EC:2.7.11.1 - FACTA Search

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Query: EC:2.7.11.1 (protein kinase)
81,284 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Cyclic AMP (cAMP)-dependent protein kinase A (PKA) is known to have both negative and positive effects on the activation mechanisms of T lymphocytes. The authors have analysed the effect of increased cAMP on the activation of NF-kappa B transcription factor. This factor controls the expression of several genes (e.g. IL-2 and IL-2 receptor) involved in the activation and proliferation of T cells. The authors found that elevation of intracellular cAMP in Jurkat T leukaemia cells activated with phorbol ester (PDBu)/calcium ionophore (A23187) increased the DNA-binding of NF-kappa B as detected by the electrophoretic mobility shift assay (EMSA). Analysis of the subunit composition of the DNA-binding complex indicated that the amount of c-Rel was enhanced while RelA was decreased. Analysis of the effect of elevated cAMP on the degradation of I kappa B-alpha and I kappa B-beta did not reveal an essential change in degradation kinetics of these inhibitor proteins. The elevation of cAMP did not increase the synthesis of c-Rel, but it enhanced the nuclear localization of this protein. Transfection of Jurkat cells with a plasmid kB/TK10-CAT indicated that the increased DNA-binding of c-Rel containing complexes seen in EMSA was also functional. These data imply that the strong and long-lasting c-Rel nuclear localization and DNA-binding induced by protein kinase A is not due to increased c-Rel synthesis or enhanced degradation of the I kappa B inhibitors. Therefore, a direct phosphorylation of the c-Rel protein is the most plausible explanation for these observations. Taken together, these results suggest that cAMP is able to regulate the expression of NF-kappa B-dependent genes in T cells by modifying the composition and subunit activity of NF-kappa B.
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PMID:Activation of the protein kinase A increases the DNA-binding and transcriptional activity of c-Rel in T cells. 865 53

Prostaglandin E2 (PGE2) release from activated macrophages and/or stimulation of T cells is associated with cAMP formation and activation of protein kinase A (PKA). cAMP inhibits Th1- but not Th2-cytokine production and may influence the nature of the immune response to a given antigen. Using DNA transfection and electrophoretic mobility shift assays (EMSA), we have examined the mechanisms for the transcriptional regulation of human IL-2 and IL-4 genes by PGE2. Stimulation of Jurkat cells with ionomycin and PMA in the presence of PGE2 inhibited the IL-2- but not the IL-4-promoter activity. In EMSAs, nuclear extracts from primary human T cells stimulated with ionomycin and phorbol esters in the presence of PGE2 demonstrated decreased binding at the AP-1 and NF-AT sites of the human IL-2 promoter; binding to the OCT-1 and NF-kappa B sites was not affected. These results suggest that cAMP regulates IL-2 production in human T cells by a transcriptional mechanism which involves discrete transactivating pathways for IL-2-promoter activation.
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PMID:Prostaglandin E2 inhibits the nuclear transcription of the human interleukin 2, but not the Il-4, gene in human T cells by targeting transcription factors AP-1 and NF-AT. 866 Aug 43

Lymphokines produced by non-transformed Th clones, Th1 and Th2, were classified into three groups based on their patterns of expression by different stimuli: Group I, GM-CSF and IL-2, characterized by a strict requirement of activation of both the PKC- and calcium-dependent pathways; Group II, IFN-gamma, IL-3, and IL-4, partially induced by calcium ionophore alone; and Group III, IL-5, IL-6, and IL-10, partially induced by either PMA or calcium ionophore alone. Transfection of constitutively active PKC or p21ras replaced the requirement for PMA in expression of these lymphokines, with the exception of GM-CSF. Production of Group II lymphokines was partially induced by constitutively active calcineurin. Production of Group I and II lymphokines was highly sensitive to cyclosporin A, while Group III lymphokines were relatively resistant. Addition of prostaglandin E2 (PGE2) and overexpression of catalytic subunit of protein kinase A inhibited lymphokine production in Th1 cells, but not in Th2 cells, with the exception of GM-CSF. Production of Group III lymphokines induced by PMA alone was upregulated by PGE2, but that of Group II and III lymphokines induced by calcium ionophore alone was not affected. These results suggest that one of the targets of PGE2 is downstream of the PKC-dependent pathway.
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PMID:Signal transduction in Th clones: target of differential modulation by PGE2 may reside downstream of the PKC-dependent pathway. 872 62

