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)

Left ventricular assist device (LVAD) implantation is frequently complicated by B-cell activation and allosensitization, posing a significant risk to successful transplant outcome. This study investigated whether B-cell hyperreactivity and alloantibody production in LVAD recipients involves T-cell dependent pathways. T-cell calcium flux and nuclear translocation of NFATc were used to determine states of T-cell activation. Flow cytometry was used to assess human T- and B-cell activation after culture with LVAD-derived biomaterial particles. Sera from LVAD recipients and controls were tested for the presence of anti-HLA antibodies, and for soluble CD40 ligand. LVAD-derived biomaterial induced rapid and sustained calcium flux into normal T cells, resulting in calcineurin-dependent nuclear translocation of NFATc. This resulted in increased T-cell expression of CD40 ligand and subsequent B-cell activation, which was reduced by inhibitors of T-cell activation (CsA or anti-CD25 mAb) or by anti-CD40 ligand mAb. LVAD recipients demonstrated higher frequencies of anti-HLA antibodies and serum levels of soluble CD40 ligand compared with heart failure controls. The results indicate that exposure of human mononuclear cells to LVAD-derived biomaterial leads to T-cell dependent B-cell activation via CD40--CD40 ligand interaction, and suggest that treatment with calcineurin inhibitors or monoclonal antibodies against either CD25 or CD40 ligand could be effective at preventing B-cell hyperreactivity and allosensitization after LVAD implantation.
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PMID:B-cell activation and allosensitization after left ventricular assist device implantation is due to T-cell activation and CD40 ligand expression. 1187 39

Calcium signaling activates the phosphatase calcineurin and induces movement of NFATc proteins into the nucleus, where they cooperate with other proteins to form complexes on DNA. Nuclear import is opposed by kinases such as GSK3, thereby rendering transcription continuously responsive to receptor occupancy. Disruptions of the genes involved in NFAT signaling are implicating this pathway as a regulator of developmental cell-cell interactions.
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PMID:NFAT signaling: choreographing the social lives of cells. 1198 54

Contractile activity imposed by chronic electrical stimulation of a primary skeletal muscle cell culture grown on microcarriers over several days led to an increase of slow myosin heavy chain I (MHCI) and a decrease of fast MHCII expression at mRNA and protein levels, indicating an ongoing fast-to-slow transformation. Only patterns with periods of continuous stimulation of > or = 5 min in a 45 min cycle were capable of inducing a fibre type transformation, and this was independent of the applied stimulation frequency over the range 1-10 Hz. We have shown before that the calcineurin-NFATc1 signalling pathway is indispensable in mediating MHCI upregulation during fibre type transformation. Therefore, subcellular localization of NFATc1 was studied immunocytochemically. This revealed that only one stimulation train lasting for > or = 5 min was sufficient to induce nuclear import of this factor, which was about complete after 20 min of continuous stimulation. For both induction of NFATc1 import and MHCI mRNA upregulation, the minimum stimulation interval of > or = 5 min was sufficient and stimulation frequency was not crucial between 1 and 10 Hz. Repetition of stimulation cycles, with pauses (40 min) shorter than the time required for complete export of NFATc1, led to an accumulation of NFATc1 in the nuclei with each cycle and thus to an amplification of the transformation signal during extended periods of electrostimulation. The temporal behaviour of NFATc import/export appears to determine the effectiveness of various electrostimulation protocols in inducing fast-to-slow fibre transformation.
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PMID:Fast-to-slow transformation and nuclear import/export kinetics of the transcription factor NFATc1 during electrostimulation of rabbit muscle cells in culture. 1206 44

