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)

As a consequence of the central role of dendritic cells (DC) in stimulating primary immune responses any bias in the response introduced by the DC has the potential for having a long-term effect on immunity. Examination and analysis of ruminant afferent lymph dendritic cells derived by cannulation allows studies on the properties of ex vivo DC that is not possible in humans and rodents and information can be derived from ruminants that has implications of generic relevance. Previous studies have identified two major populations of DC in afferent lymph draining the skin of cattle that differ in their capacity to stimulate CD4 and CD8 T cells. Differences in expression of cytokine transcripts have now been shown for the two types of DC. The CD11a(+)/SIRPalpha(-) population synthesised more IL-12, whilst the CD11a(-)/SIRPalpha(+) population produced more IL-10. This is likely to affect the bias of the immune response following presentation of antigen to T cells by one DC sub-population or the other. An inability to synthesise IL-1alpha was the reason for the failure of the CD11a(+)/SIRPalpha(-) DC to stimulate CD8 T cells. This property would potentially affect the induction of CD8 responses. Expression of the co-stimulatory molecules CD80, CD86 and CD40 appeared similar for both DC populations and not to relate to differences in function. A further examination of the SIRPalpha molecule on DC indicated that on cross-linking it was tyrosine phosphorylated and that it recruited the SHP-2 protein phosphatase. Associated with this was a blocking of TNFalpha secretion on exposure to LPS. The interaction of SIRPalpha with its ligand CD47 on T cells appeared to be an early event in the stimulation of T cells as binding of the ligand was reduced on activated T cells. CD26 was identified as another molecule expressed by the SIRPalpha(-) DC sub-population. This is reported to have an enzymatic activity on certain chemokines that could result in the promotion of a Th1 bias.A model is proposed that takes these observations into account in which SIRPalpha(-) DC would be expected to promote a Th1 biased response and the SIRPalpha(+) DC a more balanced one.
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PMID:Co-stimulation and modulation of the ensuing immune response. 1207 26

The calcium-dependent phosphatase calcineurin and its downstream transcriptional effector nuclear factor of activated T cells (NFAT) are important regulators of inducible gene expression in multiple cell types. In T cells, calcineurin-NFAT signaling represents a critical event for mediating cellular activation and the immune response. The widely used immunosuppressant agents cyclosporin and FK506 are thought to antagonize the immune response by directly inhibiting calcineurin-NFAT signal transduction in lymphocytes. To unequivocally establish the importance of calcineurin signaling as a mediator of the immune response, we deleted the gene encoding the predominant calcineurin isoform expressed in lymphocytes, calcineurin A beta (CnA beta). CnA beta(-/-) mice were viable as adults, but displayed defective T cell development characterized by fewer total CD3 cells and reduced CD4 and CD8 single positive cells. Total peripheral T cell numbers were significantly reduced in CnA beta(-/-) mice and were defective in proliferative capacity and IL-2 production in response to PMA/ionomycin and T cell receptor cross-linking. CnA beta(-/-) mice also were permissive to allogeneic tumor-cell transplantation in vivo, similar to cyclosporin-treated wild-type mice. A mechanism for the compromised immune response is suggested by the observation that CnA beta(-/-) T cells are defective in stimulation-induced NFATc1, NFATc2, and NFATc3 activation. These results establish a critical role for CnA beta signaling in regulating T cell development and activation in vivo.
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PMID:Defective T cell development and function in calcineurin A beta -deficient mice. 1209 10

CD4/CD8 lineage commitment of thymocytes is controlled by the T cell receptor-mediated signals and is mimicked in vitro by a long-pulse stimulation of isolated CD4(+)CD8(+) thymocytes with proper combinations of phorbol myristate acetate and the calcium ionophore ionomycin. CD4 lineage commitment required higher intracellular Ca(2+) levels than CD8 lineage commitment in this culture system. The calcineurin inhibitor FK506 at 1nM inhibited the development of thymocytes to either lineage, but 0.3nM FK506 significantly switched the development from the CD4 cell fate to the CD8 cell fate. The switch in lineage commitment was also observed when 1nM FK506 was added 8h after the start of the culture. Delayed addition of 20microM U0126, an Mek (Erk kinase) inhibitor, also induced the switch. These results suggest that the intensity of calcineurin activity and the duration of both calcineurin and Erk pathway activation are crucial for thymocyte lineage commitment.
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PMID:Duration of calcineurin and Erk signals regulates CD4/CD8 lineage commitment of thymocytes. 1214 35

