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)

Okadaic acid, a phosphatase inhibitor from a marine organism, mimics tumor necrosis factor/interleukin-1 (TNF/IL-1) in inducing changes in early cellular protein phosphorylation. A total of approximately 116 proteins exhibit significant and concordant changes in phosphorylation or dephosphorylation within 15 min in human fibroblasts activated by either okadaic acid, TNF, or IL-1. The fidelity of this mimicry by okadaic acid extends to the phosphorylation of the 27 hsp complex, stathmin, eIF-4E, myosin light chain, nucleolin, epidermal growth factor receptor, and other cdc2-kinase substrates (c-abl, RB, and p53). The okadaic acid-induced pattern of protein phosphorylation is distinct from that observed in cells treated with phorbol 12-myristate 13-acetate or with ligands like epidermal growth factor, cyclic AMP agonists, bradykinin, or interferons. Like TNF, okadaic acid also induces the transcription of immediate early response genes like c-jun and Egr-1 as well as the interleukin-6 genes. The overall early effects of okadaic acid uniquely parallel those of TNF/IL-1 and not those of other cytokines or ligands. Regulation of protein phosphatase inhibition is discussed as a mechanism for TNF/IL-1 signal transduction.
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PMID:Okadaic acid mimics multiple changes in early protein phosphorylation and gene expression induced by tumor necrosis factor or interleukin-1. 137 Apr 82

A 10-50-fold, biphasic increase in the rate of 32Pi labeling of eIF-4E was closely correlated with the induction of protein and glycoprotein biosynthesis when resting murine splenic B lymphocytes (B cells) were activated by bacterial lipopolysaccharide or the combination of phorbol 12-myristate 13-acetate and ionomycin. The fraction of eIF-4E which was phosphorylated only increased from 46% in resting cells to 83% in lipopolysaccharide-activated cells. This discrepancy between the increase in the fraction of phosphorylated eIF-4E and the increase in 32Pi labeling suggested that the phosphoryl group of eIF-4E turns over slowly in resting B cells compared with activated cells. The turnover rate for the eIF-4E phosphate moiety in lipopolysaccharide-activated cells was rapid (t1/2 = 2 h) in comparison to the eIF-4E polypeptide chain, which did not turn over detectably in 6 h. Neither protein kinase C nor a cyclic nucleotide-dependent protein kinase appeared to be involved in eIF-4E phosphorylation in B cells, based on the observations that the metabolic labeling of eIF-4E by 32Pi was insensitive to the protein kinase inhibitors H-7 and HA1004, and that maximal labeling occurred after protein kinase C activity was "down-regulated" to very low levels in phorbol 12-myristate 13-acetate/ionomycin-activated cells. Dephosphorylation in vivo was blocked by okadaic acid (IC50 = 200 nM). These results indicate that a rapid phosphorylation-dephosphorylation of eIF-4E is associated with high translation rates during the activation of B cells, and implicate protein phosphatase-1 (or possibly-2A) in the dephosphorylation of the initiation factor.
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PMID:Increased rate of phosphorylation-dephosphorylation of the translational initiation factor eIF-4E correlates with the induction of protein and glycoprotein biosynthesis in activated B lymphocytes. 224 37

PHAS-I is a recently discovered regulator of translation initiation. Non-phosphorylated PHAS-I binds and inhibits eukaryotic initiation factor-4E, the mRNA cap-binding protein that mediates a rate-limiting step in translation initiation. When PHAS-I is phosphorylated in response to insulin, the PHAS-I/eukaryotic initiation factor-4E complex dissociates. The present study was conducted to investigate mechanisms involved in the control of PHAS-I. Phosphorylation of PHAS-I was monitored by immunoblotting after subjecting extracts to polyacrylamide gel electrophoresis in the presence of sodium dodecyl sulphate. This was possible because phosphorylation markedly decreases the electrophoretic mobility of PHAS-I. Incubating 3T3-L1 adipocytes with rapamycin and wortmannin inhibited insulin-stimulated phosphorylation of PHAS-I at concentrations similar to those that inhibited activation of p70S6K. Both agents increased the amount of PHAS-I that co-purified with eukaryotic initiation factor-4E when extracts were fractionated using a cap affinity resin, indicating that PHAS-I binding to the initiation factor was increased. Incubating adipocytes with the protein phosphatase inhibitors, calyculin A and okadaic acid, increased PHAS-I phosphorylation and opposed the effects of rapamycin on decreasing PHAS-I phosphorylation. However, neither okadaic acid nor calyculin A abolished the effects of rapamycin on PHAS-I. These results suggest that the phosphorylation of PHAS-I in response to insulin occurs via the p70S6K signalling pathway. By regulating eukaryotic initiation factor-4E, PHAS-I may have important roles in the control of both protein synthesis and mitogenesis.
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PMID:Control of PHAS-I phosphorylation in 3T3-L1 adipocytes: effects of inhibiting protein phosphatases and the p70S6K signalling pathway. 924 97

