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)

Cyclosporin A (CsA) is a potent immuno-suppressant and is approved for the treatment of various disease conditions. The molecular biological mechanism of CsA has been investigated intensively in T cells and has been shown to involve the intracellular calcineurin pathway. Recently, it was reported that CsA has capacities to affect not only T cells but also antigen-presenting cells such as B cells and dendritic cells (DCs). DCs are a master regulator of immune responses that have an integral capacity to prime naive T cells. In the present study, we investigated the biological effects of CsA on human peripheral blood DC subsets: CD11c+ myeloid and CD11c- lymphoid subsets. CsA inhibited the up-regulation of co-stimulatory molecules induced with or without microbial stimuli and CD40L on both CD11c+ and CD11c- subsets. In addition, CsA negatively regulated the endocytic activity of CD11c+ DC during the immature state. CsA inhibited the interleukin-12 (IL-12) production, but augmented the IL-10 production from the LPS-stimulated CD11c+ subset, whereas CsA reduced the interferon-alpha (IFN-alpha) production from the CD11c- subset infected with Sendai virus (SV). Both the LPS-stimulated CD11c+ subset and SV-infected CD11c- subset preferentially induced the development of IFN-gamma-producing T helper-type 1 (Th1) cells. Pretreatment of these DC subsets with CsA inhibited the Th1 skewing. These findings suggested a DC-mediated mechanism of immunosuppression by CsA.
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PMID:Immunomodulatory effects of cyclosporin A on human peripheral blood dendritic cell subsets. 1260 98

The mode of action of cyclosporine (CsA) has been ascribed to its capacity to inhibit IL-2 and IFNgamma production by T cells, two cytokines implicated in allograft rejection. Recently, it has been reported that upon activation, dendritic cells (DCs) exhibit transient production of IL-2, a property that appears to be related to their capacity to initiate immune responses. On the other hand, DCs can generate signals determining Th1/Th2 polarizing effects, an effect that can drastically influence the outcome of organ transplant. The purpose of the present study was to investigate the effect of CsA on cytokine production by immature and mature DCs. DC precursors from mouse bone marrow were induced to differentiate by incubation with GM-CSF for 5 days followed by activation with LPS for 4 hours. CsA was added at different times during this process. Our results show that when CsA is added during the differentiation period following activation with LPS, IL-2 and IL-12 secretion are significantly reduced without affecting the evolution of the DC. Conversely, CsA had no effect when added during the LPS activation period. These results show that CsA affects DCs before they receive the final activation stimulus, preconditioning them to antigen stimulation. This preconditioning of DCs by calcineurin-inhibiting drugs conceptually integrates the mode of action of CsA with the tolerogenic and T-cell polarization function ascribed to DCs. These results may be especially meaningful for the future design of immunosuppressive protocols.
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PMID:Cyclosporine preconditions dendritic cells during differentiation and reduces IL-2 and IL-12 production following activation: a potential tolerogenic effect. 1461 99

Ca(2+) and Ca(2+)/calmodulin-dependent protein phosphatase calcineurin (CN) have been known to play crucial roles in immune response and inflammation. Using mouse peritoneal macrophages and RAW 264.7 macrophage cells, we demonstrated that LPS mobilized intracellular free Ca(2+) and induced CN phosphatase activity. iNOS expression and NO secretion in response to LPS were suppressed by Ca(2+) antagonists (TMB-8, BAPTA/AM, and nifedipine) and CN inhibitor (cyclosporin A). Transient expression of constitutively active CN in mouse peritoneal macrophages and RAW 264.7 macrophages strongly activated NF-kappaB, a key mediator of iNOS expression. We also found that CN mediates NF-kappaB activation via IkappaB-alpha hyperphosphorylation and degradation. Overexpression of dominant negative mutant of IKKalpha and -beta demonstrates that only IKKbeta is the target for CN. These results indicate that CN is required for full iNOS expression and the effective activation of NF-kappaB in RAW 264.7 and peritoneal macrophages.
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PMID:Ca2+/calmodulin-dependent protein phosphatase calcineurin mediates the expression of iNOS through IKK and NF-kappaB activity in LPS-stimulated mouse peritoneal macrophages and RAW 264.7 cells. 1474 91

Bacterial LPS have the ability to act as modulators of the innate immune response in plants. Complex and largely unresolved perception systems exist for LPS on the plant cell surfaces that lead to the activation of multiple intracellular defense signaling pathways. The aim of the present study was to investigate the perception mechanism of cultured Nicotiana tabacum cells towards LPS from Burkholderia cepacia (LPS(B.cep.)), with regard to the role of protein phosphorylation during signal perception-related responses to gain a better understanding of the chemosensory perception of LPS elicitor signals in plant cells. In vivo labeling of protein phosphorylation events during signal transduction indicated the rapid phosphorylation of several proteins with the hyperphosphorylation of two proteins of 28 and 2 kDa, respectively. Significant differences and de novo LPS-induced phosphorylation were also observed with two-dimensional analysis. The protein kinase inhibitor, staurosporine, totally inhibited the extracellular alkalinization response induced by LPS(B.cep.), while the oxidative burst was only partially inhibited by staurosporine. Inhibition of protein phosphatase activity by calyculin A intensified the LPS(B.cep.) responses. The results indicate that perception- and signal transduction responses during LPS(B.cep.) elicitation of tobacco cells require a balance between the actions of certain protein kinases and protein phosphatases.
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PMID:Protein phosphorylation in Nicotiana tabacum cells in response to perception of lipopolysaccharides from Burkholderia cepacia. 1550 30