Rapamycin (RAP), tacrolimus (FK506), cyclosporin A, and glucocorticoids represent modern and classic immunosuppressive agents being used clinically. Although these agents have distinct molecular mechanisms of action and exhibit different immunoregulatory profiles, their direct influences on Ag presentation processes remain relatively unknown. Here we report quantitative and qualitative differences among the above four immunosuppressants in their impact on Ag-specific, bidirectional interaction between dendritic cells (DC) and CD4(+) T cells. In the presence of relevant Ag, bone marrow-derived DC delivered activation signals to CD4(+) T cells isolated from the DO11.10 TCR transgenic mice, leading to clonal expansion; secretion of IFN-gamma, IL-2, and IL-4; and surface expression of CD69. Conversely, DO11.10 T cells delivered maturation signals to DC, leading to IL-6 and IL-12 production and CD40 up-regulation. FK506 (10(-10)-10(-8) M) and cyclosporin A (10(-9)-10(-7) M) each blocked efficiently and uniformly all the changes resulting from intercellular signaling in both DC-->T cell and T cell-->DC directions. Dexamethasone (10(-9)-10(-6) M) suppressed all changes, except for CD69 up-regulation, rather incompletely. Remarkably, RAP (10(-10)-10(-8) M) efficiently inhibited DC-induced T cell proliferation and T cell-mediated CD40 up-regulation by DC without abrogating other changes. Interestingly, T cell-independent DC maturation triggered by LPS stimulation was inhibited by dexamethasone, but not by other agents. Our results demonstrate contrasting pharmacological effects of RAP vs calcineurin inhibitors on Ag presentation, thus forming a conceptual framework for rationale-based selection (and combination) of immunosuppressive agents for clinical application.
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PMID:Contrasting impacts of immunosuppressive agents (rapamycin, FK506, cyclosporin A, and dexamethasone) on bidirectional dendritic cell-T cell interaction during antigen presentation. 1224 45

FcR provides a critical link between ligands and effector cells in immune complex diseases. Emerging evidence reveals that angiotensin (Ang)II exerts a wide variety of cellular effects and contributes to the pathogenesis of inflammatory diseases. In anti-glomerular basement membrane Ab-induced glomerulonephritis (GN), we have previously noted that FcR-deficient mice (gamma(-/-)) surviving from lethal initial damage still developed mesangial proliferative GN, which was drastically prevented by an AngII type 1 receptor (AT1) blocker. We further examined the mechanisms by which renin-Ang system (RAS) participates in this immune disease. Using bone marrow chimeras between gamma(-/-) and AT1(-/-) mice, we found that glomerular injury in gamma(-/-) mice was associated with CD4(+) T cell infiltration depending on renal AT1-stimulation. Based on findings in cutaneous delayed-type hypersensitivity, we showed that AngII-activated renal resident cells are responsible for the recruitment of effector T cells. We next examined the chemotactic activity of AngII-stimulated mesangial cells, as potential mechanisms coupling RAS and cellular immunity. Chemotactic activity for T cells and Th1-associated chemokine (IFN-gamma-inducible protein-10 and macrophage-inflammatory protein 1alpha) expression was markedly reduced in mesangial cells from AT1(-/-) mice. Moreover, this activity was mainly through calcineurin-dependent NF-AT. Although IFN-gamma-inducible protein-10 was NF-kappaB-dependent, macrophage-inflammatory protein 1alpha was dominantly regulated by NF-AT. Furthermore, AT1-dependent NF-AT activation was observed in injured glomeruli by Southwestern histochemistry. In conclusion, our data indicate that local RAS activation, partly via the local NF-AT pathway, enhances the susceptibility to T cell-mediated injury in anti-glomerular basement membrane Ab-induced GN. This novel mechanism affords a rationale for the use of drugs interfering with RAS in immune renal diseases.
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PMID:Susceptibility to T cell-mediated injury in immune complex disease is linked to local activation of renin-angiotensin system: the role of NF-AT pathway. 1237 Mar 42

The CTLA-4 (CD152) molecule is up-regulated upon T cell activation and proliferation, and plays a critical role in the inhibition of immune responses. We show in this study that cAMP induces up-regulation of CD152 in human CD4(+) T lymphocytes. This effect occurs in the absence of the up-regulation of CD69 and CD25 activation markers and T cell proliferation. In addition, we found that the Ca(2+) ionophore ionomycin also up-regulates CD152, and that the combination of a cAMP analog or cAMP inducers with ionomycin further enhances the expression of CD152 in resting CD4(+) T lymphocytes. However, cyclosporin A, which inhibits Ca(2+)/calcineurin signaling pathway, fully prevented the ionomycin- but not the cAMP-induced up-regulation of CD152. The effects of cAMP and ionomycin involve increase of both CD152 mRNA transcripts, coding for the membrane and the soluble forms of CD152. Furthermore, we show that CD152 molecules are translocated to the membrane and are functional, as their engagement by specific mAbs prevented NF-kappaB activation by anti-CD3/CD28 stimulation. These findings demonstrate that at least two novel signal pathways regulate CTLA-4 gene expression and CD152 molecule up-regulation in human CD4(+) T lymphocytes, in the absence of full T cell activation.
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PMID:Cyclic adenosine 5'-monophosphate and calcium induce CD152 (CTLA-4) up-regulation in resting CD4+ T lymphocytes. 1244 28

