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)

Graft rejections as well as tolerance are true representation of the specificity, sophistication and redundancy of an elegantly and meticulously designed immune system. Tolerance is in a way similar to the process of self-recognition where lymphoid clones, during development, baring self-reactive receptor are eliminated or rendered in active by "clonal deletion" leading to a state of accommodation and acceptance (anergic). On the other hand, both acute and chronic rejections are manifestation of the purpose of existence of the immune system, which is to defend the host against foreign invaders. Thus, in order to treat (control) graft rejection it is necessary to determine and understand the steps leading to recognition, stimulation, activation, and amplification of the immune system. The first step leading to the initiation of the immune system cascade is recognition. Which can either be direct where donor antigens of the major histocompatibility complex (MHC) expressed on the donor cells (passenger leukocytes) or tissues are recognised by the host immune system. The direct recognition pathway initiates acute graft rejection. Alternatively processed donor MHC peptides presented by the recipient antigen presenting cells (APC) initiate the indirect pathway of immune response, which is as important as the direct recognition especially in chronic rejection. Recognition is followed by the ligation of a series of adhesion molecules starting with an antigen to its specific T-cell receptor (TCR)/cluster of differentiation (CD) complex, expressed on the surface of the T cell. In order for the activation to precede additional costimulatory signals, such as ligation of the CD28/B7, CD4/HLA class II and CD/HLA class I antigens are required. The activation process is accompanied by an increase of cytokines production such as interleukin (IL)-2, IL-12, interferon (INF) and tumour necrosis factor (TNF) by the primed T cell. The complexity and the polymorphic nature of the immune system have necessitated designing agents that inhibit the immune system at different levels. Cyclosporine and Tacrolimus, collectively known as calcineurin inhibitors, seems to act on the IL-2 by inhibiting its production thus leading to a decrease in the proliferation of the activated lymphocyte. Rapamycin, which is similar to Tacrolimus, inhibits graft rejection by blocking IL-2 activation and phosphorylation of 70 S6 kinase thus inhibiting the progression of T-cell from G to S phase. While Cellcept (MMF) reduce the proliferation of T cell by inhibiting purine synthesis and by its action on ionosine monophosphate dehydrogenase. Anti-lymphocyte antibodies (ATG) deplete circulating lymphocytes while selective monoclonal antibodies are directed against IL-2 receptor thus reducing the rate of proliferation of activated T cells. Recently, antibodies to the CD40/CD40 ligand have been shown to induce long-term graft survival with the inhibition of the Th1 cytokines (INF), IL-2 and IL-12 and upregulating the Th2 cytokines IL-4 and IL-10. Lastly graft rejection can be reduced by blockade of the B7/CD28 costimulation pathway with the fusion protein CTLA-4Ig. With the availability of such potent and diverse agents it is now possible to develop multi drug regiments that can depress the immune system at the different steps of the activation cascade, with minimal side effects, thus improving graft and patient survival rates.
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PMID:The mosaic of immunosuppressive drugs. 1283 79

CXCR6, the receptor for the membrane-anchored chemokine, CXCL16, is expressed on a subset of CCR5-bearing memory T cells, and may play a role in recruiting these cells to sites of inflammation. Here, we set out to determine the effect of T cell activation on CXCR6 expression. Highly purified human peripheral blood T cells were cultured for 7-8 days in presence of IL-2 (400 U/ml) to enhance CXCR6 expression. Overnight stimulation with anti-CD3 mAb+anti-CD28 mAb, which resulted in CD69 induction and cytokine (IL-2 and IFN-gamma) production, reduced cell surface expression of CXCR6 by 85% and that of CCR5 by 76%. The Ca(2+) ionophore, ionomycin (125-500 ng/ml), also markedly diminished CXCR6 expression (85%), but without inducing CD69 expression or cytokine production, and reduced CCR5 expression by only 40%. In contrast, the phorbol esters, PdBu or PMA had little effect on CXCR6 expression (23% reduction) but induced CD69 expression and caused a profound down-regulation (92%) of CCR5 expression. Moreover, CCR7, whose expression was low on CXCR6(+) T cells, was little affected by any of these modes of activation. The down-regulation of CXCR6 expression induced by CD3/CD28 activation was blocked by the broad kinase inhibitor, staurosporine, and by the src kinase inhibitor, PP2, but not by the MEK1 inhibitor, U0106. Most interestingly, the calcineurin inhibitor, FK506, consistently inhibited CD3/CD28-induced CXCR6 down-regulation. FK506 also blocked the decrease of CXCR6 expression caused by ionomycin, whereas staurosporine or PP2 had no effect on this decrease. Altogether, these data indicate that CXCR6 expression is down-regulated, independent of CCR5 or CD69 expression and of cytokine induction, by T cell activation signals that involve predominantly the Ca(2+)-dependent calcineurin pathway.
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PMID:Down-regulation of cell surface CXCR6 expression during T cell activation is predominantly mediated by calcineurin. 1291 53

