion of protein phosphatase inhibitors. These results suggest the existence of protein phosphatases in the cell membrane that are regulated by GTP and are responsible for Raf-1 inactivation.
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PMID:Reversal of Raf-1 activation by purified and membrane-associated protein phosphatases. 760 63

The phosphatase and tensin homology deleted on chromosome 10 (PTEN) is a tumor suppressor gene with sequence homology to tyrosine phosphatases and the cytoskeletal proteins tensin and auxilin. PTEN has recently been shown to inhibit cell migration and the spreading and formation of focal adhesions. This study investigated the role of PTEN in carcinoma invasion in a lung-cancer cell line and examined the downstream genes regulated by PTEN. We have previously established a cell-line model in human lung adenocarcinoma with different invasive abilities and metastatic potentials. Examining PTEN gene expression in these cell lines, we found that a homozygous deletion in exon 5 is associated with high invasive ability. We then constructed stable constitutive and inducible wild-type PTEN-overexpressed transfectants in the highly invasive cell line CL(1-5). We found that an overexpression of PTEN can inhibit invasion in lung cancer cells. To further explore the downstream genes regulated by PTEN, a high-density complementary DNA (cDNA) microarray technique was used to profile gene changes after PTEN overexpression. Our results indicate a panel of genes that can be modulated by PTEN. PTEN overexpression downregulated genes, including integrin alpha(6), laminin beta(3), heparin-binding epidermal growth factor-like growth factor, urokinase-type plasminogen activator, myb protein B, Akt2, and some expressed sequence tag (EST) clones. In contrast, PTEN overexpression upregulated protein phosphatase 2A1B, ubiquitin protease (unph), secreted phosphoprotein 1, leukocyte elastase inhibitor, nuclear factor-kappaB, cyclic adenosine monophosphate response element binding protein, DNA ligase 1, heat shock protein 90, and some EST genes. Northern hybridization and flow cytometry analysis also confirmed that PTEN overexpression results in the reduced expression of the integrin alpha(6) subunit. The results of this study indicate that PTEN overexpression may inhibit lung cancer invasion by downregulation of a panel of genes including integrin alpha(6). The cDNA microarray technique may be an effective tool to study the downstream function of a tumor suppressor gene.
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PMID:Profiling the downstream genes of tumor suppressor PTEN in lung cancer cells by complementary DNA microarray. 1097 Aug 13

Protein phosphatase 5 (Ppp5) is a serine/threonine protein phosphatase comprising a regulatory tetratricopeptide repeat (TPR) domain N-terminal to its phosphatase domain. Ppp5 functions in signalling pathways that control cellular responses to stress, glucocorticoids and DNA damage. Its phosphatase activity is suppressed by an autoinhibited conformation maintained by the TPR domain and a C-terminal subdomain. By interacting with the TPR domain, heat shock protein 90 (Hsp90) and fatty acids including arachidonic acid stimulate phosphatase activity. Here, we describe the structure of the autoinhibited state of Ppp5, revealing mechanisms of TPR-mediated phosphatase inhibition and Hsp90- and arachidonic acid-induced stimulation of phosphatase activity. The TPR domain engages with the catalytic channel of the phosphatase domain, restricting access to the catalytic site. This autoinhibited conformation of Ppp5 is stabilised by the C-terminal alphaJ helix that contacts a region of the Hsp90-binding groove on the TPR domain. Hsp90 activates Ppp5 by disrupting TPR-phosphatase domain interactions, permitting substrate access to the constitutively active phosphatase domain, whereas arachidonic acid prompts an alternate conformation of the TPR domain, destabilising the TPR-phosphatase domain interface.
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PMID:Molecular basis for TPR domain-mediated regulation of protein phosphatase 5. 1557 39

Geldanamycin (GA), an antibiotic of the ansamycin family and an inhibitor of heat shock protein 90 (Hsp90), was previously shown to inhibit the malarial parasite, Plasmodium falciparum. Here we report that cyclosporin A (CsA), an inhibitor of parasitic cyclophilin (Cyp) and protein phosphatase 2B (calcineurin, CN), acted synergistically with GA to inhibit the erythrocytic growth of the parasite. Parasitic calcineurin associated with Hsp90 in vivo, and GA inhibited the association, but CsA had no effect. In a number of CsA-resistant (CsA(R)) P. falciparum clones mutations were detected in functionally significant amino acid residues of the catalytic and regulatory subunits of calcineurin (CnA and CnB, respectively) and in two out of three parasitic cyclophilins, namely Cyp19A and Cyp19B. No mutation was detected in the third cyclophilin, Cyp24. Further analysis of the mutant CnA revealed that its protein phosphatase activity was highly CsA-resistant in vitro. Similarly, one of the mutant Cyp19A proteins was purified and found to be unable to inhibit parasitic CN in the presence of CsA. Together, these results underscore the importance of the proper assembly and function of CN in plasmodial biology and suggest that the inhibition of CN can be a potential mechanism behind the CsA-sensitivity of the malaria parasite.
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PMID:Plasmodium falciparum calcineurin and its association with heat shock protein 90: mechanisms for the antimalarial activity of cyclosporin A and synergism with geldanamycin. 1581 24

