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

The consequences of site-directed mutagenesis experiments are often anticipated by empirical rules regarding the expected effects of a given amino acid substitution. Here, we examine the effects of "conservative" and "nonconservative" substitutions on the X-ray crystal structures of human recombinant FKBP12 mutants in complex with the immunosuppressant drug FK506 (tacrolimus). R42K and R42I mutant complexes show 110-fold and 180-fold decreased calcineurin (CN) inhibition, respectively, versus the native complex, yet retain full peptidyl prolyl isomerase (PPIase) activity, FK506 binding, and FK506-mediated PPIase inhibition. Interestingly, the structure of the R42I mutant complex is better conserved than that of the R42K mutant complex when compared to the native complex structure, within both the FKBP12 protein and FK506 ligand regions of the complexes, and with respect to temperature factors and RMS coordinate differences. This is due to compensatory interactions mediated by two newly ordered water molecules in the R42I complex structure, molecules that act as surrogates for the missing arginine guanidino nitrogens of R42. The absence of such surrogate solvent interactions in the R42K complex leads to some disorder in the so-called "40s loop" that encompasses the substituent. One rationalization proposed for the observed loss in CN inhibition in these R42 mutant complexes invokes indirect effects leading to a misorientation of FKBP12 and FK506 structural elements that normally interact with calcineurin. Our results with the structure of the R42I complex in particular suggest that the observed loss of CN inhibition might also be explained by the loss of a specific R42-mediated interaction with CN that cannot be mimicked effectively by the solvent molecules that otherwise stabilize the conformation of the 40s loop in that structure.
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PMID:Structure comparison of native and mutant human recombinant FKBP12 complexes with the immunosuppressant drug FK506 (tacrolimus). 856 22

In T lymphocytes, the calcium/calmodulin-dependent serine/threonine phosphatase, calcineurin, plays a pivotal role in transducing membrane-associated signals to the nucleus. One of the putative targets of calcineurin is the pre-existing, cytosolic component of the nuclear factor of activated T cells (NFATp; also referred to as NFAT1), which is one of several transcription factors required for the expression of interleukin 2. Inhibition of calcineurin by the immunosuppressive drugs cyclosporin A and FK506 prevents dephosphorylation of NFATp and its translocation to the nucleus. However, a physical interaction between calcineurin and NFATp has not been demonstrated. Here we demonstrate the binding of NFATp from lysates of T cells to immobilized calcineurin. Stimulation of T cells with calcium ionophore induced a shift in the molecular weight of NFATp that is due to its dephosphorylation. This dephosphorylation was inhibited by treatment of T cells with cyclosporin A or FK506 prior to stimulation. Of note, both the phosphorylated and the dephosphorylated form of NFATp bound to calcineurin. Furthermore, the binding of both forms of NFATp to calcineurin was inhibited by pretreatment of calcineurin with a complex of FK506 and its ligand FKBP12. Taken together these data strongly suggest a direct interaction of calcineurin with NFATp and that this interaction does not depend upon the phosphorylation sites of NFATp affected by activation.
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PMID:Identification of a physical interaction between calcineurin and nuclear factor of activated T cells (NFATp). 857 11

We have characterized a Saccharomyces cerevisiae mutant strain that is hypersensitive to cyclosporin A (CsA) and FK506, immunosuppressants that inhibit calcineurin, a serine-threonine-specific phosphatase (PP2B). A single nuclear mutation, designated cev1 for calcineurin essential for viability, is responsible for the CsA-FK506-sensitive phenotype. The peptidyl-prolyl cis-trans isomerases cyclophilin A and FKBP12, respectively, mediate CsA and FK506 toxicity in the cev1 mutant strain. We demonstrate that cev1 is an allele of the VPH6 gene and that vph6 mutant strains fail to assemble the vacuolar H(+)-ATPase (V-ATPase). The VPH6 gene was mapped on chromosome VIII and is predicted to encode a 181-amino acid (21 kD) protein with no identity to other known proteins. We find that calcineurin is essential for viability in many mutant strains with defects in V-ATPase function or vacuolar acidification. In addition, we find that calcineurin modulates extracellular acidification in response to glucose, which we propose occurs via calcineurin regulation of the plasma membrane H(+)-ATPase PMA1. Taken together, our findings suggest calcineurin plays a general role in the regulation of cation transport and homeostasis.
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PMID:vph6 mutants of Saccharomyces cerevisiae require calcineurin for growth and are defective in vacuolar H(+)-ATPase assembly. 858 30

The immunosuppressant cyclosporine A revolutionized treatment of graft rejection. Two newer agents, FK506 and rapamycin, show great clinical potential. These drugs suppress the immune system by forming protein-drug complexes that interact with and inhibit key components of the signal transduction pathways required for T-cell activation. The target of the cyclophilin A-cyclosporine A and FKBP12-FK506 complexes is calcineurin, a protein phosphatase required for signaling via the T-cell receptor. Cyclosporine A and FK506 nephrotoxicity may reflect renal-specific functions of calcineurin. The target of the FKBP12-rapamycin complex is TOR, a lipid and protein kinase homolog that is likely to be required for T-cell proliferation in response to interleukin-2. The identification of cyclosporine A, FK506, and rapamycin targets reveals much concerning T-cell signaling and provides the means to design novel immunosuppressants with reduced toxicity.
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PMID:Molecular mechanisms of immunosuppression by cyclosporine, FK506, and rapamycin. 859 Oct 53

