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 protein phosphatase inhibitor, is a strong tumor promoter which activates protein phosphorylation. Because another activator of protein phosphorylation, phorbol esters, stimulates hematopoietic differentiation, we sought to determine whether okadaic acid could also induce the differentiation of the human leukemic cell line U937. Differentiation was assessed by measuring changes in the following: mRNA levels, cell growth, morphology, cell surface markers, and the ability to induce superoxide. We found that okadaic acid treatment of U937 cells induces immediate increases in total cellular levels of both c-jun and c-fos mRNAs. Nuclear run-on experiments demonstrate that initial increases are secondary to increases in transcription, whereas latter changes may be secondary to mRNA stabilization. Like phorbol esters, okadaic acid treatment also activates AP-1 enhancer activity and induces the phosphorylation of c-Jun protein. Approximately 6-12 hours after treatment with okadaic acid, mRNA levels of c-myc, p34cdc2, and p58GTA, two cell cycle regulated protein kinases, decrease. Okadaic acid inhibits the growth of U937 cells, induces changes in nuclear morphology, stimulates increases in Mac-1 and Leu 11 surface antigens, and induces these cells to produce superoxide. These changes, taken together, suggest that U937 cells have been induced by okadaic acid to differentiate towards a more mature cell type.
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PMID:Induction of differentiation and c-jun expression in human leukemic cells by okadaic acid, an inhibitor of protein phosphatases. 131 24

The protein phosphatase 1 and 2A inhibitor, okadaic acid, has been shown to stimulate many cellular functions by increasing the phosphorylation state of phosphoproteins. In human monocytes, okadaic acid by itself stimulates tumor necrosis factor alpha (TNF-alpha) mRNA accumulation and TNF-alpha synthesis. Calyculin A, a more potent inhibitor of phosphatase 1, has similar effects. TNF-alpha mRNA accumulation in okadaic acid-treated monocytes is due to increased TNF-alpha mRNA stability and transcription rate. The increase in TNF-alpha mRNA stability is more remarkable in okadaic acid-treated monocytes than the mRNA stability of other cytokines, such as interleukin 1 alpha (IL-1 alpha), IL-1 beta, and IL-6. Gel retardation studies show the stimulation of AP-1, AP-2, and NF-kappa B binding activities in okadaic acid-stimulated monocytes. This increase may correlate with the increase in TNF-alpha mRNA transcription rate. In addition to the stimulation of TNF-alpha secretion by monocytes, okadaic acid appears to modulate TNF-alpha precursor processing, as indicated by a marked increase in the cell-associated 26-kD precursor. These results suggest that active basal phosphorylation/dephosphorylation occurs in monocytes, and that protein phosphatase 1 or 2A is important in regulating TNF-alpha gene transcription, translation, and posttranslational modification.
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PMID:Stimulation of tumor necrosis factor alpha production in human monocytes by inhibitors of protein phosphatase 1 and 2A. 132 71

We have examined the regulation of the AP-1 transcription complex in the IL-1-responsive murine T cell thymoma cell line EL-4 6.1 C10. Our results demonstrate that AP-1-mediated gene expression in T cells may be regulated by several signaling pathways and factors, including IL-1, protein kinase C, protein kinase A (PKA), and one or more serine/threonine-specific protein phosphatases. The activation of protein kinase C results in an increase in nuclear AP-1 DNA binding activity, as well as enhanced gene expression. IL-1 and agents that elevate intracellular cAMP levels do not, by themselves, induce AP-1 activation, but they synergize with phorbol esters. IL-1 and forskolin may enhance AP-1 function by different mechanisms, because forskolin enhanced gene expression without producing an increase in nuclear AP-1 DNA binding, whereas IL-1 increased AP-1-binding activity and gene expression. These observations, in conjunction with the lack of a demonstrable effect of IL-1 on cAMP production in EL-4 cells, are consistent with the view that IL-1 enhances AP-1 activation by a pathway that does not directly involve cAMP and PKA. However, the induction of AP-1 activity by IL-1 and phorbol esters is dependent upon the presence of PKA, as evidenced by the loss of AP-1 inducibility in cells transfected with a cDNA encoding protein kinase inhibitor, a specific inhibitor of PKA. The effect of protein kinase inhibitor on AP-1 activation in response to IL-1 and tetradecanoyl-phorbol-13-acetate was reversed in the presence of the serine/threonine protein phosphatase inhibitor okadaic acid. Thus, the level of AP-1 activity in T cells may be determined by the balance between the activities of several serine/threonine protein kinases and phosphatases.
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PMID:Activation of AP-1 by IL-1 and phorbol esters in T cells. Role of protein kinase A and protein phosphatases. 171 7

