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)

FK506 and cyclosporin A (CsA) are immunosuppressive agents that inhibit IL-2 production by activated T cells, but only CsA inhibits IgE activation-induced cytokine transcripts in mouse IL-3-dependent, bone marrow-derived mast cells (BMMC). We previously associated the resistance of BMMC to FK506 with a deficiency in the expression of FK506 binding protein (FKBP) 12, a molecule that forms a complex with FK506 capable of inhibiting calcineurin phosphatase activity in vitro. In this report, we establish that FKBP12 mediates FK506 inhibition of both calcineurin phosphatase activity and IgE activation-induced cytokine transcripts in a Kirsten murine sarcoma virus-immortalized mast cell line that is FKBP12 deficient. Overexpression of FKBP12 by transfection enhanced the ability of FK506 to inhibit calcineurin phosphatase activity (IC50 = 2 nM), compared with cells transfected with the expression vector alone (IC50 > 30 nM). The IC50 value for FK506 inhibition of IgE activation-induced transcripts for TNF-alpha decreased from 40 nM in vector control cells to 10 nM in FKBP12 transfectants. Similarly, the IC50 value for inhibition of IL-6 transcripts decreased from > 1000 nM in vector control cells to 35 nM in FKBP12 transfectants. In contrast, activation-elicited release of the secretory granule mediator beta-hexosaminidase was only partially inhibited by FK506 at 1000 nM, regardless of the levels of FKBP12 expressed by the cells. Thus, FKBP12 is the dominant cytosolic protein that mediates FK506 inhibition of TNF-alpha and IL-6 transcripts.
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PMID:The complex of FK506-binding protein 12 and FK506 inhibits calcineurin phosphatase activity and IgE activation-induced cytokine transcripts, but not exocytosis, in mouse mast cells. 753 Jul 43

Group I and Epstein-Barr virus-negative Burkitt's lymphoma cell lines and the B104 lymphoma cell line which expresses a phenotype of immature B cells undergo apoptosis after cross-linking of their surface Ig receptors or after exposure to a calcium ionophore. We show here that tumor necrosis factor (TNF)-alpha protects these B cell lines against Ca(2+)-dependent apoptosis. Protection was associated with up-regulation of bcl-2 mRNA and protein expression. The increase of Bcl-2 expression induced by TNF-alpha was inhibited by chelerythrine, a specific inhibitor of protein kinase C (PKC), suggesting that Bcl-2 expression was dependent on PKC activation. Furthermore, we show that phorbol esters and cyclosporin A (CsA), which prevent Ca(2+)-dependent apoptosis, up-regulated Bcl-2 expression. The effect of CsA on Bcl-2 expression is controlled by calcineurin since we have shown that FK506 but not rapamycin had the same effect on Bcl-2 expression, whereas okadaic acid, an inhibitor of phosphatases 1, 2A and 2C, was ineffective. These data provide direct evidence that TNF-alpha prevents Ca(2+)-dependent apoptosis by a Bcl-2-dependent mechanism mediated by PKC.
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PMID:Tumor necrosis factor-alpha up-regulates Bcl-2 expression and decreases calcium-dependent apoptosis in human B cell lines. 754 79

The Ca(2+)-dependent phosphatase calcineurin, a target of FK506 and CsA, synergizes with PKC-induced activation of nuclear factor (NF)-kappa B in T cell lines. We have investigated whether this synergy is present in other cell types and the mechanism(s) by which these two pathways lead to NF-kappa B activation. While this synergy is present in other cell types, in the monocytic cell line U937 calcineurin is also sufficient to activate NF-kappa B. Having previously shown that Ca(2+)- and PKC-dependent pathways synergize by accelerating the degradation of IkB alpha, we focused on the regulation of IkB alpha phosphorylation. While PKC-dependent pathways sequentially result in the phosphorylation and in an incomplete degradation of IkB alpha in T cell lines, co-activation of Ca(2+)-dependent pathways accelerates the rate of IkB alpha phosphorylation and results in its complete degradation. Activation of Ca(2+)-dependent pathways alone do not result in the phosphorylation and/or degradation of IkB alpha in Jurkat T or in U937 cells. Treatment of T cells with the selective PKC inhibitor GF109203X abrogates the PMA-induced IkB alpha phosphorylation/degradation irrespective of activation of Ca(2+)-dependent pathways, but not the phosphorylation and degradation of IkB alpha induced by TNF-alpha, a PKC-independent stimulus. Contrary to the interaction with PKC, Ca(2+)-dependent pathways synergize with TNF-alpha not at the level of IkB alpha phosphorylation, but at the level of its degradation. These results indicate that Ca(2+)-dependent pathways, including the phosphatase calcineurin, participate in the regulation of NF-kappa B in a cell specific fashion and synergize with PKC-dependent and -independent pathways at the level of IkB alpha phosphorylation and degradation.
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PMID:Regulation of IkB alpha phosphorylation by PKC- and Ca(2+)-dependent signal transduction pathways. 759 68