FK506 blocks T cell activation by preventing the transcription of lymphokine genes through binding to the intracellular protein FKBP12 and formation of complex that inhibits the phosphatase activity of calcineurin. Beside exerting potent suppressive activity on cellular and humoral immune responses, in vivo treatment with FK506 in rodent models induces thymic alterations characterized by a selective reduction of mature CD4+8- cells. The potential relationship between such thymic alterations and the immunosuppressive and calcineurin inhibitory activities of FK506 has not been defined. Here, we took advantage of the availability of FK506 analogs with different immunosuppressive potencies to address this question. Intravenous daily administration of FK506 in Sprague-Dawley rats for 4 days was found to be sufficient to cause a depletion of CD4+8- thymocytes with an ED50=0.06 mg/kg/day. Under the same conditions, L-683,590 which is 2-3-fold less potent than FK506 in inhibiting T cell activation and calcineurin function gave an ED50=0.17 mg/kg/day. In contrast, the nonimmunosuppressive, calcineurin noninhibitory antagonist L-685,818, failed to deplete the CD4+8- thymocyte subset but could reverse the reducing effect of FK506 on this subset. Another analog, L-688,617, which does not completely inhibit T cell activation in vitro, also behaved as a partial agonist of CD4+8- cell depletion. Therefore, the ability of FK506 analogs to deplete the CD4+8- thymocytes subset correlates with their immunosuppressive and calcineurin inhibitory potencies. This suggests that calcineurin is involved in the intra-thymic maturation processes of CD4+8- T cells. Moreover, the short-term treatment protocol described here provides a rapid and quantitative assay to determine the immunosuppressive potency of FK506-like compounds in vivo
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PMID:Depletion of the mature CD4+8- thymocyte subset by FK506 analogs correlates with their immunosuppressive and calcineurin inhibitory activities. 862 62

The mammalian P-glycoprotein (Pgp) is a approximately 170-kDa membrane protein that mediates multidrug resistance in many chemotherapy-resistant tumors by effluxing toxic compounds from the cell. Pgp homologs are expressed in many organisms, from bacteria to yeast and mammals. Previous studies established a model system to analyze the function of murine, human, and Plasmodium falciparum Pgp by heterologous expression in the yeast Saccharomyces cerevisiae. However, such studies have been hampered by the inherent resistance of yeast cells to chemotherapeutic agents. We find that an erg6 mutation, which blocks the final synthetic step of the membrane sterol ergosterol, renders yeast sensitive to anthracyclines and dactinomycin, clinically relevant Pgp substrates. We demonstrate that expression of the murine mdr3 gene confers dactinomycin resistance in both the erg6 mutant yeast strain and in an erg6 rad52 DNA repair mutant yeast strain. Similarly, murine mdr3 expression confers resistance to the immunosuppressants cyclosporin A (CsA) and FK506 in a CsA-FK506-sensitive vph6 mutant yeast strain. CsA and FK506 are known to partially overcome Pgp-mediated drug resistance, suggesting the targets of these drugs might regulate Pgp function. We find that both murine mdr3 and the yeast Pgp homolog STE6 function in yeast mutants lacking the CsA target proteins cyclophilin A and calcineurin. In contrast, murine mdr3 function was severely compromised in yeast mutants lacking the FK506/rapamycin target protein FKBP12. Both wild-type FKBP12 and an F43Y FKBP12 mutant with reduced prolyl isomerase activity supported mdr3 function. Our results support the model that immunosuppressants reverse multidrug resistance by competing with other Pgp substrates but reveal that inhibition of FKBP12-dependent Pgp function may also contribute to reversal of multidrug resistance by FK506 and rapamycin.
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PMID:Immunosuppressant target protein FKBP12 is required for P-glycoprotein function in yeast. 870

The potent immunosuppressive drugs FK506 and rapamycin interfere with signal transduction pathways required for T cell activation and growth. The distinct inhibitory effects of these drugs on the T cell activation program are mediated through the formation of pharmacologically active complexes with members of a family of intracellular receptors termed the FK506 binding proteins (FKBPs). The FKBP12.FK506 complex specifically binds to and inhibits calcineurin, a signaling protein required for transcriptional activation of the interleukin (IL)-2 gene in response to T cell antigen receptor engagement. The FKBP12. rapamycin complex interacts with a recently defined target protein termed the mammalian target of rapamycin (mTOR). Accumulating data suggest that mTOR functions in a previously unrecognized signal transduction pathway required for the progression of IL-2-stimulated T cells from G1 into the S phase of the cell cycle. Here we review the immunopharmacology of rapamycin, with particular emphasis on the characterization of mTOR.
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PMID:Immunopharmacology of rapamycin. 871 22