Although TGF-beta inhibits the production of proinflammatory mediators in vitro and in vivo, its anti-inflammatory activities may be ineffective in early or severe acute inflammatory circumstances. In this study, we suggest a role for oxidative stress on TGF-beta signaling, leading to prevention of its normal anti-inflammatory effects but leaving its Smad-driven effects on cellular differentiation or matrix production unaffected. Stimulation of the RAW 264.7 macrophage cells, human or mouse alveolar macrophages with LPS led to NF-kappaB-driven production of proinflammatory mediators, which were inhibited by TGF-beta. This inhibition was prevented in the presence of hydrogen peroxide. We found that hydrogen peroxide acted by inducing p38 MAPK activation, which then prevented the ERK activation and MAPK phosphatase-1 up-regulation normally induced by TGF-beta. This was mediated through Src tyrosine kinases and protein phosphatase-1/2A. By contrast, hydrogen peroxide had no effects on TGF-beta-induced Smad2 phosphorylation and SBE-luc reporter gene transcription.
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PMID:Oxidants selectively reverse TGF-beta suppression of proinflammatory mediator production. 1639 11

Immunologically active molecules such as cytokines and chemokines have been implicated in skeletal muscle weakness during sepsis as well as recovery from muscle injury. In sepsis, Toll-like receptors (TLRs) act as key sentinel molecules of the innate immune system. Here we determined skeletal muscle cell responses of two prototypical CC and CXC chemokine genes (monocyte chemoattractant protein 1 [MCP-1] and KC, respectively), to stimulation with specific TLR ligands. In addition, we examined whether NF-kappaB and calcineurin signaling are involved in these responses. Differentiated myotubes and intact whole muscles expressed TLR2, TLR4, TLR5, and TLR9. Stimulation with ligands for TLR2 (peptidoglycan) or TLR4 (LPS) elicited robust and equivalent levels of MCP-1 and KC mRNA expression, whereas stimulation of TLR5 (by flagellin) required gamma interferon priming to induce similar effects. Although both TLR2 and TLR4 ligands activated the NF-kappaB pathway, NF-kappaB reporter activity was approximately 20-fold greater after TLR4 stimulation than after TLR2 stimulation. Inhibitory effects of NF-kappaB blockade on TLR-mediated chemokine gene expression, by either pharmacological (pyrrolidine dithiocarbamate) or molecular (IKKbeta dominant-negative transfection) methods, were also more pronounced during TLR4 stimulation. In contrast, inhibitory effects on TLR-mediated chemokine expression of calcineurin blockade (by FK506) were greater for TLR2 than for TLR4 stimulation. MCP-1 and KC mRNA levels also demonstrated differential responses to NF-kappaB and calcineurin blockade during stimulation with specific TLR ligands. We conclude that skeletal muscle cells differentially utilize the NF-kappaB and calcineurin pathways in a TLR-specific manner to enable complex regulation of CC and CXC chemokine gene expression.
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PMID:Toll-like receptors differentially regulate CC and CXC chemokines in skeletal muscle via NF-kappaB and calcineurin. 1698 39

In humans, the antimicrobial peptide LL-37 and the potent chemotactic lipid leukotriene B4 (LTB4) are important mediators of innate immunity and host defense. Here we show that LTB4, at very low (1 nM) concentrations, strongly promotes release of LL-37 peptides from human neutrophils (PMNs) in a time- and dose-dependent manner, as determined by Western blot, enzyme-linked immunoassay (ELISA), and antibacterial activity. The LTB4-induced LL-37 release is mediated by the BLT1 receptor, and protein phosphatase-1 (PP-1) inhibits the release by suppressing the BLT1-mediated exocytosis of PMN granules. Conversely, LL-37 elicits translocation of 5-lipoxygenase (5-LO) from the cytosol to the perinuclear membrane in PMNs and promotes the synthesis and release of LTB4, particularly from cells primed with LPS or GM-CSF. Furthermore, LL-37 stimulates PMN phagocytosis of Escherichia coli particles, a functional response that is enhanced by LTB4, especially in GM-CSF pretreated cells. In these cells, LL-37 also enhances LTB4-induced phagocytosis. Hence, in human PMNs, positive feedback circuits exist between LL-37 and LTB4 that reciprocally stimulate the release of these mediators with the potential for synergistic bioactions and enhanced immune responses. Moreover, these novel lipid-peptide signaling pathways may offer new opportunities for pharmacological intervention and treatment of chronic inflammatory diseases.
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PMID:Leukotriene B4 triggers release of the cathelicidin LL-37 from human neutrophils: novel lipid-peptide interactions in innate immune responses. 1744 60