The anti-interleukin-2 receptor (anti-IL-2R) antibody therapy is an exciting approach to the prevention of acute rejection after renal allograft transplantation whereby immunosuppression is exerted by a selective and competitive inhibition of IL-2-induced T cell proliferation, a critical pathway of allorecognition. The anti-IL-2R antibodies specifically block the alpha-subunit of the IL-2R on activated T cells, and prevent T cell proliferation and activation of the effector arms of the immune system. The anti-IL-2R antibodies are used as induction therapy, immediately after renal transplantation, for prevention of acute cellular rejection in children and adults. During acute rejection, the IL-2Ralpha chain is no longer expressed on T cells; thus, the antibodies cannot be used to treat an existing acute rejection. Two anti-IL-2R monoclonal antibodies are currently in clinical use: daclizumab and basiliximab. In placebo-controlled phase III clinical trials in adults, daclizumab and basiliximab in combination with calcineurin inhibitor-based immunosuppression, significantly reduced the incidence of acute rejection and corticosteroid-resistant acute rejection without increasing the risk of infectious or malignant complications, and neither antibody was associated with the cytokine-release syndrome. Children who receive calcineurin inhibitors and corticosteroids for maintenance immunosuppression, as well as children who receive augmented immunosuppression to treat acute rejection, are at increased risk of growth impairment, hypertension, hyperlipidemia, lymphoproliferative disorders, diabetes mellitus, and cosmetic changes. In older children, the cosmetic adverse effects frequently reduce compliance with the treatment, and subsequently increase the risk of allograft loss. Being effective and well tolerated in children, the anti-IL-2R antibodies reduce the need for calcineurin inhibitors while maintaining the overall efficacy of the regimen; thus, the anti-IL-2R antibodies increase the safety margin (less toxicity, fewer adverse effects) of the baseline immunosuppression. Secondly, the anti-IL-2R antibodies decrease the need for corticosteroids and muromonab CD3 (OKT3) in children as a result of decreased incidence of acute rejection. The recommended pediatric dose of daclizumab is 1 mg/kg intravenously every 14 days for five doses, with the first dose administered within 24 hours pre-transplantation. This administration regimen maintains daclizumab levels necessary to completely saturate the IL-2Ralpha (5-10 microg/mL) in children for at least 12 weeks.The recommended pediatric dose of basiliximab for recipients <35 kg is 10 mg, and 20 mg for recipients > or =35 kg, intravenously on days 0 and 4 post-transplantation. This administration regimen maintains basiliximab levels necessary to completely saturate the IL-2Ralpha (>0.2 microg/mL) in children for at least 3 weeks.
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PMID:Anti-interleukin-2 receptor antibodies for the prevention of rejection in pediatric renal transplant patients: current status. 1451 Jun 27

