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, penetrating the human erythrocytes, almost completely inhibits P-Ser-protein phosphatase activity, whereas it unaffects Ser/Thr-protein kinase activity (casein kinases CKI and CKII), thus promoting a marked increase of the endogenous Ser-phosphorylation level of membrane proteins, such as cytoskeletal spectrin beta-subunit (band 2) and transmembrane band 3 protein. By contrast, the Tyr-phosphorylation state of band 3 protein is practically unaffected by okadaic acid, being unaffected both Tyr-protein kinase and P-Tyr-protein phosphatase activities.
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PMID:Effect of okadaic acid on membrane protein phosphorylation in human erythrocytes. 839 24

It has been suggested that, in pancreatic beta-cells, acetyl-CoA carboxylase (ACC) is a key enzyme in glucose signal transduction leading to glucose-induced insulin secretion. The PII promoter is the only active promoter for the ACC gene in the beta-cell. Here we report that, in the pancreatic beta-cell, high glucose levels (above 20 mm) activate Sp1 binding to the glucose response element of the PII promoter, which leads to a dose-dependent increase in PII transcription. The expression of a gene coding protein kinase CK2 (CK2) alpha subunit, or the presence of okadaic acid (a serine/threonine protein phosphatase inhibitor), partially blocks the glucose activation of PII transcription. The inhibitory effect of CK2 alpha, or okadaic acid, was not observed in the absence of glucose or at low glucose concentrations. Phosphorylation of Sp1 by CK2 alpha leads to the inactivation of Sp1 binding to PII. Dephosphorylation of the phosphorylated Sp1 by protein phosphatase 1 (PP1) activates the binding of Sp1 to PII. Inhibition of PP1-catalyzed Sp1 dephosphorylation by okadaic acid, or PP1 specific inhibitor 2, decreases Sp1 binding to PII. These results suggest that the phosphorylation/dephosphorylation of Sp1 by CK2/PP1 may be the underlying mechanism by which the expression of the PII promoter of ACC is controlled in the process of glucose-mediated insulin secretion in pancreatic beta-cells.
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PMID:Protein kinase CK2 down-regulates glucose-activated expression of the acetyl-CoA carboxylase gene. 902 76

NIPP-1 is the RNA-binding subunit of a major species of protein phosphatase-1 in the nucleus. We have expressed nuclear inhibitor of protein phosphatase-1 (NIPP-1) in Sf9 cells, using the baculovirus-expression system. The purified recombinant protein was a potent (Ki = 9.9 +/- 0.3 pM) and specific inhibitor of protein phosphatase-1 and was stoichiometrically phosphorylated by protein kinases A and CK2. At physiological ionic strength, phosphorylation by these protein kinases drastically decreased the inhibitory potency of free NIPP-1. Phosphorylation of NIPP-1 in a heterodimeric complex with the catalytic subunit of protein phosphatase-1 resulted in an activation of the holoenzyme without a release of NIPP-1. Sequencing and phosphoamino acid analysis of tryptic phosphopeptides enabled us to identify Ser178 and Ser199 as the phosphorylation sites of protein kinase A, whereas Thr161 and Ser204 were phosphorylated by protein kinase CK2. These residues all conform to consensus recognition sites for phosphorylation by protein kinases A or CK2 and are clustered near a RVXF sequence that has been identified as a motif that interacts with the catalytic subunit of protein phosphatase-1.
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PMID:Properties and phosphorylation sites of baculovirus-expressed nuclear inhibitor of protein phosphatase-1 (NIPP-1). 940 77

Mouse FT210 cells at 39 degreesC cannot enter mitosis but arrest in G2 phase, because they lack Cdc2 kinase activity as a result of a temperature-sensitive lesion in the cdc2 gene. Incubation of arrested cells with the protein phosphatase 1 and 2A inhibitor okadaic acid induces morphologically normal chromosome condensation. We now show that okadaic acid also induces two other landmark events of early mitosis, nuclear lamina depolymerization and centrosome separation, in the absence of Cdc2 kinase activity. Okadaic acid-induced entry into mitosis is accompanied by partial activation of Cdc25C and may be prevented by tyrosine phosphatase inhibitors and by the protein kinase inhibitor staurosporine, suggesting that Cdc25C and kinases distinct from Cdc2 are required for these mitotic events. Using in-gel assays, we show that a 45-kDa protein kinase normally activated at mitosis is also activated by okadaic acid independently of Cdc2 kinase. The 45-kDa kinase can utilize GTP, is stimulated by spermine and is inhibited by heparin. These properties are characteristic of the kinase CK2, but immunoprecipitation studies indicate that it is not CK2. The data underline the importance of a tyrosine phosphatase, possibly Cdc25C, and of kinases other than Cdc2 in the structural changes the cell undergoes at mitosis, and indicate that entry into mitosis involves the activation of multiple kinases working in concert with Cdc2 kinase.
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PMID:Entry into mitosis without Cdc2 kinase activation. 978 81