The effect of T-440, a selective type IV phosphodiesterase inhibitor, on cytokine production by peripheral blood mononuclear cells (PBMC) of atopic asthmatics was investigated. T-440 suppressed allergen-induced interleukin (IL)-5 production with a high potency (IC50 = 0.039 microgram/ml) and allergen-induced proliferation of PBMC (IC50 = 0.30 microgram/ml). T-440 also suppressed IL-2, IL-4 and IL-5 production by concanavalin A-activated PBMC in concentration-dependent manner. The IC50 values for the suppression of cytokine synthesis were 0.11 microgram/ml for IL-2, 0.57 microgram/ml for IL-5 and 7.7 micrograms/ml for IL-4. cAMP-elevating agents, such as PGE2, forskolin and dibutyryl cAMP, suppressed IL-2, IL-4 and IL-5 production by concanavalin A-stimulated PBMC in a manner similar to that of T-440. T-440 inhibited cAMP-phosphodiesterase activity and raised the intracellular cAMP level of PBMC in a concentration-dependent manner, suggesting that the increase of intracellular cAMP caused by T-440 results in the reduction of cytokine production. We conclude that T-440 suppressed cytokine production by peripheral T lymphocytes via the protein kinase A pathway and may be an effective modality to treat atopic diseases associated with eosinophilic inflammation.
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PMID:Interleukin-5 production by peripheral blood mononuclear cells of asthmatic patients is suppressed by T-440: relation to phosphodiesterase inhibition. 885 99

Anti-CD2 monoclonal antibody (mAb) can act synergistically with anti-CD3 to produce tolerance and diminish the anti-CD3-induced cytokine syndrome. Since interleukin(IL)-2 production and IL-2 receptor (IL-2R; CD25) expression are important determinants of CD3-driven T cell activation, the effects of anti-CD2 on anti-CD3-induced CD25 expression and IL-2 production were analyzed and related mechanistically to CD2-stimulated cAMP signaling with an in vitro model of T cell activation. The anti-CD2 mAb, 12-15, alone had no effect on splenic T cell CD25 expression and IL-2 production, while the anti-CD3 mAb, 145-2C11, caused significant increases in both CD25 expression and IL-2 production. The addition of anti-CD2 inhibited anti-CD3-induced increases in CD25 and IL-2. The inhibitory signal delivered by anti-CD2 was effective in many forms of T cell activation, since other stimuli which increased CD25, such as concanavalin A, phytohemagglutinin, and Staphylococcal enterotoxin B (SEB), could also be inhibited by anti-CD2. The inhibitory effect of anti-CD2 on CD25 could not be reversed by high doses of supplemental IL-2 added to the culture. Anti-CD2 increased cytoplasmic cAMP in a dose- and time-dependent manner. Reagents that increased cytoplasmic cAMP such as forskolin, cholera toxin, and 3'-isobutyl-1-methylxanthine could mimic the inhibitory effect of anti-CD2 on anti-CD3-driven CD25 expression. Anti-CD2 also increased the activity of cAMP-dependent protein kinase (PKA). H8, a PKA antagonist, blocked the inhibitory effect of anti-CD2 on CD25 expression, further confirming the role of PKA in CD2-induced negative signaling. The use of paired agonists to PKA demonstrated that a type I PKA was the preferential enzyme isoform stimulated by CD2 ligation. These findings show that increased cAMP and PKA activity mediate anti-CD2-induced suppression of anti-CD3-driven IL-2 production and CD25 expression, and provide mechanisms for anti-CD2-induced immunosuppression and inhibition of the cytokine syndrome associated with anti-CD3 treatment.
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PMID:Increased cAMP and cAMP-dependent protein kinase activity mediate anti-CD2 induced suppression of anti-CD3-driven interleukin-2 production and CD25 expression. 886 88