The plasminogen activator inhibitor PAI-1 is markedly elevated in vivo and in vitro upon exposure to the inflammatory mediators tumor necrosis factor alpha (TNF alpha), interleukin-1 (IL-1), and bacterial lipopolysaccharide. Here we report that the isoflavone compound genistein prevents the increase in synthesis of PAI-1 induced by these inflammatory mediators in human endothelial cells in vitro, and partially reduces the basal PAI-1 production by these cells. These effects of genistein were accompanied by a decrease in PAI-1 mRNA and in a suppression of the PAI-1 transcription rate as shown by run-on assay. A specific action of genistein, probably by inhibiting a tyrosine protein kinase, is likely, because the structural genistein analogue daidzein, which has a low tyrosine protein kinase inhibitor activity, did not inhibit PAI-1 synthesis. Vanadate, a tyrosine protein phosphatase inhibitor, increased PAI-1 production. The effect of genistein on PAI-1 synthesis was rather selective. Herbimycin A also reduced PAI-1 synthesis, but several other tyrosine protein kinase inhibitors, namely tyrphostin A47, methyl-2,5-dihydroxy-cinnamate, and compound 5, were unable to do so. All these tyrosine protein kinase inhibitors reduced basic fibroblast growth factor (b-FGF)-induced [3H]thymidine incorporation in endothelial cells. This indicates that the effect of genistein on PAI-1 transcription proceeds independently of its effect on mitogenesis. In contrast to TNF-alpha-induced PAI-1 production, the transcription and synthesis of urokinase-type plasminogen activator (u-PA) was not inhibited by genistein. A TNF-alpha-mutant (Trp32Thr86TNF alpha) that specifically recognizes the 55-kD TNF-receptor, mimicked the effects of TNF alpha on both PAI-1 and u-PA. Because genistein affected PAI-1, but not u-PA induced by this mutant, involvement of different TNF-receptors cannot underlie the difference in the effects of genistein on PAI-1 and u-PA synthesis. Because genistein also inhibited PAI-1 induction by thrombin and IL-4, it is likely that genistein does not act on a TNF alpha-receptor-coupled protein kinase but on the signal transduction pathway enhancing PAI-1 transcription. Our results suggest that the TNF alpha-induced signal transduction pathway of PAI-1 transcription involves a genistein-sensitive step that is not involved in the induction of u-PA by TNF alpha. Given the limited sensitivity to several other tyrosine protein kinase inhibitors, this genistein-sensitive step may be a potential target for pharmacologic intervention to reduce elevated plasma PAI-1 levels.
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PMID:Genistein reduces tumor necrosis factor alpha-induced plasminogen activator inhibitor-1 transcription but not urokinase expression in human endothelial cells. 794 70

Previous studies have suggested that gangliosides have an important role in cell signaling and recognition. However, their specific function in these processes has not been clearly defined. A mAb, R24, that reacts specifically with a cell surface ganglioside (GD3) has been demonstrated to stimulate proliferation of T cells derived from human peripheral blood. In this study, we have investigated the mechanisms by which the R24 mAb affects T cell functions. We have observed that the R24 mAb stimulates GD3+ T cell proliferation, cytotoxicity, and surface marker expression of IL-2R alpha-chain, IL-2R beta-chain, HLA-DR, CD11a, and CD11c. Additionally, IFN-gamma activity but not IL-1, IL-2, or IL-4 activity was present in culture supernatants 72 h after R24 stimulation. In some donors, increased IL-6 and TNF-alpha activity also was detected after R24 treatment. Furthermore, R24 treatment resulted in translocation of c-rel, but little or no NF kappa B p50 or p65, from the cytoplasm to the nucleus and an increase of NF kappa B binding complexes containing c-rel and p50. This treatment also caused increased tyrosine phosphorylation of specific protein substrates. R24-stimulated increases in proliferation, cytotoxicity, and cell surface protein expression could be blocked by cyclosporin and staurosporin, indicating that cyclophilin/calcineurin and protein kinase C may be involved in the R24 signaling pathway. Additionally, herbimycin A, a tyrosine kinase inhibitor, blocked the R24-stimulated increase in proliferation but not cytotoxicity at concentrations consistent with specificity for tyrosine kinases. These results suggest that multiple biochemical pathways are involved in the activation of human T cells by R24.
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PMID:Increased proliferation, cytotoxicity, and gene expression after stimulation of human peripheral blood T lymphocytes through a surface ganglioside (GD3) 828 32

