EC:3.1.3.16 - FACTA Search

Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Target Concepts:

Query: EC:3.1.3.16 (calcineurin)
17,112 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Transcription of the human tumor necrosis factor alpha (TNF-alpha) gene is one of the earliest events that occurs after stimulation of B or T cells via their antigen receptors. Antibody directed at surface immunoglobulin (anti-Ig) on B cells has previously been shown to induce a rapid burst of TNF-alpha gene transcription, which can be blocked by the immunosuppressants cyclosporin A (CsA) and FK506. Here, TNF-alpha gene transcription is shown also to be highly and rapidly induced in human B cells after stimulation via the CD40 and interleukin 4 pathways, which similarly is inhibited by CsA and a panel of CsA or FK506 analogues that block calcineurin phosphatase activity. Endogenous TNF-alpha produced after stimulation was involved in B-cell proliferation since anti-TNF-alpha monoclonal antibody inhibited both anti-Ig- and anti-CD40-induced B-cell proliferative responses. Moreover, addition of TNF-alpha during stimulation resulted in augmentation of B-cell proliferation, which was also inhibited by anti-TNF-alpha monoclonal antibody. Although lymphotoxin alpha (LT-alpha) mRNA is induced by both pathways, it is not blocked by CsA, whereas LT-beta mRNA is constitutively expressed in B cells. Thus, TNF-alpha is a necessary autocrine growth factor for human B cells stimulated via two independent CsA-sensitive pathways and plays a role similar to that of interleukin 2 in T-cell proliferation. The autocrine nature of TNF-alpha in activated B cells implies a potential role for this cytokine in infection-related polyclonal B-cell expansion and in B-cell malignancies.
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PMID:Tumor necrosis factor alpha is an autocrine growth factor for normal human B cells. 751 25

A role of Ca2+/calmodulin-dependent protein phosphatase (calcineurin) in induction of long-term potentiation (LTP) was investigated using its selective inhibitor, FK506, in visual cortical slices of young rats. Field potentials or excitatory postsynaptic potentials (EPSPs) to test stimulation of white matter were recorded extra- or intracellularly from layer 2/3, and tetanic stimulation (tetanus) was applied to the white matter at 5 Hz. During the application of FK506 (1 microM), short tetanus (6 s) which had rarely induced LTP in the normal medium, became effective in inducing LTP. Tetanus for 1 min in the presence of FK506 induced LTP with higher probability than in the normal medium. To test possible involvement of presynaptic mechanisms, paired pulses at 50 ms intervals were given to the white matter. The facilitation ratio of the second to first EPSPs was not significantly changed by FK506 and after the induction of LTP, suggesting that the action of FK506 may not be presynaptic. To confirm this, FK506 was injected directly into neurons through recording electrodes. In cases in which stable EPSPs were recorded, the probability of LTP induction became higher than that obtained with normal electrodes. These results suggest that calcineurin plays a role in processes antagonizing the induction of LTP in visual cortex.
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PMID:Effects of an inhibitor for calcium/calmodulin-dependent protein phosphatase, calcineurin, on induction of long-term potentiation in rat visual cortex. 752 Jan 43

The immunosuppressive peptide cyclosporin A inhibits the growth of malaria parasites in vitro and in vivo, but little is known about its mechanism of antimalarial action. The immunosuppressive action of cyclosporin A is believed to result from binding of the drug to cyclophilins (intracellular peptidyl-prolyl cis-trans isomerases), and inhibition of the protein phosphatase calcineurin by the cyclosporin A-cyclophilin complex. Two immunosuppressive macrolides, FK506 and rapamycin, bind to a distinct isomerase, FKBP12, and the FK506-FKBP complex also inhibits calcineurin. Calcineurin itself is apparently involved in signal transduction between the T-cell membrane and nucleus, and its inhibition blocks T-cell activation. Rapamycin inhibits a later step in T-cell proliferation. Peptidyl-propyl cis-trans isomerase activity was detected in extracts of Plasmodium falciparum. It was completely inhibited by concentrations of cyclosporin A above 0.1 microM, but not by FK506 or rapamycin, and probably represented one or more cyclophilins. Comparison of the antimalarial and anti-isomerase activities of a series of cyclosporin analogues failed to reveal a correlation between the two properties. Cyclosporin A and its more active 8'-oxymethyl-dihydro-derivative, in combination with the cyclophilin-containing P. falciparum extract, inhibited the protein phosphatase activity of bovine calcineurin. Therefore inhibition of a putative P. falciparum calcineurin by a complex of CsA and cyclophilin might be responsible for the antimalarial action of the drug. The most active cyclosporin, however, was a 3'-keto-derivative of cyclosporin D (SDZ PSC-833) which inhibited P. falciparum growth with a 50% inhibitory concentration (IC50) of 0.032 microM (compared with 0.30 microM for cyclosporin A), but was a poor inhibitor of the parasite isomerase. 3'-Keto-cyclosporin D has negligible immunosuppressive activity, but it strongly inhibits the P-glycoprotein of multi-drug resistant mammalian tumour cells. FK506 and rapamycin were also active antimalarials (IC50 of 1.9 and 2.6 microM, respectively) but in the absence of detectable FKBP in P. falciparum extracts, their mechanisms of antimalarial action remain unclear.
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PMID:Roles of peptidyl-prolyl cis-trans isomerase and calcineurin in the mechanisms of antimalarial action of cyclosporin A, FK506, and rapamycin. 752 Jun 96