The present study identifies the operation of a signal tranduction pathway in mammalian cells that provides a checkpoint control, linking amino acid sufficiency to the control of peptide chain initiation. Withdrawal of amino acids from the nutrient medium of CHO-IR cells results in a rapid deactivation of p70 S6 kinase and dephosphorylation of eIF-4E BP1, which become unresponsive to all agonists. Readdition of the amino acid mixture quickly restores the phosphorylation and responsiveness of p70 and eIF-4E BP1 to insulin. Increasing the ambient amino acids to twice that usually employed increases basal p70 activity to the maximal level otherwise attained in the presence of insulin and abrogates further stimulation by insulin. Withdrawal of most individual amino acids also inhibits p70, although with differing potency. Amino acid withdrawal from CHO-IR cells does not significantly alter insulin stimulation of tyrosine phosphorylation, phosphotyrosine-associated phosphatidylinositol 3-kinase activity, c-Akt/protein kinase B activity, or mitogen-activated protein kinase activity. The selective inhibition of p70 and eIF-4E BP1 phosphorylation by amino acid withdrawal resembles the response to rapamycin, which prevents p70 reactivation by amino acids, indicating that mTOR is required for the response to amino acids. A p70 deletion mutant, p70Delta2-46/DeltaCT104, that is resistant to inhibition by rapamycin (but sensitive to wortmannin) is also resistant to inhibition by amino acid withdrawal, indicating that amino acid sufficiency and mTOR signal to p70 through a common effector, which could be mTOR itself, or an mTOR-controlled downstream element, such as a protein phosphatase.
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PMID:Amino acid sufficiency and mTOR regulate p70 S6 kinase and eIF-4E BP1 through a common effector mechanism. 960 62

The cellular location and substrate specificity of the catalytic subunit (C) of protein phosphatase 2A (PP2A) depend on its interaction with A and B subunits. The distribution of epitope-tagged wild-type or mutated C subunits was studied by transient expression in COS-7 cells. Wild-type tagged C expressed at low levels formed ABC trimer and AC dimer like the endogenous C. Single mutations of C at the site of phosphorylation (Y307F) or carboxymethylation (L309Q) resulted in recovery of only AC dimer. Double mutation of both residues resulted in association of C with alpha 4 protein (alpha 4), a novel subunit of PP2A, instead of with A and B subunits. Thus, the distribution of C between ABC trimer, AC dimer, and alpha 4C complexes can be affected by modifications of the C-terminal residues. The alpha 4 protein is a homologue of the yeast Tap42 protein that functions downstream of the TOR protein to regulate protein synthesis. Transient overexpression of FLAG-alpha 4 resulted in increased dephosphorylation of elongation factor 2, but had no effect on phosphorylation of either p70S6 kinase or PHAS-I (eIF4E-BP). Signals that affect phosphorylation or methylation of the C subunit of PP2A may promote subunit exchange and direct phosphatase activity to specific intracellular substrates.
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PMID:Mutation of Tyr307 and Leu309 in the protein phosphatase 2A catalytic subunit favors association with the alpha 4 subunit which promotes dephosphorylation of elongation factor-2. 1044 Nov 31