In this study, the acute effects of tumor necrosis factor (TNF)-alpha on insulin-stimulated glucose uptake, glycogen synthesis, and protein phosphatase-1 (PP-1) activation were examined in cultured rat skeletal muscle cell line, L6. Exposure of L6 cells to low concentrations of TNF-alpha (10 ng/ml for 60 min) inhibited basal and insulin stimulated 2-deoxyglucose uptake (40-50% decrease in basal and insulin stimulated glucose uptake respectively, when compared with controls, P < 0.05). The effect of TNF-alpha was more pronounced when the incubation period was extended to 6 and 12 h. TNF-alpha also blocked insulin activation of glycogen synthase (GS) and inhibited glycogen synthesis (measured as [14C]-glucose incorporated into glycogen). Because GS is activated by dephosphorylation via protein phosphatase-1 (PP-1), we examined the effect of TNF- alpha on PP-1 activation. As reported by us earlier (Srinivasan, M., and N. Begum, J Biol Chem 269:16662-16667, 1994), insulin rapidly stimulated PP-1 and concomitantly inhibited PP-2A activities in L6 cells. Pretreatment with TNF- alpha for 10-60 min blocked subsequent insulin-induced activation of PP-1. The impaired activation of PP-1 was accompanied by a reduction in insulin-stimulated phosphorylation of the regulatory subunit of PP-1. cAMP-Rp diastereomer, a cAMP antagonist failed to prevent the detrimental effects of TNF-alpha on PP-1. Cell permeable ceramide analogs, C2, C6, and Sphingomyelinase mimicked the effects of TNF-alpha on PP-1 inhibition. Furthermore, TNF-alpha treatment was accompanied by an increase in cellular ceramide levels, with concomitant reductions in sphingomyelin. We conclude that TNF-alpha blocks insulin-stimulated glycogen synthesis by inhibiting PP-1 activation via ceramide release.
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PMID:Effect of tumor necrosis factor-alpha on insulin action in cultured rat skeletal muscle cells. 864 Nov 97

We examined the effect of staphylococccal enterotoxin B (SEB)-induced anergy on expression of six different cytokine genes in T cells restimulated with SEB in vitro. We found that although IL-2, IL-3, and IL-4 mRNA levels are substantially reduced in anergic T cells, mRNAs for IL-6, IL-10, IFN-gamma, and TNF-alpha are expressed normally. Thus, there appeared both anergy-sensitive and resistant cytokine mRNA expression in restimulated anergic T cells. The same pattern of cytokine mRNA responses was observed in anergic CD4+ T cells, indicating that the preferential induction of anergy in Th1-like cells is not evident in this in vivo model. Employing TCR V beta 8.2 transgenic mice in which almost all T cells become anergic, we found that the TCR/CD3 complex can transduce both anergy-sensitive and resistant signals. Furthermore, a series of experiments using FK506, A23187, and PMA suggests that signals between TCR and activation of calcineurin and protein kinase C may be blocked in anergic T cells. This is supported by our gel mobility shift assays indicating that calcineurin and/or PMA-inducible NF-ATp, OAP40, and AP-1, but not calcineurin-independent Oct-2, are repressed in anergic spleen T cells upon restimulation with SEB. Taken together, these results suggest that, among signals elicited by stimulation of TCR with SEB, a Ca2+/calcineurin-NF-ATp pathway and other signals, including protein kinase C, are repressed in anergic T cells upstream of their activation, which are essential for the cytokine mRNA expression of the anergy-sensitive type but are dispensible for those of the anergy-resistant type.
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PMID:Effect of staphylococcal enterotoxin B-induced anergy on cytokine gene expression: anergy-sensitive and resistant mRNA expression. 869 45