The nontransformed steroid receptors contain several non-steroid binding proteins, such as hsp90, hsp70, and p59. Recently, we and others have shown that p59 (FKBP59) is an immunophilin which binds two potent immunosuppressants, FK506 and rapamycin. This raises the possibility that FK506 or rapamycin may modify the function of steroid receptors. To develop this line of inquiry, we chose a yeast model system in which the human progesterone receptor form B (hPR-B) was cotransformed with a reporter gene. The reporter contains two copies of a progesterone response element/glucocorticoid response element (PRE/GRE) upstream of the CYC1 promoter which are linked to the lacZ gene of Escherichia coli. We found that FK506 potentiated the ability of progesterone in activating transcription. To gain insight into the mechanism of FK506's regulation of PR action, we questioned whether calcineurin is involved, because it has been shown that FK506 is a specific inhibitor of calcineurin, a Ca(2+)- and calmodulin-regulated phosphatase, through the formation of an FKBP12-FK506-calcineurin-calmodulin complex. We found that 15-O-desmethyl-FK520, an FK506 analogue which is an excellent ligand of FKBP12, but a poor inhibitor of calcineurin, failed to induce the same effect as FK506. We also found that calmidazolium, a calmodulin antagonist, mimicked FK506's action. Furthermore, immunoblot analysis showed that both FK506 and calmidazolium potentiated the effect of progesterone in decreasing the mobility of hPR-B upon sodium dodecyl sulfate-polyacrylamide gel electrophoresis (SDS-PAGE). This suggests that FK506 and calmidazolium may cooperate with progesterone in increasing the level of hPR-B phosphorylation.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Potentiation of progesterone receptor-mediated transcription by the immunosuppressant FK506. 752 Dec 10

Antigen-specific signal transduction leading to IL2 induction and secretion in the T cell line 171 is augmented by association of p56lck with CD4. Although no change in cytoplasmic calcium level ([Ca2+]i) was detectable during antigen-specific signal transduction of 171-CD4+ cells, IL2 induction was inhibited by FK506 and CsA. Since these drugs are thought to act selectively by inhibiting calcineurin, a calcium-calmodulin-dependent protein phosphatase associated with activation of the IL2 promoter, we considered the possibility that calcineurin is constitutively active in 171 cells. However, we found no evidence for this because PMA failed to supplement any putatively active calcineurin to induce IL2 secretion. We suggest that IL2 secretion induced by antigen presentation to TCR/CD4/p56lck requires an FK506 and cyclosporin A-sensitive step which may be independent of calcium signaling. Rapamycin did not inhibit IL2 secretion induced by TCR/CD4/p56lck, emphasizing the specific action of FK506 and cyclosporin A.
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PMID:FK506 and cyclosporin A each inhibit antigen-specific signaling in the T cell line 171 in the absence of a calcium signal. 752 30

The immunosuppressive action of the drug FK506 involves inhibition of calcineurin in T-lymphocytes by a complex of FK506 and an FK506 binding protein, FKBP12, a member of the immunophilin protein family. The functional role of brain immunophilins is, however, unclear. We show here that FK506 is a powerful neuroprotective agent in an in vivo model of focal cerebral ischaemia when administered up to 60 min post-occlusion. The minimum effective neuroprotective dose is comparable with the immunosuppressant dose in humans, suggesting that FK506 may have clinical potential for the treatment of stroke. Although the related immunosuppressants rapamycin and cyclosporin failed to reduce brain damage, the finding that rapamycin pretreatment blocked the effect of FK506 confirms a role for immunophilins in the neuroprotective mechanism.
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PMID:Immunophilins mediate the neuroprotective effects of FK506 in focal cerebral ischaemia. 752 3