Interleukin-18 (IL-18), a product of dendritic cells (DC), is a pro-inflammatory cytokine involved in the pathogenesis of allograft rejection, vascular disease, arthritis and diabetes. Rapamycin (Rapa) is an immunosuppressant that inhibits T cell mTOR kinase activation. In contrast, Sanglifehrin A (SFA), is a cyclophilin-binding immunosuppressant that does not act on calcineurin phosphatases but appears to inhibit IL-2-dependent T cell proliferation. Rapa and SFA exert some immunosuppressive effects on DC by inhibiting IL-12 production, although their effects on DC have not been investigated as comprehensively as those on T cells. We aimed to determine the impact of these drugs on DC IL-18 synthesis in vivo and in vitro. We found in vivo that LPS-stimulated OX62(+) DC produced significantly more IL-18 mRNA, compared to OX62(+) DC depleted splenocytes (p<0.01) and non-LPS-stimulated OX62(+) DC (p<0.01). OX62(+)CD4(+) and OX62(+)CD4(-) cells produced similar amounts of IL-18 mRNA. Rapa and SFA, but not CsA, significantly inhibited IL-18 production from OX62(+) DC in vitro, in a dose-dependent manner (p<0.05). In vivo IL-18 production was also inhibited by Rapa and SFA in splenic OX62(+) DC (p<0.01). Finally, inhibition of IL-18 production by Rapa and SFA was independent of the FK506 or cyclophilin pathways, respectively. In conclusion, Rapa and SFA, but not CsA, block IL-18 production and this novel Rapa blockade effect on IL-18 may contribute to the ability of Rapa to inhibit chronic allograft nephropathy and restenosis.
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PMID:Dentritic cell derived IL-18 production is inhibited by rapamycin and sanglifehrin A, but not cyclosporine A. 1866 82

The gut associated lymphoid tissue (GALT) is anatomical and functionally divided in inductive and effectors sites. In previous works we demonstrated that non-pathogenic bacteria with probiotic characteristics can improve the gut mucosal immune system, with an increase in the number of IgA and cytokines producing cells in the effector site of the intestine. In the present work we studied the effect of non-pathogenic Gram(+), Gram(-) bacteria and a Gram(+) probiotic strain on the inductor site (PP) after the oral administration to BALB/c mice. We also studied some signals induced by the assayed strain in the effectors site, such as the enzyme calcineurin and TLR-9 as a way to understand the mechanisms induced in such bacterial stimulation. The implicance of the lipoteichoic acid (LTA) in the immunostimulation was analyzed. All strains increased the number of IFN-gamma and TNF-alpha(+) cells, but not of IL-10(+) cells in the total population of PP. The release of IFN-gamma and TNF-alpha was only induced by LPS stimulation. All assayed strains increased the number of calcineurin(+) cells, while only Gram(+) strains increased the number of TLR-9(+) cells. The immunostimulatory properties of the purified LTA from Gram(+) strains was evaluated on a monocyte-macrophage U937 cell line. These cells showed capacity to release TNF-alpha and IL-10 in response to all LTA assayed in a dose-dependent way. Gram(+) strains induced signals through the calcineurin enzyme able to activate the transcriptional factor NFAT and through TLR-9. The LTA molecule from Gram(+) strains would not be the only structure involved in the immunostimulatory properties observed, specially for the probiotic strain.
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PMID:Immune response of non-pathogenic gram(+) and gram(-) bacteria in inductive sites of the intestinal mucosa study of the pathway of signaling involved. 1925 Jul 3

MAPK phosphatase-1 (MKP-1) is a protein phosphatase that plays a crucial role in innate immunity. This phosphatase inactivates ERK1/2, which are involved in two opposite functional activities of the macrophage, namely proliferation and activation. Here we found that although macrophage proliferation and activation induce MKP-1 with different kinetics, gene expression is mediated by the proximal promoter sequences localized between -380 and -180 bp. Mutagenesis experiments of the proximal element determined that CRE/AP-1 is required for LPS- or M-CSF-induced activation of the MKP-1 gene. Moreover, the results from gel shift analysis and chromatin immunoprecipitation indicated that c-Jun and CREB bind to the CRE/AP-1 box. The distinct kinetics shown by M-CSF and LPS correlates with the induction of JNK and c-jun, as well as the requirement for Raf-1. The signal transduction pathways that activate the induction of MKP-1 correlate kinetically with induction by M-CSF and LPS.
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PMID:CREB and AP-1 activation regulates MKP-1 induction by LPS or M-CSF and their kinetics correlate with macrophage activation versus proliferation. 1958 11

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