Stimulation of phosphatidylinositol 3'-kinase (PI3K) and protein kinase B (PKB) is implicated in the regulation of protein synthesis in various cells. One mechanism involves PI3K/PKB-dependent phosphorylation of 4E-BP1, which dissociates from eIF4E, allowing initiation of translation from the 7-methylGTP cap of mRNAs. We examined the effects of insulin and H(2)O(2) on this pathway in neonatal cardiac myocytes. Cardiac myocyte protein synthesis was increased by insulin, but was inhibited by H(2)O(2). PI3K inhibitors attenuated basal levels of protein synthesis and inhibited the insulin-induced increase in protein synthesis. Insulin or H(2)O(2) increased the phosphorylation (activation) of PKB through PI3K, but, whereas insulin induced a sustained response, the response to H(2)O(2) was transient. 4E-BP1 was phosphorylated in unstimulated cells, and 4E-BP1 phosphorylation was increased by insulin. H(2)O(2) stimulated dephosphorylation of 4E-BP1 by increasing protein phosphatase (PP1/PP2A) activity. This increased the association of 4E-BP1 with eIF4E, consistent with H(2)O(2) inhibition of protein synthesis. The effects of H(2)O(2) were sufficient to override the stimulation of protein synthesis and 4E-BP1 phosphorylation induced by insulin. These results indicate that PI3K and PKB are important regulators of protein synthesis in cardiac myocytes, but other factors, including phosphatase activity, modulate the overall response.
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PMID:Regulation of protein kinase B and 4E-BP1 by oxidative stress in cardiac myocytes. 1086 16

PKR is a cellular serine/threonine kinase that phosphorylates eukaryotic translation initiation factor 2alpha (eIF2alpha) to regulate protein synthesis. PKR also plays a role in the regulation of transcription, programmed cell death and the cell cycle, processes which likely involve other substrates. In a yeast two-hybrid screen, we isolated human protein phosphatase 2A (PP2A) regulatory subunit B56alpha as a PKR-interacting protein. The interaction between B56alpha and PKR was confirmed by in vitro binding assays as well as by in vivo coimmunoprecipitation, and this interaction is dependent on the catalytic activity of PKR. Moreover, recombinant B56alpha was efficiently phosphorylated by PKR in vitro and an isoelectric point shift in B56alpha was detected in extracts from cells induced with the PKR activator pIC. An in vitro dephosphorylation assay showed that when B56alpha was phosphorylated by PKR, the activity of PP2A trimeric holoenzyme was increased. A functional interaction between B56alpha and PKR was observed in cotransfection assays, where a B56alpha-mediated increase in luciferase expression was inhibited by cotransfection with wild-type PKR. This is likely due to a decreased level of eIF4E phosphorylation caused by an increase in PP2A activity following PKR phosphorylation of B56alpha. Taken together, our data indicate that PKR can modulate PP2A activity by phosphorylating B56alpha to regulate cellular activities.
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PMID:The B56alpha regulatory subunit of protein phosphatase 2A is a target for regulation by double-stranded RNA-dependent protein kinase PKR. 1086 85

The intracellular signaling mechanisms by which cholecystokinin (CCK) and other secretagogues regulate pancreatic acinar function are more complex than originally realized. CCK couples through heterotrimeric G proteins of the Gq family to lead to an increase in intracellular free Ca2+, which shows spatial and temporal patterns of signaling. The actions of Ca2+ are mediated in part by activation of a number of Ca2+-activated protein kinases and the protein phosphatase calcineurin. By the process of exocytosis the intracellular messengers Ca2+, diacylglycerol, and cAMP activate the release of the zymogen granule content in a manner that is poorly understood. This fusion event most likely involves SNARE and Rab proteins present on zymogen granules and cellular membrane domains. More likely related to nonsecretory aspects of cell function, CCK also activates three MAPK cascades leading to activation of ERKs, JNKs, and p38 MAPK. Although the function of these pathways is not well understood, ERKs are probably related to cell growth, and through phosphorylation of hsp27, p38 can affect the actin cytoskeleton. The PI3K (phosphatidylinositol 3-kinase)-mTOR (mammalian target of rapamycin) pathway is important for regulation of acinar cell protein synthesis because it leads to both activation of p70S6K and regulation of the availability of eIF4E in response to CCK. CCK also activates a number of tyrosyl phosphorylation events including that of p125FAK and other proteins associated with focal adhesions.
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PMID:Intracellular signaling mechanisms activated by cholecystokinin-regulating synthesis and secretion of digestive enzymes in pancreatic acinar cells. 1118 49