Protein phosphatases are responsible for keeping the signaling output of stimulus-activated protein kinases in check; but protein phosphatases are also themselves targets and conveyors of biological signals. Among the major serine/threonine phosphatases, protein phosphatase 2A (PP2A) appears to play a privileged role in the regulation of cell growth and division. How PP2A is regulated is an intriguing question. This review will focus on the role of local protein-protein interactions in PP2A control. Work from a number of laboratories has shown that the catalytic activity, substrate specificity, and subcellular targeting of PP2A are regulated by a remarkably diverse range of regulatory subunits and enzyme inhibitors. On the pathological side, DNA tumor viruses subvert PP2A function by producing proteins that compete with specific regulatory subunits. By interfering with PP2A, these viral proteins can elicit changes in the activity of specific signal transduction pathways, such as the mitogen-activated protein kinase cascade. Recent data indicate that besides classical holoenzyme forms, a fraction of PP2A molecules are associated with novel partners implicated in signal transduction. PP2A biochemically and genetically interacts with the Tap42/alpha4 protein, which is part of a rapamycin-sensitive pathway that connects extracellular stimuli to the initiation of mRNA translation. PP2A also binds to CK2alpha, the catalytic subunit of CK2 (formerly casein kinase 2), and binding is sensitive to mitogenic signaling. The potent effect of quantitatively minor PP2A partners might be explained by a general requirement for docking interactions with substrates under intracellular conditions.
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PMID:Protein phosphatase 2A: who shall regulate the regulator? 993 20

Protein phosphatase 2A (PP2A) activity may be differentially regulated by the expression of proteins containing a related amino acid sequence motif such as the casein kinase 2alpha (CK2alpha) subunit or SV40 small t antigen (SVt). Expression of CK2alpha increases PP2A activity whereas SVt decreases its activity. In this work we have tested for the effect of the expression of a third protein containing a similar motif that could be involved in PP2A regulation, the catalytic casein kinase 2alpha' subunit. Our results show that despite the structural similarity of this protein with the other CK2 catalytic (alpha) subunit, the function of the two subunits with respect to the modulation of PP2A activity is quite different: CK2alpha increases whereas CK2alpha' slightly decreases PP2A activity.
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PMID:The expression of casein kinase 2alpha' and phosphatase 2A activity. 1008 73

The p53 tumour suppressor protein is regulated by several mechanisms including multisite phosphorylation. One of the protein kinases which has an established role in regulating p53 function is the protein kinase CK2. The regulation by CK2 occurs both through interaction of p53 with CK2 itself (the regulatory beta subunit) and phosphorylation at the penultimate residue of p53, serine 386 (murine p53). Strikingly, this phosphorylation event controls several independent functions of p53 including site-specific DNA binding, strand renaturation, transcriptional repression and the anti-proliferative function of p53. However, CK2 is a constitutively-active enzyme and therefore the mechanism by which the phosphorylation of p53 at serine 386 is itself regulated, or indeed the question as to whether phosphorylation of this site is regulated at all, remains unresolved. In this paper we provide evidence that serine 386 is highly resistant to dephosphorylation in cultured cells, even though this site can be dephosphorylated in vitro by recombinant protein phosphatase 1. These data suggest that, once phosphorylated at the CK2 site, a p53 molecule remains in this modified form throughout its lifespan. To address the issue of whether the level of serine 386 phosphorylation may be regulated through controlling the subcellular compartmentalisation of p53 and CK2, we examined the subcellular localisation of p53 and CK2alpha in C57MG cells and Rat-1 fibroblasts by immunofluorescence staining. Both proteins were present in the cytoplasm and enriched in the nucleus, with minor variations in the intensity of subcellular location over the course of the cell cycle. Similarly, activation of p53 by UV irradiation or DNA damage-inducing drugs had no effect on either the localisation or levels of CK2alpha, even although significant nuclear p53 accumulation was observed. A striking observation arising from these studies was the intense staining of CK2alpha with the centrosomes, suggesting a potentially important role for this kinase in microtubule formation and/or chromosomal segregation.
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PMID:Protein kinase CK2-dependent regulation of p53 function: evidence that the phosphorylation status of the serine 386 (CK2) site of p53 is constitutive and stable. 1009 8