The nuclear localization and transcriptional activity of the NF-ATc family of transcription factors, essential to many developmental, differentiation, and adaptation processes, are determined by the opposing activities of the phosphatase calcineurin, which promotes nuclear accumulation of NF-ATc, and several kinases, which promote cytoplasmic accumulation. Many reports suggest that protein kinase A (PKA) negatively modulates calcineurin-mediated NF-ATc activation. Here we show that overexpression of PKA causes phosphorylation and cytoplasmic accumulation of NF-ATc1 in direct opposition to calcineurin by phosphorylating Ser-245, Ser-269, and Ser-294 in the conserved serine-proline repeat domain, and that mutation of these serines blocks the effect of PKA. Activation of endogenous PKA is similarly able to promote phosphorylation of these sites on NF-ATc1 in two lymphoid cell lines. We further show that a complete block of NF-ATc1 nuclear localization by PKA requires a second kinase activity that can be supplied by glycogen synthase kinase-3 (GSK-3), and that mutation of either the PKA phosphorylation sites or the upstream GSK-3 sites prevents the effect of PKA. Thus, we propose that PKA functions cooperatively as a priming kinase for further phosphorylation by GSK-3 to oppose calcineurin-mediated nuclear accumulation and transcriptional activity of NF-ATc1 and that, through this mechanism, PKA may be an important modulator of many NF-ATc-dependent processes.
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PMID:Protein kinase A negatively modulates the nuclear accumulation of NF-ATc1 by priming for subsequent phosphorylation by glycogen synthase kinase-3. 1235 31

NFAT (nuclear factor of activated T cells) plays a pivotal role in inducible gene transcription during the immune response and functions as a major target for immunosuppressive drugs such as cyclosporin A and FK-506. However, due to toxic effects of these drugs, which arise from their ability to inhibit calcineurin in non-immune cells, development of agents that directly target NFAT without toxic effects is warranted. Here, we present an in vitro selection of RNA aptamer to NFATc DNA binding domain (DBD) from a combinatorial RNA library with 41 nucleotide-long random sequences using the SELEX technique. The selected (SE) RNA was found to specifically and avidly bind NFATc DBD based on immunoprecipitation and competitive gel retardation assay. SE RNA also efficiently and specifically inhibited DNA binding capacity of NFATc, but not NFATp. Furthermore, transient RNA transfection studies show that only SE RNA can selectively and efficiently inhibit the NFATc- but neither the NFkappaB- nor NFATp-driven promoter activity in cells. These results suggest that SE RNA identified in this study is a specific inhibitor of NFATc activation, and hence, can be used not only for the study of NFAT functions but for the development of potent immune modulating agents.
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PMID:In vitro selection of specific RNA inhibitors of NFATc. 1240 78

Transient or reversible protein-protein interactions are commonly used to ensure efficient targeting of signaling enzymes to their cellular substrates. These interactions include direct binding to substrate, interaction with an accessory or scaffold protein, and positioning at subcellular locations in proximity to substrates. The existence of specialized targeting mechanisms raises the possibility of designing inhibitors that do not block enzyme activity per se, but rather interfere with targeting of the enzyme to one or more of its substrates within the cell. Here, we identify small organic molecules that specifically block targeting of the protein phosphatase calcineurin to its substrate nuclear factor of activated T cells (NFAT, also termed NFATc) and show that they are effective inhibitors of calcineurin-NFAT signaling.
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PMID:Selective inhibition of calcineurin-NFAT signaling by blocking protein-protein interaction with small organic molecules. 1513 Dec 67

Endothelin-1 (ET-1) is a potent survival factor against myocardial cell apoptosis. This anti-apoptotic effect of ET-1 is mediated in part through calcineurin/NFATc-dependent induction of bcl-2 expression. Since it has been reported that peroxisome proliferator-activated receptor-gamma (PPARgamma) interacts with NFATc, we investigated the effects of PPARgamma ligands on anti-apoptotic effects of ET-1 in cardiac myocytes. In primary cardiac myocytes from neonatal rats, administration of PPARgamma activators (15-deoxy-delta12,14-prostaglandin J2 and troglitazone) attenuated the anti-apoptotic effects of ET-1. These activators abolished the ET-1-stimulated increase in bcl-2 expression and in binding of cardiac NFATc to the bcl-2 NFAT site. These findings demonstrate that activators of PPARgamma perturb the anti-apoptotic effects of ET-1 in cardiac myocytes and that this perturbation is, in part, based on functional transcriptional cross-talk between NFATc and PPARgamma.
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PMID:Activators of PPARgamma antagonize protection of cardiac myocytes by endothelin-1. 1535 82