The redox state plays an important role in gene regulation. Thiols maintain the intracellular redox homeostasis. To understand the role of thiols in redox signaling, we have studied the effect of thiol alkylation on platelet-derived growth factor-BB (PDGF-BB)-induced cell survival events in vascular smooth muscle cells. PDGF-BB stimulated Akt phosphorylation predominantly at Ser-473. N-Ethylmaleimide (NEM), a thiol alkylating agent, blocked PDGF-BB-induced Akt phosphorylation without affecting its upstream phosphatidylinositol 3-kinase (PI3K). On the other hand, LY294002 and wortmannin, specific inhibitors of PI3K, prevented PDGF-BB-induced phosphorylation of Akt and its downstream effector molecules, p70S6K, ribosomal protein S6, 4E-BP1, and eIF4E. NEM also abrogated the phosphorylation of p70S6K, ribosomal protein S6, 4E-BP1, and eIF4E induced by PDGF-BB, suggesting that thiol alkylation interferes with the PI3K/Akt pathway at the level of Akt. In addition, NEM blocked PDGF-BB-induced phosphorylation of BAD and forkhead transcription factor FKHR-L1, and these events correlated with increased apoptosis. NEM alone and in concert with PDGF-BB increased reactive oxygen species (ROS) production and protein phosphatase 2A (PP2A) activity in VSMC. The inhibition of PDGF-BB-induced Akt phosphorylation by NEM was completely reversed by PP2A inhibitors fostriecin and okadaic acid, ceramide synthase inhibitor fumonisin B1, and ROS scavenger N-acetylcysteine (NAC). NAC also attenuated the apoptosis induced by NEM, alone or in combination with PDGF-BB. Together, these findings demonstrate for the first time that PP2A mediates thiol alkylation-dependent redox regulation of Akt and cell survival.
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PMID:N-Ethylmaleimide inhibits platelet-derived growth factor BB-stimulated Akt phosphorylation via activation of protein phosphatase 2A. 1217 32

CCK increases the rate of net protein synthesis in rat pancreatic acini by activating initiation and elongation factors required for translation. The immunosuppressant FK506 inhibits the Ca(2+)-calmodulin-dependent phosphatase calcineurin in pancreatic acinar cells and blocks pancreatic growth induced by chronic CCK treatment. To test a requirement for calcineurin in the activation of the translational machinery stimulated by CCK, we evaluated the effects of FK506 on protein synthesis and on regulatory initiation and elongation factors in rat pancreatic acini in vitro. CCK acutely increased protein synthesis in acini from normal rats with a maximum increase at 100 pM CCK to 170 +/- 11% of control. The immunosuppressant FK506 dose-dependently inhibited CCK-stimulated protein synthesis over the same concentration range that blocked calcineurin activity, as assessed by dephosphorylation of the calcineurin substrate calcium-regulated heat-stable protein of 24 kDa. Another immunosuppressant, cyclosporin A, inhibited protein synthesis, but its effects appeared more complex. FK506 also inhibited protein synthesis stimulated by bombesin and carbachol. FK506 did not significantly affect the activity of the initiation factor-2B, or the phosphorylation of the initiation factor-2alpha, ribosomal protein protein S6, or the mRNA cap binding protein eukaryotic initiation factor (eIF) 4E. Instead, blockade of calcineurin with FK506 reduced the phosphorylation of the eIF4E binding protein, reduced the formation of the eIF4F complex, and increased the phosphorylation of eukaryotic elongation factor 2. From these results, we conclude that calcineurin activity is required for protein synthesis, and this action may be related to an effect on the formation of the mRNA cap binding complex and the elongation processes.
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PMID:Calcineurin is required for translational control of protein synthesis in rat pancreatic acini. 1504 54

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