Cardiac allograft vasculopathy (CAV) occurs within 5 years of transplantation surgery and represents the main cause of death in long-term heart transplant survivors. The detailed pathogenesis of CAV is unknown, but there are strong indications that immunologic mechanisms, which are regulated by nonimmunologic factors, are the major cause of this phenomenon. Cyclosporine A (CsA) is a frequently used immunosuppressive agent in transplant medicine to prevent rejection. The mechanism of action of CsA involves initial binding to cyclophilin to form a complex that then inhibits calcineurin (CN), leading to reduced interleukin (IL)-2 production as part of the signal transduction pathway for the activation of B-lymphocytes and T-lymphocytes. Based on this proposed mechanism, it was expected that CsA should be an effective strategy in attenuating the host immune response against transplanted allograft tissue; however, CsA has not changed the outcome of CAV. Several mechanisms have been suggested for the ineffectiveness of CsA in long-term prevention of CAV. For example, routine therapeutic doses of CsA may block CN incompletely (50%), whereas complete blockade requires doses that are not clinically tolerable. Another explanation is the possible activation of T-cell receptors directly (CN independent) by the immune response, which induces protein kinase C theta (PKCtheta) and leads to IL-2 production and immune rejection. Moreover, there may be a role for nonimmunologic mechanisms, such as complement, which cannot be controlled by CsA, or CsA may cause hypercholesterolemia or induce overexpression of transforming growth factor-beta (TGF-beta). This review also compares the effect of CsA with other immunosuppressants in allograft artery preservation and their clinical efficacy.
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PMID:Immunosuppression and transplant vascular disease: benefits and adverse effects. 1460 17

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

The second messenger calcium plays an essential role in the T cell receptor-mediated signal transduction pathways leading to transcription of the interleukin-2 gene. A key mechanism of calcium signaling has been shown to be mediated by calcineurin and NFAT. We report herein that the transcription factor myocyte enhancer factor (MEF)-2 is another calcium signal transducer involved in the regulation of the interleukin (IL)-2 promoter. A MEF2-binding site was identified in proximity to the TATA box of the IL-2 promoter. This site was shown to be bound by MEF2 in both resting and activated T cells. Overexpression of MEF2 enhanced, while overexpression of a dominant negative form of MEF2 or the MEF2-specific transcriptional corepressors Cabin1 and histone deacetylase 4 inhibited, the T cell receptor-dependent activation of an IL-2 reporter gene. Down-regulation of MEF2 by RNA interference in primary human T cells led to the inhibition of endogenous IL-2 transcription. These results suggest that MEF2 is required for the transcriptional activation of IL-2 and likely other cytokine genes in response to calcium signaling and may serve as a novel target for development of immunosuppressants.
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PMID:Myocyte enhancer factor 2 mediates calcium-dependent transcription of the interleukin-2 gene in T lymphocytes: a calcium signaling module that is distinct from but collaborates with the nuclear factor of activated T cells (NFAT). 1472 8

A-285222 (A-285) is a bis-trifluoromethyl-pyrazole (BTP), a novel class of immunosuppressive agents that inhibit NFAT activity in vitro in human and non-human primate cells through a calcineurin-independent mechanism. In this preliminary study, we treated cynomolgus monkeys with different doses of A-285 for several days. Blood was collected from all animals at different times during the study. From these samples, plasma concentrations of A-285 were measured by liquid chromatography/mass spectrometry (LC/MS), and intracellular T-cell production of the cytokines IL-2, IFN-gamma, and TNF-alpha was quantified by flow cytometry using a mitogen-stimulated whole blood assay. Marked inhibition of cytokine production occurred after administration of the first dose of A-285, and this effect was comparable to that of cyclosporine. While neurological toxic side effects were seen when the plasma concentration of A-285 exceeded 4 microg/ml, at lower plasma levels the drug was well tolerated over 2 weeks and its pharmacodynamic effects were sustained throughout this time.
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PMID:Preliminary in vivo pharmacokinetic and pharmacodynamic evaluation of a novel calcineurin-independent inhibitor of NFAT. 1473 34

Endogenous N-acyl dopamines such as N-arachidonoyldopamine (NADA) and N-oleoyldopamine have been recently identified as a new class of brain neurotransmitters sharing endocannabinoid and endovanilloid biological activities. As endocannabinoids show immunomodulatory activity, and T cells play a key role in the onset of several diseases that affect the CNS, we have evaluated the immunosuppressive activity of NADA and N-oleoyldopamine in human T cells, discovering that both compounds are potent inhibitors of early and late events in TCR-mediated T cell activation. Moreover, we found that NADA specifically inhibited both IL-2 and TNF-alpha gene transcription in stimulated Jurkat T cells. To further characterize the inhibitory mechanisms of NADA at the transcriptional level, we examined the DNA binding and transcriptional activities of NF-kappaB, NF-AT, and AP-1 transcription factors in Jurkat cells. We found that NADA inhibited NF-kappaB-dependent transcriptional activity without affecting either degradation of the cytoplasmic NF-kappaB inhibitory protein, IkappaBalpha, or DNA binding activity. However, phosphorylation of the p65/RelA subunit was clearly inhibited by NADA in stimulated cells. In addition, NADA inhibited both binding to DNA and the transcriptional activity of NF-AT and AP-1, as expected from the inhibition of NF-AT1 dephosphorylation and c-Jun N-terminal kinase activation in stimulated T cells. Finally, overexpression of a constitutively active form of calcineurin demonstrated that this phosphatase may represent one of the main targets of NADA. These findings provide new mechanistic insights into the anti-inflammatory activities of NADA and highlight their potential to design novel therapeutic strategies to manage inflammatory diseases.
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PMID:Immunosuppressive activity of endovanilloids: N-arachidonoyl-dopamine inhibits activation of the NF-kappa B, NFAT, and activator protein 1 signaling pathways. 1476 3