2,3,7,8-Tetrachloro-p-dioxin (TCDD) induced a modest stimulation of nuclear protein phosphorylation in explant tissue cultures in 10 min, followed by a substantial decrease in the level of total protein phosphorylation activity in the nucleus. Curiously, this TCDD-induced decline in nuclear protein phosphorylation was accompanied by an increase in cytosolic and extranuclear protein phosphorylation activity. One of the main causes for such a decrease in the protein phosphorylation activity in the nucleus appears to be related to some increase in protein phosphatase activities as judged by the counteractions of okadaic acid and Na3VO4 to the above effect. In addition, TCDD induced changes in nuclear protein kinase activities as well. Manganese-stimulated protein kinase was found to be the predominant type of nuclear protein phosphorylating activity affected by TCDD, with 60% of the total activity due to heparin-sensitive casein kinase II (CK II), a major nuclear protein kinase. The level of CK II activity in the nuclear protein preparation from adipose tissue of TCDD-treated guinea pigs (1 microgram/kg) in the presence of 100 nM heparin was only 35% of the control value after 24 hr. In addition, TCDD was found to increase the protein kinase C and microtubule-associated protein 2 kinase activities as early as 15 min after treatment in isolated adipose tissues in culture. Under in situ incubation conditions with explant tissues in culture, TCDD rapidly enhanced the DNA binding activity of the transcriptional factor AP-1, whereas the same treatment reduced c-Myc DNA binding activity. Genistein, a specific protein tyrosine kinase inhibitor, abolished the stimulatory effect of TCDD on AP-1 binding activity, but not on DNA binding activity of c-Myc. Phorbol ester (TPA) increased the binding activity of AP-1 and c-Myc, as expected. However, TCDD in combination with TPA caused a slight reduction in binding activity of both transcriptional factors. On the other hand, in the presence of forskolin, the stimulatory effect of TCDD on AP-1 binding activity and the inhibitory effect on c-Myc were still apparent. Okadaic acid almost abolished the binding activity of c-Myc, whereas in combination with TCDD a stimulatory effect was found. These observations are consistent with the idea that TCDD regulates the DNA binding activity of AP-1 and c-Myc mainly through modulating their states of phosphorylation by altering protein kinase and phosphatase activities.
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PMID:Regulation by 2,3,7,8-tetrachlorodibenzo-p-dioxin (TCDD) of the DNA binding activity of transcriptional factors via nuclear protein phosphorylation in guinea pig adipose tissue. 748 34

We studied the effects of RRR-alpha-tocopherol and RRR-beta-tocopherol in smooth muscle cells from rat (line A7r5) and human aortas. RRR-alpha-Tocopherol, but not RRR-beta-tocopherol, inhibited smooth muscle cell proliferation in a dose-dependent manner at concentrations in the range from 10 to 50 mumol/L. RRR-beta-Tocopherol added simultaneously with RRR-alpha-tocopherol prevented growth inhibition. The earliest event brought about by RRR-alpha-tocopherol in the signal transduction cascade controlling receptor-mediated cell growth was the activation of the transcription factor AP-1. RRR-beta-tocopherol alone was without effect but in combination with RRR-alpha-tocopherol prevented the AP-1 activating effect of the latter. Protein kinase C was inhibited by RRR-alpha-tocopherol and not by RRR-beta-tocopherol, which also in this case prevented the effect of RRR-alpha-tocopherol. Calyculin A, a protein phosphatase inhibitor, prevented the effect of RRR-alpha-tocopherol on protein kinase C. The data can be rationalized by a model in which a tocopherol-binding protein discriminates between RRR-alpha-tocopherol and RRR-beta-tocopherol and initiates a cascade of events at the level of cell signal transduction that leads to the inhibition of cell proliferation.
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PMID:Vitamin E: a sensor and an information transducer of the cell oxidation state. 749 29