The subcellular localization of the transcription factor NFATc is tightly regulated by the calcium-regulated phosphatase calcineurin, which acts to directly dephosphorylate NFATc, causing its rapid translocation from the cytoplasm to the nucleus. The calcineurin-mediated nuclear localization of NFATc is opposed by poorly defined protein kinases that act either to directly antagonize nuclear import or, alternatively, to promote nuclear export. Here, we provide evidence that the cellular protein kinases JNK, ERK, p38, and CK2 (formerly casein kinase II) are involved in the regulation of NFATc subcellular localization. We show that JNK, ERK, and p38 physically associate with the NFATc N-terminal regulatory domain and can directly phosphorylate functionally important residues involved in regulating NFATc subcellular localization, namely Ser(172) and the conserved NFATc Ser-Pro repeats. Moreover, we found that overexpression of JNK, ERK, or p38 is able to block ionomycin-induced NFATc nuclear translocation, whereas treatment of cells with both PD98059 and SB202190, which inhibit MAPK/SAPK signaling pathways, is sufficient to trigger NFATc nuclear localization. Finally, we show that CK2 also binds the N terminus of NFATc and phosphorylates functionally important amino acid residues, including a conserved amino acid motif located downstream of each of the NFATc Ser-Pro repeats that appears to be important for regulating NFATc nuclear export. Collectively, these studies identify functionally important amino acid residues and protein kinases involved in the regulation of NFATc subcellular localization.
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PMID:Identification of amino acid residues and protein kinases involved in the regulation of NFATc subcellular localization. 1065 49

In the growth course of the lipolytic yeast Yarrowia lipolytica, the activities of protein phosphatase 2A (PP2A) and glycogen synthase (GS) rise during the exponential phase and concomitantly glycogen storage occurs in the cells. There is also an increase in the independence ratio (RI) indicating a shift from an inactive phosphorylated GS form to an active dephosphorylated GS form. During the early stationary phase, an increase in protein kinase CK2 (CK2) activity, a reversion of RI variation and a glycogen content decrease are observed. GS activity proved to be a good indicator of early culture growth phase. Experiments carried out with enzymes purified from Y. lipolytica show strong RI variations upon the action of CK2 and PP2Ac, and 32P incorporation into GS protein through phosphorylation by CK2. GS activity would be controlled by the sequential action of PP2A and CK2.
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PMID:Time-co-ordinated control of glycogen synthase, protein phosphatase 2A and protein kinase CK2 during culture growth in Yarrowia lipolytica in relation to glycogen metabolism. 1078 29

PTP-S2 is a tyrosine specific protein phosphatase that binds to DNA and is localized to the nucleus in association with chromatin. It plays a role in the regulation of cell proliferation. Here we show that the subcellular distribution of this protein changes during cell division. While PTP-S2 was localized exclusively to the nucleus in interphase cells, during metaphase and anaphase it was distributed throughout the cytoplasm and excluded from condensed chromosomes. At telophase PTP-S2 began to associate with chromosomes and at cytokinesis it was associated with chromatin in the newly formed nucleus. It was hyperphosphorylated and showed retarded mobility in cells arrested in metaphase. In vitro experiments showed that it was phosphorylated by CK2 resulting in mobility shift. Using a deletion mutant we found that CK2 phosphorylated PTP-S2 in the C-terminal non-catalytic domain. A heparin sensitive kinase from mitotic cell extracts phosphorylated PTP-S2 resulting in mobility shift. These results are consistent with the suggestion that during metaphase PTP-S2 is phosphorylated (possibly by CK2 or a CK2-like enzyme), resulting in its dissociation from chromatin.
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PMID:PTP-S2, a nuclear tyrosine phosphatase, is phosphorylated and excluded from condensed chromosomes during mitosis. 1082 96

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