We have identified an immunophilin of the FKBP family in Plasmodium falciparum that contains a conserved peptidyl prolyl isomerase (PPIase) and tetratricopeptide repeat (TPR) domains. The 35 kDa protein was named FKBP35 and expressed in bacteria. Recombinant FKBP35 exhibited potent PPIase and protein folding activities against defined substrates in vitro, suggesting that it is a parasitic chaperone. Both activities were inhibited by macrolide immunosuppressant drugs, ascomycin (a FK506 derivative) and rapamycin, but not by cyclosporin A, providing biochemical evidence of its inclusion in the FKBP family. Interestingly, FKBP35 inhibited purified plasmodial calcineurin (protein phosphatase 2B) in the absence of any drug. In the parasite's cell, FKBP35 exhibited a stage-specific nucleocytoplasmic shuttling and did not co-localize with calcineurin. FKBP35 associated with plasmodial heat shock protein 90 (Hsp90), another member of the chaperone superfamily, via the TPR domain. Geldanamycin, a Hsp90 inhibitor, and ascomycin inhibited P. falciparum growth in a synergistic fashion. Extensive search of the P. falciparum genome revealed no other FKBP sequence, implicating PfFKBP35 as a highly significant antimalarial drug target. Thus, the single FKBP of Plasmodium is an essential parasitic chaperone with a novel drug-independent calcineurin-inhibitory activity.
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PMID:The FK506-binding protein of the malaria parasite, Plasmodium falciparum, is a FK506-sensitive chaperone with FK506-independent calcineurin-inhibitory activity. 1585 Jun 99

The glucocorticoid receptor (GR) is phosphorylated at three major sites on its N terminus (S203, S211, and S226), and phosphorylation modulates GR-regulatory functions in vivo. We examined the phosphorylation site interdependence, the contribution of the receptor C-terminal ligand-binding domain, and the participation of protein phosphatases in GR N-terminal phosphorylation and gene expression. We found that GR phosphorylation at S203 was greater when S226 was not phosphorylated and vice versa, indicative of intersite dependency. We also observed that a GR derivative lacking the ligand-binding domain, which no longer binds the heat shock protein 90 (Hsp90) complex, exhibits increased GR phosphorylation at all three sites as compared with the full-length receptor. A GR mutation (F602S) that produces a receptor less dependent on Hsp90 for function as well as treatment with the Hsp90 inhibitor geldanamycin also increased basal GR phosphorylation at a subset of sites. Pharmacological inhibition of serine/threonine protein phosphatases increased GR basal phosphorylation. Likewise, a reduction in protein phosphatase 5 protein levels enhanced GR phosphorylation at a subset of sites and selectively reduced the induction of endogenous GR target genes. Together, our findings suggest that GR undergoes a phosphorylation/dephosphorylation cycle that maintains steady-state receptor phosphorylation at a low basal level in the absence of ligand. Our findings also suggest that the ligand-dependent increase in GR phosphorylation results, in part, from the dissociation of a ligand-binding domain-linked protein phosphatase(s), and that changes in the intracellular concentration of protein phosphatase 5 differentially affect GR target gene expression.
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PMID:Modulation of glucocorticoid receptor phosphorylation and transcriptional activity by a C-terminal-associated protein phosphatase. 1718 95

Previously, we described that apoptotic cell death induced by the synthetic glucocorticoid dexamethasone (dex) is inhibited by calcineurin inhibitors, FK506 and deltamethrin, in insulin-secreting cells. The aim of the present study was to examine the mechanism of dex-dependent activation of calcineurin. In INS-1 cells cultured up to 4d with dex (100 nmol/l), the percentage of apoptosis, quantified by condensed nuclei and TUNEL positive cells, increased from 1% to 10.9%. FK506 inhibited dex-mediated cell death. Apoptosis was significantly higher at glucose concentrations that induce [Ca(2+)](i) oscillations than at low, non-stimulatory glucose. Dex had no acute effect on [Ca(2+)](i). Calcineurin activity, measured in control and dex-treated cell homogenates, revealed that maximal activity and the sensitivity to the substrate RII peptide was unaltered. However, dex treatment significantly increased enzyme activity at submaximal, physiological Ca(2+) concentrations. Dex did not stimulate the Ca(2+)-dependent protease calpain, known to activate calcineurin by cleavage, as no cleaved calcineurin was detectable. Furthermore, the calpain inhibitor ALLN did not counteract dex-dependent cell death. Western blotting revealed that in dex-treated cells heat shock protein 90 (Hsp90), a component of the glucocorticoid receptor (GR) known to stimulate calcineurin, was increased while calcineurin protein levels were unchanged. In immunoprecipitates with calcineurin antibodies, Hsp90 was only detected in dex-treated cell homogenates. These data suggest that dex-induced apoptosis involves release of Hsp90 from the stimulated GR complex, subsequent binding to and activation of calcineurin, that may contribute to dex-mediated cell death in the presence of high glucose.
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PMID:Regulation of calcineurin activity in insulin-secreting cells: stimulation by Hsp90 during glucocorticoid-induced apoptosis. 1861 38