As shown previously, native or recombinant (r) human platelet factor 4 (PF4) alleviates the suppression induced by Con A or dimaprit, a histamine type 2 receptor (H2-R) agonist, in a murine system. The effect of rPF4 on human peripheral blood cells has now been studied, using as a model pokeweed mitogen (PWM)-induced, T-cell-mediated suppression of Ig-secreting cell (ISC) formation by Staphylococcus aureus and rIL-2 activated B cells. PWM, but not phytohemagglutinin (PHA), induced inhibitory activity in mitomycin-treated CD8+ T cells, but not unfractionated or CD4+ T cells, for both ISC formation and B cell proliferation. rPF4 and its C-terminal tridecapeptide alleviated the suppressive effect of PWM-activated CD8+ T cells on ISC production but not on proliferation. Heparin did not prevent this immunoregulatory activity of PF4. Neutralizing antibody to TGF-beta, but not to IFN-gamma or TNF-alpha, alleviated the suppression of ISC formation in some of the experiments. The H2-R appeared to play a part in inducing suppression, because the H2-R antagonist, cimetidine, prevented the PWM-induced suppression of ISC production. Furthermore, dimaprit induced suppression of ISC formation when added instead of PWM at the start of culture. Incubation of CD8+ T cells with dimaprit for only 3 hr prior to coculture with S. aureus + IL-2 activated B cells decreased the ISC response. This suppression was also alleviated by addition of rPF4 to the coculture. Similar to dimaprit, known cAMP upregulating agents, such as forskolin, dibutyryl cAMP, and cAMP analog, all induced this immunoregulatory activity in T cells. Moreover, the effect of dimaprit was prevented by the specific protein kinase A inhibitor, HA1004, suggesting strongly that upregulation of cAMP played a role in the H2-R-mediated effect. Cell contact appeared to be necessary, since supernatants from dimaprit or PWM activated T cells failed to suppress ISC production. We suggest that the known ability of PF4 to prevent TGF-beta-mediated effects on endothelial and other target cells may be involved in the alleviating effect of PF4 on the cell-contact-dependent CD8+ T-cell-mediated B cell suppression.
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PMID:Induction of inhibitory activity for B cell differentiation in human CD8 T cells with pokeweed mitogen, dimaprit, and cAMP upregulating agents: countersuppressive effect of platelet factor 4. 896 82

Cyclic AMP-responsive element binding protein (CREB) mediates gene expression in response to cAMP stimulation. The transcriptional activity of CREB depends on both the phosphorylation of Ser133 and the recruitment of cofactor for assembly of transcriptional complex. Extensive Ser133 phosphorylation of CREB was induced during T cell activation. This phosphorylation event is essential for IL-2 gene expression. However, phosphorylation of CREB at Ser133 was not sufficient for transcriptional activity by CREB. The presence of a second signal from CD28, a potent costimulatory molecule on T cells, stimulated CREB-mediated gene expression. CD28, an effective costimulator of T cell activation and IL-2 gene expression, is shown to induce CREB activation in the presence of anti-CD3 or O-tetradecanoylphorbol 13-acetate. These two signals together stimulated a CRE-dependent reporter gene, the proliferating cell nuclear Ag promoter, and transactivation by the GAL4-CREB fusion protein. Thus optimal induction of CREB, similar to the full activation of T lymphocytes, may be mediated by two distinct signal transductions. Using the specific kinase inhibitor, one of the two pathways appeared to involve mitogen-activated protein kinase kinase but not protein kinase C, protein kinase A, or p70 S6 kinase.
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PMID:CD28-costimulation activates cyclic AMP-responsive element-binding protein in T lymphocytes. 897 78