The adherence of tumour cells to microvascular endothelium is believed to be a necessary step in their migration to sites of metastasis. It has been proposed that this process occurs when cell surface molecules on tumour cells bind to complementary sites on endothelial cells. The expression of these endothelial-derived cell adhesion molecules appears to be modulated by cytokines, a broad class of protein mediators which play important roles in immune and inflammatory reactions. It has been found by ourselves and others that exposure of endothelium to some cytokines augments the adhesion of inflammatory cells as well as tumour cells in in vitro assays. We used a murine model consisting of P815 mastocytoma cells and microvascular endothelium and found that pretreatment of endothelial monolayers with TNF-alpha, IL-1, LPS or PMA augmented the number of tumour cells that attach in a dose-dependent fashion. FACS analysis showed that the change in binding was due to an increase in the expression of VCAM-1 on the surface of the endothelial cell. Methylxanthines (caffeine and theophylline) as well as "classical" calcium-mobilizing agents (ionomycin and thapsigargin) inhibited the expression of VCAM-1 in MME. We also studied the possible mechanisms of TNF-alpha signal transduction in endothelial cells. We examined the involvement of protein kinases in the TNF-alpha effect. Although we found that inhibitors of PKC could inhibit the TNF-alpha effect, our studies suggest that the "classical" PKC pathway is not completely responsible for signaling since TNF-alpha did not cause translocation of PKC to the cell membrane and its effect could not be completely mimicked by PMA. We also studied the effect of TGF-beta on the binding of tumour cells to endothelium. Exposure of endothelium to TGF-beta led to the inhibition of both basal and TNF-alpha enhanced binding of P815 cells. Inhibitors of G-proteins do not abolish TGF-beta action, and PKC and PKA activators elicit an opposite effect. However, TGF-beta-mediated inhibition of both basal binding and TNF-alpha-enhanced P815 binding to endothelium is completely abolished in the presence of the protein phosphatase inhibitor okadaic acid suggesting that TGF-beta elicits its effect by stimulating protein phosphatase activity.
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PMID:Effect of cytokines on tumour cell-endothelial interactions. 934 51

Productive T cell activation leading to cytokine secretion requires the cooperation of multiple signaling pathways coupled to the TCR and to costimulatory molecules such as CD28. Here, we utilized two pharmacophores, PD98059 and FK506, that inhibit, respectively, mitogen-activated protein (MAP) kinase kinase 1 (MEK 1) and calcineurin, to determine the relative role of the signaling pathways controlled by these enzymes in T cell activation. Although the two compounds had distinctive effects on CD69 induction, they both suppressed T cell proliferation induced by anti-CD3 mAb, in a manner reversible by exogenous IL-2, suggesting that PD98059, like FK506, affects the production of, rather than the responsiveness to growth-promoting cytokines. Accordingly, IL-2 production by T cells stimulated with anti-CD3 mAb in conjunction with PMA or with anti-CD28 mAb was inhibited by both compounds. However, these compounds differentially affected the production of other cytokines, depending on the mode of activation. PD98059 inhibited TNF-alpha, IL-3, granulocyte-macrophage (GM)-CSF, IFN-gamma, and to a lesser extent IL-6 and IL-10 production but enhanced IL-4, IL-5, and IL-13 production induced by CD3/PMA or CD3/CD28. FK506 suppressed CD3/PMA-induced production of all cytokines examined here but to a lesser extent IL-13. FK506 also reduced CD3/CD28-induced production of IL-3, IL-4, IL-10, TNF-alpha, and IL-6 but augmented that of GM-CSF, IL-5, IFN-gamma, and IL-13. Therefore, the biochemical targets of PD98059 and FK506 contribute differently to the production of various cytokines by T cells, which may have implications for the therapeutic manipulation of this production.
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PMID:Inhibition of T cell activation by pharmacologic disruption of the MEK1/ERK MAP kinase or calcineurin signaling pathways results in differential modulation of cytokine production. 951 Jan 55

A small number of signaling cascades represented by mitogen-activated protein kinases, phosphoinositol-3-kinase, protein kinase C, signal transducers and activators of transcription, Ca2+/calcineurin, and a few other molecules are linked to an incomparably large number of surface receptors. Parallel activation of several of these pathways and the existence of isozymes for a number of signal transmitting molecules generate the required complexity and specificity matching the receptor variety. Here we show that the proinflammatory mediator TNF-alpha and the growth factor IL-5 are activated along common and distinct signaling cascades in allergically stimulated murine mast cells. Both of them are dependent on Ca2+ influx, activation of calcineurin and nuclear factor of activated T cells as well as a member of the atypical PKC family, most likely PKCmu. Additionally, mitogen-activated protein kinases for TNF-alpha and members of the classical or nonclassical PKCs for IL-5, respectively, were identified as additional required pathways. Inhibition of the classical and nonclassical PKCs, however, does not abrogate IL-5 induction but instead leads to a switch to mitogen-activated protein kinases, which then become essential. The activated branches of this "salvage" signaling cascade are represented by extracellular signal-regulated kinase 1/2 and c-jun NH2 terminal kinase 1 in allergically stimulated mast cells.
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PMID:Common and distinct signaling pathways mediate the induction of TNF-alpha and IL-5 in IgE plus antigen-stimulated mast cells. 955 81

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