Alzheimer's disease (AD) is the most common type of dementia, comprising 60-80% of all reported cases, and currently affects 5.2 million Americans. AD is characterized pathologically by the accumulation of senile plaques (SPs), neurofibrillary tangles (NFTs), and synapse loss. The early stages of memory loss associated with AD have been studied in a condition known as amnestic mild cognitive impairment (MCI), arguably the earliest form of AD. In spite of extensive research across a variety of disciplines, the cause of AD remains elusive. Proteomics techniques have helped to advance knowledge about AD by identifying irregularities in protein expression and post-translational modifications (PTMs) in AD brain. Glycosylation is a less studied PTM with regards to AD and MCI. This PTM is important to study because glycosylation is involved in proper protein folding, protein anchoring to cell membranes, and the delivery of proteins to organelles, and these processes are impaired in AD. Concanavalin-A (Con-A) binds to N-linked glycoproteins, but hydrophobic sites on nonglycoproteins are also known to bind Con-A. To our knowledge, the present study is the first to examine Con-A-associated brain proteins in MCI and AD with focus on the hippocampus and inferior parietal lobule (IPL) brain regions. Proteins found in AD hippocampus with altered levels are glutamate dehydrogenase (GDH), glial fibrillary acidic protein (GFAP), tropomyosin 3 (TPM3), Rab GDP-dissociation inhibitor XAP-4 (XAP4), and heat shock protein 90 (HSP90). Proteins found with altered levels in AD IPL are alpha-enolase, gamma-enolase, and XAP-4. MCI hippocampal proteins with altered levels are dihydropyrimidase-2 (DRP2), glucose-regulated protein 78 (GRP-78), protein phosphatase related protein Sds-22 (Sds22), and GFAP and the only protein found with altered levels in MCI IPL was beta-synuclein. These results are discussed with reference to biochemical and pathological alterations in and progression of AD.
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PMID:Proteomics-determined differences in the concanavalin-A-fractionated proteome of hippocampus and inferior parietal lobule in subjects with Alzheimer's disease and mild cognitive impairment: implications for progression of AD. 1907 83

Due to the limited number of antifungals and the emergence of resistance, new therapies against invasive aspergillosis are needed. We show that calcineurin inhibitors are active in vitro against both azole- and echinocandin-resistant Aspergillus fumigatus strains. The heat shock protein 90 (Hsp90) inhibitor geldanamycin had modest activity when used alone, but its combination with caspofungin or tacrolimus (FK506) resulted in fungicidal activity against azole-resistant strains. Targeting the Hsp90-calcineurin axis is a promising alternative strategy against azole-resistant A. fumigatus strains.
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PMID:In vitro activity of calcineurin and heat shock protein 90 Inhibitors against Aspergillus fumigatus azole- and echinocandin-resistant strains. 2316 66

The past decades have witnessed a dramatic increase in invasive fungal infections, especially candidiasis. Despite the development of more effective new antifungal agents, fluconazole (FLC) is still widely used in the clinic because of its efficacy and low toxicity. However, as the number of patients treated with FLC has increased, FLC-resistant Candida albicans isolates emerge more frequently. In addition, biofilm-associated infections are commonly encountered and their resistance poses a great challenge to antifungal treatment. Various approaches have been proposed to increase the susceptibility of C. albicans to FLC in order to cope with treatment failures, among which is the combination of FLC with different classes of non-antifungal agents such as antibacterials, calcineurin inhibitors, heat shock protein 90 inhibitors, calcium homeostasis regulators and traditional Chinese medicine drugs. Interestingly, many of these combinations showed synergistic effects against C. albicans, especially resistant strains. The main mechanisms of these synergistic effects appear to be increasing the permeability of the membrane, reducing the efflux of antifungal drugs, interfering with intracellular ion homeostasis, inhibiting the activity of proteins and enzymes required for fungal survival, and inhibiting biofilm formation. These modes of action and the antifungal mechanisms of various compounds referenced in this paper highlight the idea that the reversal of fungal resistance can be achieved through various mechanisms. Studies examining drug interactions will hopefully provide new approaches against antifungal drug resistance as well as insight into antifungal agent discovery.
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PMID:Combination of fluconazole with non-antifungal agents: a promising approach to cope with resistant Candida albicans infections and insight into new antifungal agent discovery. 2450 21


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