FK-506 blocks T cell activation by preventing lymphokine gene transcription through formation of a complex with FKBP12 that inhibits calcineurin phosphatase activity. Immunosuppressive FK-506 analogs (agonists) have been generated whose potency correlates with calcineurin inhibition. Nonimmunosuppressive antagonist analogs have also been identified, including L-685,818, which binds to FKBP12 but does not inhibit calcineurin. We describe a novel property of FK-506 analog, characterized as a mixed agonist/antagonist immunosuppressive activity. It is displayed by L-688,617, the 32 O-methoxyethoxymethyl derivative of the agonist L-683,590 (C21-ethyl). Although it binds to FKBP12 similarly to L-683,590, L-688,617 incompletely suppressed T cell proliferation induced by optimal activation and enhanced that induced by supraoptimal activation. In the latter situation, L-688,617 suppressed IL-2 production only partially but blocked activation-driven cell death. Moreover, a 1000-fold molar excess of L-688,617 antagonized the immunosuppressive activity of L-683,590. L-688,617 inhibited calcineurin phosphatase activity in cells only partially. The unique agonist/antagonist activity of L-688,617 may therefore reflect its high affinity for FKBP12, combined with a reduced ability of the drug-FKBP12 complex to inhibit calcineurin function. However, in a cell-free system, L-688,617 completely blocked this function when a large excess of FKBP12 over calcineurin was present, suggesting that the intracellular concentration of FKBP12 may be a limiting factor that prevents full agonist activity of L-688,617 in cells.
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PMID:Mixed agonist/antagonist activity of an FK-506-related immunosuppressant: biological and biochemical characterization. 878 38

The immunosuppressants cyclosporin A (CsA) and FK506 have been widely used to prevent and treat graft rejection after human organ and tissue transplantations. CsA and FK506 associate with intracellular binding proteins (i.e., CsA with cyclophilin A and FK506 with FKBP12) to form protein/drug complexes that suppress the immune system by preventing activation of T cells in response to antigen presentation. The common target of CsA and FK506 is calcineurin, a Ca2+/calmodulin-regulated, serine/threonine-specific protein phosphatase that regulates the nuclear import of a transcription factor, NF-AT, required for expression of T cell activation genes. In previous studies, we identified calcineurin mutations that block binding by the cyclophilin A/CsA or FKBP12/FK506 complexes and thereby render yeast cells resistant to the antifungal effects of CsA or FK506. In this report, we demonstrate that the corresponding mutations in murine calcineurin render the T cell receptor signal transduction cascade CsA resistant in human Jurkat T cells. Our findings support the recently determined calcineurin X-ray crystal structure, provide evidence that calcineurin is the only CsA-sensitive component limiting signaling from the T cell receptor to the nucleus, and suggest a means to render cells and tissues resistant to the toxic side effects of CsA and FK506.
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PMID:Calcineurin mutants render T lymphocytes resistant to cyclosporin A. 879 88

Dynamic NMR methods, such as differential line broadening and transferred NOE spectroscopy, are normally reserved for the study of small molecule ligand interactions with large protein receptors. Using a combination of isotope labeling and isotope edited NMR, we have extended these techniques to characterize interactions of a much larger protein/drug complex, FKBP-12/ FK506 with its receptor protein, calcineurin. In order to examine this multicomponent system by dynamic NMR methods, the 93 kDa, tightly bound FKBP-12/FK506/Cn complex was replaced with a lower affinity, rapidly exchanging system consisting of FKBP-12/FK506 (13 kDa), recombinant calcineurin subunit B (CnB) (20 kDa), and a synthetic peptide (4 kDa) corresponding to the B binding domain (BBD) of calcineurin catalytic subunit A (CnA). Analysis of 1H-13C HSQC data acquired for the FKBP-12/ 13C-FK506 and FKBP-12/13C-FK506/CnB/BBD complexes indicates that FKBP-12/FK506 and CnB/BBD are in fast exchange in the quaternary complex. Comparison of proton line widths shows significant broadening of resonances along the macrocycle backbone at 13-CH, 13-OMe, 15-OMe, 18-CH2, 20-CH, 21-CH, and 25-Me, as well as moderate broadening on the macrocycle backbone at 17-Me, 24-CH, and the pyranose 12-CH2 protons. The tri-substituted olefin and cyclohexyl groups also show moderate broadening at the 27-Me, 28-CH, and 30-CH2 positions, respectively. Unexpectedly, little line broadening was observed for the allyl resonances of FK506 in the quaternary complex, although 13C longitudinal relaxation measurements suggest this group also makes contacts with calcineurin. In addition, intermolecular transfer NOE peaks were observed for the allyl 37-CH2, 21-CH, 30-CH2, 13-OMe, 15-OMe, 17-Me, 25-Me, and 27-Me groups, indicating that these are potential sites on the FK506 molecule that interact with calcineurin.
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PMID:Dynamic NMR studies of ligand-receptor interactions: design and analysis of a rapidly exchanging complex of FKBP-12/FK506 with a 24 kDa calcineurin fragment. 888 Sep 16


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