TGFbeta1 is a polypeptide growth modulatory and differentiation factor involved in many biological processes including immune homeostasis and self-tolerance. Tgfb1 knockout mice die around weaning age due to severe inflammation in most major organ systems, but the mechanism underlying this disease is not understood. In this study we demonstrate that Tgfb1(-/-) CD4(+)CD8(+) and CD4(+)CD8(-) thymocytes are hyperresponsive to receptor-mediated and receptor-independent mitogenic stimulation. A suboptimal concentration of ionomycin in the presence of PMA fully activates Tgfb1(-/-) thymocytes, whereas the inhibitors of Ca(2+) influx and calcineurin, EGTA and FK506, eliminate the hyperresponsiveness. Hence, the hypersensitivity of Tgfb1(-/-) thymocytes is due to a lowered threshold for Ca(2+)-dependent activation. Further, we demonstrate that the hypersensitivity of thymocytes results from the absence of TGFbeta1 and not from the inflammatory environment because the thymocytes are hyperresponsive in preinflammatory-stage Tgfb1(-/-) mice. Our results suggest for the first time that TGFbeta1 functions to inhibit aberrant T cell expansion by maintaining intracellular calcium concentration levels low enough to prevent a mitogenic response by Ca(2+)-independent stimulatory pathways alone. Consequently, TGFbeta1 prevents autoimmune disease through a Ca(2+) regulatory pathway that maintains the activation threshold above that inducible by self-MHC-TCR interactions.
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PMID:TGF beta 1 inhibits Ca2+-calcineurin-mediated activation in thymocytes. 1264 29

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

Negative selection is the process whereby immature thymocytes expressing TCRs with high affinity for self-peptide:MHC complexes are induced to undergo apoptosis. The transcriptional events that occur as a result of TCR signaling during negative selection are not well-characterized. Using oligonucleotide arrays, we have identified 33 genes that exhibit changes in RNA levels in CD4(+)CD8(+) thymocytes during negative selection in vivo. Of 18 genes that have been further characterized, 13 are regulated in response to stimulation with Ag or anti-CD3 and anti-CD28 Abs ex vivo, indicating that these genes are regulated independently of activation of the peripheral immune system. These data also support the idea that anti-CD3/CD28-mediated thymocyte apoptosis is a valid model for negative selection in vivo. A detailed examination of the regulation of many of the identified genes in response to treatment with dexamethasone or gamma-radiation or in response to anti-CD3/anti-CD28 stimulation in the presence of pharmacological inhibitors of mitogen-activated protein kinase kinase kinase 1, p38 mitogen-activated protein kinase, phosphatidylinositol 3-kinase, calcineurin, and cyclin-dependent kinase 2 has facilitated the elucidation of a map of the transcriptional events that occur downstream of the TCR. These studies support a model whereby similar signal transduction pathways are activated by stimuli that induce positive and negative selection and are consistent with the idea that the balance between opposing proapoptotic and antiapoptotic pathways determines cell fate. The data presented in this study also suggest that calcineurin functions to amplify TCR signals by promoting sustained increases in the levels of specific transcripts.
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PMID:Characterization of transcriptional regulation during negative selection in vivo. 1284 48

Protein kinase B (PKB), a serine threonine kinase is critically involved in cellular proliferation and survival. To characterize its role in T cell development in vivo, we have analyzed transgenic mice that express a membrane-targeted constitutively active version of PKB (myr PKB) in thymocytes and peripheral T cells. We report that myr PKB renders proliferative responses of thymocytes more sensitive to TCR signals by increased and sustained activation of Src kinase Lck and the extracellular signal-regulated kinase/mitogen-activated protein kinase pathway. In addition, the proliferative response of myr PKB T cells is relatively independent of calcium mobilization and calcineurin activity. We also find that myr PKB enhances phosphorylation of glycogen synthase kinase 3, a negative regulator of NFAT and T cell activation, and the recruitment of the adapter protein Cbl-c. Interestingly, we demonstrate that upon TCR/CD3 stimulation of wild-type T cells PKB is translocated into lipid rafts, adding a new role for PKB in TCR-initiated signalosome formation in T cell activation. Localization of transgenic PKB in lipid rafts could contribute to the higher TCR sensitivity of myr PKB thymocytes which is reflected in an increase in positive selection toward the CD4 lineage and variable effects on negative selection depending on the model system analyzed. Thus, our observations clearly indicate a cross-talk between PKB and important signaling molecules downstream of TCR that modulate the thresholds of thymocyte selection and T cell activation.
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PMID:Constitutively active protein kinase B enhances Lck and Erk activities and influences thymocyte selection and activation. 1287 17

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