Ligands binding to the CD4 molecule can inhibit TCR-mediated T cell activation. We have previously reported that transcription factors regulating the expression of the IL-2 gene, NF-AT, NF-kappaB, and AP-1, are targets of this inhibitory effect in an in vitro model using peripheral human CD4+ T cells activated by a CD3 mAb. Two T cell activation pathways involved in the regulation of these transcription factors, calcium flux and the p21ras pathway, were investigated as potential targets. Binding of HIV envelope glycoprotein gp160/gp120 or a CD4 mAb to the CD4+ T cells, prior to TCR/CD3 activation, inhibited the intracellular calcium elevation. This event strongly suggested an inhibition of PLCgamma1 activity. Tyrosine phosphorylation of PLCgamma1, induced by CD3 activation, was not affected, but its association with tyrosine-phosphorylated proteins, including a 62-kDa protein, was disrupted. This PLCgamma1-associated p62 was found to be immunoreactive to p62-Sam68 Abs. The activation-induced phosphorylation of two p21ras effectors, Raf-1 and Erk2, was inhibited by the CD4 ligands, indirectly pointing to inhibition of the p21ras activation pathway. In addition, we demonstrate that TCR activation of normal CD4+ T cells induced the formation of p120GAP and PLCgamma1-containing complexes. These complexes also contain other unidentified proteins. CD4 ligand binding induced a defective formation of these transduction complexes. This may result in inefficient signaling, partially accounting for the inhibitory effects of the CD4 ligands on both p21ras and calcium-activation pathways.
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PMID:CD4 ligands inhibit the formation of multifunctional transduction complexes involved in T cell activation. 897 79

The role of cAMP-dependent protein kinase (PKA) in the regulation of TCR-triggered IL-2 secretion was studied by transfecting T hybridoma cells with cDNA encoding the inhibitory regulatory subunit (RI alpha) of PKA with mutations in cAMP-binding sites (RI alpha(m)) or by pretreating T cells with catalytic subunit-alpha (C alpha) antisense mRNA oligonucleotides. Transfected RI alpha(m) was expected to compete with endogenous regulatory subunits and to irreversibly inactivate the catalytic subunit in RI alpha(m)-C alpha complexes. It was shown that C alpha and RI alpha are the major PKA subunits in T cells, thereby justifying the choice of RI alpha(m) and C alpha antisense oligos to modulate PKA activity in T lymphocytes. Perturbation of the expression of PKA subunits by RI alpha(m) resulted in transfectants with 1) no changes in basal PKA activity but inhibited cAMP-inducible PKA activity or 2) inhibited basal PKA activity but unaffected cAMP-inducible PKA activity. Transfectants with inhibited basal PKA activity had changed (inhibited) levels of TCR-triggered IL-2 production. The anti-C alpha antisense mRNA oligomers also inhibited basal PKA activity and TCR-triggered production of IL-2. The experiments described here and recently reported studies of the effects of C alpha inactivation on CTL effector functions and IFN-gamma secretion suggest that basal PKA activity could be required for the propagation of TCR-triggered signals needed for lymphokine secretion by T cells.
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PMID:Perturbation of the expression of the catalytic subunit C alpha of cyclic AMP-dependent protein kinase inhibits TCR-triggered secretion of IL-2 by T helper hybridoma cells. 897 88

Macrophages treated with IFN-gamma alone are stimulated to produce nitric oxide. The level of nitric oxide production can be enhanced significantly when IFN-gamma treatment is combined with other agents (e.g., LPS, TNF-alpha, IL-2, etc.). We tested the hypothesis that cAMP plays a role in the IFN-gamma-induced activation of macrophages. Our experiments indicate that factors that increase the concentration of cAMP in the murine macrophage cell line ANA-1 can also enhance IFN-gamma-induced production of nitric oxide. PGE2 and cholera toxin increased the production of nitrite (an indicator of nitric oxide production) in IFN-gamma-treated ANA-1 macrophages by at least twofold. These factors produced no increase in nitric oxide production in the absence of IFN-gamma treatment. The increase in nitric oxide production corresponded to an increase in the accumulation of nitric oxide synthase mRNA without a change in stability of mRNA. Dibutyryl cAMP and Sp-cAMPs (a selective activator of cAMP-dependent protein kinase I and II) also increased nitric oxide production in IFN-gamma-treated macrophages. However, at very high concentrations (i.e., >100 microM), the stimulatory effect was decreased. These studies indicate that elevation of intracellular cAMP causes a dose-dependent, biphasic alteration of IFN-gamma-induced nitric oxide production in murine macrophages. Moreover, they suggest that agents that affect nitric oxide synthesis may do so via modulation of the cAMP second messenger system.
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PMID:An increase in intracellular cyclic AMP modulates nitric oxide production in IFN-gamma-treated macrophages. 899 9

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