Nuclear factor of activated T-cells (NFAT) is a transcriptional activator that binds to the interleukin-2 promoter and is believed to be responsible for T-cell-specific interleukin-2 gene expression. Here we demonstrate using electrophoretic mobility shift assays that nuclear NFAT can be induced in the rat basophilic leukemia (RBL-2H3) mast cell line and rat bone marrow-derived mast cells upon cross-linkage of the high affinity receptor (Fc epsilon RI) for immunoglobulin E (IgE). Receptor-dependent activation of NFAT was mimicked by the combination of the protein kinase C activator phorbol myristate acetate and the calcium ionophore ionomycin. The induced binding activity was specific for the NFAT recognition motif because competition with nonradioactive NFAT oligonucleotide abolished the DNA binding activity, whereas nonradioactive oligonucleotides recognized by the transcription factors NF kappa B, glucocorticoid receptors, and TFIID did not. An oligonucleotide representing the AP-1 recognition sequence also blocked the NFAT DNA binding activity, as did a combination of anti-Fos and anti-Jun antibodies. Using electrophoretic mobility shift assays, AP-1-binding proteins were found to be induced in RBL-2H3 cells under the same conditions as was the NFAT binding activity. Together these data suggest that the NFAT complex in mast cells contains Fos and Jun proteins as does NFAT in T-cells. The appearance of nuclear NFAT binding activity was dependent in part upon calcium mobilization, as buffering the antigen-induced calcium rise with intracellular BAPTA strongly inhibited NFAT activation. Prevention of calcium influx with external EGTA also inhibited NFAT activation, indicating that release of calcium from internal stores was insufficient for sustained activation of mast cell NFAT. Cyclosporin A, a potent inhibitor of the calmodulin-dependent phosphatase calcineurin, blocked the induction of NFAT-DNA binding activity, implicating calcineurin as a key signaling enzyme in this pathway. These results suggest that NFAT is present in the mast cell line RBL-2H3 and in primary bone marrow-derived mast cells, is similar in subunit composition to the T-cell NFAT, and may play a role in calcium-dependent signal transduction in mast cells.
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PMID:Fc epsilon RI-mediated induction of nuclear factor of activated T-cells. 760 2

Okadaic acid, a protein phosphatase inhibitor, is a strong tumor promoter which apparently activates protein phosphorylation. To examine the role of protein phosphatases in stem cell growth and differentiation, embryonal carcinoma F9 cells were treated with okadaic acid. In the presence of this agent, the cells showed rapid morphological changes and arrest of proliferation at the M phase of the cell cycle, accompanied by a marked increase in the mRNA expression of various differentiation markers. Okadaic acid induced rapid increase in the mRNA levels of both c-jun and junB and results indicate that the inhibition of phosphatase by okadaic acid induces apparent activation of protein phosphorylation and may cause the expression of differentiation marker genes in F9 cells via the activation of AP-1.
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PMID:Effects of protein phosphatase inhibition by okadaic acid on the differentiation of F9 embryonal carcinoma cells. 769 28

Engagement of the T cell receptor for antigen activates phospholipase C resulting in an increase in intracellular free calcium concentration ([Ca2+]i) and activation of protein kinase C (PKC). Increased [Ca2+]i activates Ca2+/calmodulin-dependent kinases including the multifunctional Ca2+/calmodulin-dependent protein kinase II (CaM-K II), as well as calcineurin, a type 2B protein phosphatase. Recent studies have identified calcineurin as a key enzyme for interleukin (IL)-2 and IL-4 promoter activation. However, the role of CaM-K II remains unknown. We have used mutants of these kinases and phosphatases (gamma B*CaM-K and delta CaM-AI, respectively) to explore their relative role in cytokine gene transcription and their interactions with PKC-dependent signaling systems. gamma B*CaM-K and delta CaM-AI, known to exhibit constitutive Ca(2+)-independent activity, were cotransfected (alone or in combination) in Jurkat T cells with a plasmid containing the intact IL-2 promoter driving the expression of the chloramphenicol acetyltransferase reporter gene. Cotransfection of gamma B*CaM-K with the IL-2 promoter construct downregulated its transcription in response to stimulation with ionomycin and phorbol myristate acetate (PMA). The inhibitory effect of CaM-K II on IL-2 promoter was associated with decreased transcription of its AP-1 and NF-AT transactivating pathways. Under the same conditions, delta CaM-AI superinduced IL-2 promoter activity (approximately twofold increase). When both mutants were used in combination, gamma B*CaM-K inhibited the induction of the IL-2 promoter by delta CaM-AI. Similar results were obtained when a construct containing the IL-4 promoter also was used. gamma B*CaM-K also downregulated the activation of AP-1 in response to transfection with a constitutively active mutant of PKC or stimulation with PMA. These results suggest that CaM-K II may exert negative influences on cytokine gene transcription in human T cells, and provide preliminary evidence for negative cross-talk with the calcineurin- and PKC-dependent signaling systems.
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PMID:Calcium/calmodulin-dependent protein kinase II downregulates both calcineurin and protein kinase C-mediated pathways for cytokine gene transcription in human T cells. 786 38