Nuclear factor of activated T cells (NFAT) plays a central role in the immune response, and the immuno-suppressive drugs, cyclosporin A and FK-506, have been developed to inhibit it. However, due to the toxic effects of these drugs, which derive from their ability to inhibit calcineurin in non-immune tissues, the identification of small compounds that target NFAT directly could be an approach to developing less toxic immunosuppressive therapy. Using an in vitro selection technology termed SELEX on a combinatorial RNA library with 40 nucleotide-long random sequences, we have isolated two RNA aptamers to the NFAT DNA binding domain (DBD). Gel retardation assays and surface plasmon resonance measurements showed that the aptamers have a specific and high affinity (apparent KD~10 to 100 nM) for the NFAT DBD. Enzymatic probing analysis showed that the two RNA aptamers have similar structures and share a sequence that forms an apical loop. Moreover, RNase footprinting analysis showed that the shared sequence (GATATGAAGGA/ TGTG/AGAGAG) is critical for binding to both NFATp DBD and NFATc DBD. These results suggest that short RNAs identified in this study is a specific aptamer to NFAT DBD, and hence could be applied not only for the delineation of NFAT functions but for the development of potent immune modulating lead compounds.
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PMID:In vitro selection of specific RNA aptamers for the NFAT DNA binding domain. 1535 19

Calcineurin is a phosphoprotein phosphatase that channels intracellular Ca signals into multiple biological pathways. Calcineurin is known to interact directly with its substrate nuclear factor of activated T cells (NFAT or NFATc), with other substrates, and with several targeting and scaffold proteins including AKAP79 and Cabin1/cain. The calcineurin-NFAT interaction depends on recognition of a PxIxIT sequence motif present in NFAT-family proteins and in certain other calcineurin-interacting proteins. Here, we define the structural basis for the interaction of calcineurin with NFAT and with other proteins possessing the PxIxIT motif. The calcineurin-PxIxIT contact has a direct parallel in the contact of protein phosphatase 1 with its regulatory proteins, suggesting that the evolution of these related phosphatases involved local remodelling of an ancestral docking site.
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PMID:Structural delineation of the calcineurin-NFAT interaction and its parallels to PP1 targeting interactions. 1536 89

Activation and dysfunction of the endothelium underlie many vascular disorders including atherosclerosis, tumor growth, and inflammation. Endothelial cell activation is mediated by many different extra-cellular signals, which result in overlapping yet distinct patterns of gene expression. Here we show, in DNA microarray analyses, that vascular endothelial growth factor (VEGF) and thrombin result in dramatic and rapid upregulation of Down syndrome critical region (DSCR)-1 gene encoding exons 4-7, a negative feedback regulator of calcium-calcineurin-NF-AT signaling. VEGF- and thrombin-mediated induction of DSCR-1 involves the cooperative binding of NF-ATc and GATA-2/3 to neighboring consensus motifs in the upstream promoter. Constitutive expression of DSCR-1 in endothelial cells markedly impaired NF-ATc nuclear localization, proliferation, and tube formation. Under in vivo conditions, overexpression of DSCR-1 reduced vascular density in matrigel plugs and melanoma tumor growth in mice. Taken together, these findings support a model in which VEGF- and thrombin-mediated induction of endothelial cell proliferation triggers a negative feedback loop consisting of DSCR-1 gene induction and secondary inhibition of NF-AT signaling. As a natural brake in the angiogenic process, this negative pathway may lend itself to therapeutic manipulation in pathological states.
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PMID:Vascular endothelial growth factor- and thrombin-induced termination factor, Down syndrome critical region-1, attenuates endothelial cell proliferation and angiogenesis. 1544 46

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