The effect of recombinant FKBP-59/HBI or of its first N-terminal domain FKBP-59/HBI-I on the phosphatase activity of calcineurin (a Ca(+2)-calmodulin dependent phosphatase) was tested in vitro in the presence or absence of the immunosuppressant drug FK506. Contrarily to the inhibition observed with the immunosuppressant complex FKBP-12-FK506, no significant inhibition was observed with FKBP-59/HBI or FKBP-59/HBI-I in the presence of FK506, even though FKBP-59/HBI-1 is nearly 55% homologous to the immunophilin FKBP-12. Inhibition was tested both with native calcineurin (calcineurin A: Mr 58-59 kDa) and with protease activated, calmodulin independent calcineurin (calcineurin A: Mr 45 kDa). There was no competitive effect of FKBP-59 on the inhibitory activity of the FKBP-12-FK506 complex, even when the molar concentration of FKBP-59/HBI was 100 times higher than that of FKBP-12. Clearly, although the first domain of FKBP-59/HBI displays several structural and functional features of FKBP-12, it does not interact with calcineurin.
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PMID:Rabbit FKBP-59/HBI does not inhibit calcineurin activity in vitro. 752 47

Calcineurin (CaN) immunoreactivity and content increased markedly in kindled rat brain, and this increment was due to CaN in the membrane fraction. Investigation of the effects of cyclosporin A and FK506 (immunosuppressants which inhibit CaN activity in T lymphocytes) in the kindling phenomena showed that the kindling stage progression was reversibly blocked by these drugs. These findings suggest that calcineurin may play an essential role in acquiring epileptogenesis in kindling.
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PMID:Immunosuppressants and calcineurin inhibitors, cyclosporin A and FK506, reversibly inhibit epileptogenesis in amygdaloid kindled rat. 752 29

The calcium/calmodulin-regulated phosphatase calcineurin (CN) is the site of action of the immunosuppressive drugs cyclosporin A (CsA) and FK506. CN has recently been established as a key signaling enzyme in the T cell signal transduction cascade and an important regulator of transcription factors such as NF-AT and OAP/Oct-1, which are involved in the expression of a number of important T cell early genes. CsA and FK506 act by forming complexes with their respective intracellular receptors cyclophilin and FKBP (immunophilins), which can then bind to CN, inhibiting its enzymatic activity and thereby preventing early gene expression. CN is comprised of two subunits: a 59-kDa catalytic subunit (CNA), which contains a calmodulin binding domain and autoinhibitory region, and a 19-kDa intrinsic calcium binding regulatory subunit (CNB). In this study, we have utilized a series of deletion mutants of the CNA subunit to investigate the subunit and molecular requirements that govern the interaction of CN with drug-immunophilin complexes. The calmodulin binding and autoinhibitory domains of the CNA subunit were found to be dispensable for the binding of CN to drug-immunophilin complexes. In contrast, we found that the regulatory CNB subunit appears to play an obligatory role in this interaction and have defined an amino acid sequence of the CNA subunit which forms the binding site for CNB. Although necessary, the CNB subunit per se is not sufficient to mediate an interaction with drug-immunophilin complexes; amino acid residues of the CNA subunit, specifically a region located within the putative catalytic domain, are also required for the interaction of CN with both FKBP-FK506 and cyclophilin A-CsA.
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PMID:Molecular analysis of the interaction of calcineurin with drug-immunophilin complexes. 752 7

The binding of the FK506/FKBP-12 complex to calcineurin (CN), its putative target for immunosuppression, involves recognition of solvent-exposed regions of the ligand as well as FKBP-12 residues near the active site. The R42K, H87V double mutation of FKBP-12 decreases the CN affinity of the complex by 550-fold [Aldape, R. A., Futer, O., DeCenzo, M. T., Jarrett, B. P., Murcko, M. A., & Livingston, D. J. (1992) J. Biol. Chem. 267, 16029-16032]. This work reports the solution structure of 13C-labeled FK506 bound to R42K, H87V FKBP-12. Assignments and NOE measurements at three mixing times were made from inverse-detected 1H-13C NMR experiments. Structures were calculated by several different methods, including distance geometry, restrained molecular dynamics, and molecular dynamics with time-averaged restraints. The NMR structures of the ligand are very well defined by the NOE restraints and differ slightly from the X-ray structure in regions that are involved in crystal packing. Comparison with the NMR structure of FK506 bound to wild-type FKBP-12 reveals that the R42K, H87V mutation causes the ligand backbone near C16 to move by 2.5 to 4.5 A, reorients 15-MeO by 90 degrees, and shifts 13-MeO by approximately 1.5 A. FK506 appears to undergo a concerted, mutationally induced shift in the binding pocket, with the greatest changes occurring in the effector region of the drug. The altered effector conformation of mutant-bound FK506 may perturb interactions between the drug and CN, thus accounting for the effect of the double mutation upon the CN inhibitory activity of the complex.
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PMID:Solution structure of FK506 bound to the R42K, H87V double mutant of FKBP-12. 752 62

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