Present evidence indicates a pathway of signal transmission in T cells that is outlined in figure 1. The elevation in intracellular calcium that is induced by interactions at the antigen receptor leads to the activation of the calcium-dependent phosphatase calcineurin. This in turn leads to the nuclear association of the cytosolic component of NF-ATc. The activation of calcineurin and the nuclear import of NF-ATc can both be blocked by cyclosporin A or FK506 in complex with their respective immunophilins. Once in the nucleus, NF-ATc interacts with NF-ATn to form an active transcriptional complex. NF-ATn is a ubiquitous protein, can be synthesized in response to PMA, and has many similarities to AP-1. The mechanism by which NF-ATc enters the nucleus is unknown, and although it appears to require calcineurin, NF-ATc has not yet been shown to be an in vivo substrate of calcineurin. Alternative mechanisms include the possibility that NF-ATc operates on some cytoplasmic anchor or that other proteins that are controlled by calcineurin carry out the nuclear import of NF-ATc. Although NF-ATp copurifies with NF-ATc, there is as yet no understanding of how NF-ATp is functioning in vivo. Now that these proteins are purified and cloned, the major goals will be to understand their role and the roles of other family members in thymic development.
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PMID:Cloning and characterization of NF-ATc and NF-ATp: the cytoplasmic components of NF-AT. 788 1

The promoters of IL-2 and IL-4 genes contain multiple binding sites for octamer factors. In peripheral T lymphocytes and several T cell lines, both the ubiquitous Oct factor Oct-1 and the lymphocyte-specific factor Oct-2 are expressed and bind to the IL-2 and IL-4 promoters. Prominent octamer binding sites of IL-2 and IL-4 promoters are their upstream promoter sites (UPS) which share 14 identical nucleotides. Multiple copies of the IL-2 and IL-4 UPS act as inducible enhancers in T cells, and their induction is inhibited by the immunosuppressant cyclosporin A (CsA). Closely linked to the octamer site, the IL-2 UPS contains a non-canonical AP-1 binding (TRE) site, and mutation in either site to a non-functional factor binding site impairs the induction of the IL-2 promoter. The binding of AP-1 and octamer factors to the IL-2 UPS DNA overlaps, and the tight association and functional cooperation of octamer with AP-1 factors is of crucial importance for the inducible IL-2 UPS activity. Introduction of five or ten spacer nucleotides between both IL-2 UPS sites results in a drastic reduction of inducible UPS activity, both in the loss of suppression by CsA and stimulation by the Ca(2+)-dependent phosphatase calcineurin. Within the IL-4 UPS the Oct and TRE-like motifs are separated by a binding site of nuclear factor of activated T cells (NF-AT). This site shares nine out of ten bp with an IL-2 NF-AT site. The strong binding of NF-ATp to the IL-4 UPS site suppresses the simultaneous binding of Oct factors to the IL-4 UPS. Because the two other Oct binding sites of IL-4 promoter show a similar sequence configuration, the binding of NF-AT seems to prevent the simultaneous binding of Oct factors to the IL-4 promoter. By contrast, both classes of factors bind simultaneously to the IL-2 promoter, and their tight association with AP-1 enhances the IL-2 promoter activity.
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PMID:Octamer factors exert a dual effect on the IL-2 and IL-4 promoters. 798 59

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