Clinical organ transplantation only became a viable treatment option after the advent of effective pharmacologic immunosuppression. Azathioprine and steroids were among the first drugs available for pharmacologic immunosuppression allowed for the first long-term successes in kidney and liver transplantation, though survivors experienced significant adverse effects of the immunosuppression. Azathioprine is an antimetabolite which inhibits the de novo and salvage pathways of purine synthesis. This results in lymphocyte suppression but also toxicity to bone marrow, gastrointestinal tract, and liver. Mycophenolate mofetil (MMF), another antimetabolite drug, inhibits only the de novo purine synthesis pathway. Corticosteroids cause immunosuppression mainly by sequestration of CD4+ T-lymphocytes in the reticuloendothelial system and by inhibiting the transcription of cytokines. Corticosteroids have adverse effects on virtually every system in the body, producing many dose-limiting problems such as osteoporosis, obesity and glucose intolerance. The introduction of cyclosporine in 1983 allowed for further improvements in graft survival, and the incidence of acute rejection decreased. Cyclosporine and the more recently-introduced tacrolimus compose the class of immunosuppressive agents called calcineurin inhibitors. By binding calcineurin and preventing its translocation into the nucleus these drugs prevent transcription and subsequent secretion of IL-2. These drugs produce varying degrees of nephrotoxicity, neurotoxicity and glucose intolerance. Rapamycin also inhibits IL-2 expression, though by interaction with the mammalian Target of Rapamycin (mTOR) protein. The use of antibody to produce immunosuppression began with polyclonal sera developed in animals such as horses or goats. The mechanism by which polyclonal sera causes immunosuppression is not well understood, though cell-mediated cytotoxicity of lymphocytes in the circulation may be one major effect. In contrast, the monoclonal antibody OKT3 is specific for the T-cell receptor (TCR)/CD3 complex, thus preventing activation of T-lymphocutes. Most recently, human and chimeric murine monoclonal antibodies daclizumab and basiliximab have provided effective induction therapy with virtually no adverse effects. While the improved efficacy and decreased adverse effects immunosuppressive agents account for much of the progress in the field of transplantation, current immunosuppression medications not perfect. Ideally, medications would inducing graft tolerance while avoiding generalized immunosuppression and non-immunologic adverse effects. Future research will likely focus on molecular- and gene-level mechanisms to achieve this goal.
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PMID:Pharmacologic immunosuppression. 1476 78

Members of the FKBP family play various functions within the cell. For T cell biology essential is their involvement in the regulation of cytokine genes transcription, mainly at the level of nucleocytoplasmic transport of transcription factors. FKBP12 is the mediator of immunosuppressive action of FK506. When complexed with the drug, FKBP12 blocks nuclear import of NFAT and formation of AP-1 heterodimer, due to inhibition of calcium-dependent phosphatase calcineurin and JNK/p38 pathways. Suppression of these two, and possibly some other signaling pathways leads to prevention of IL-2 expression and T cell activation. FKBP51 and FKBP52 are natural components of glucocorticoid receptor complex and direct regulators of its activity. Upon ligand binding FKBP51, maintaining receptor in the cytoplasm, is exchanged by FKBP52, which allows translocation of the complex to the nucleus. Thereby FKBPs take a part in the regulation of immune response by glucocorticoids.
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PMID:[FK506 - binding proteins in the regulation of transcription factors activity in T cells]. 1507 60

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