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)

The immunoregulant FK-506 potently inhibits particular calcium-associated signal transduction events that occur early during T-lymphocyte activation and during IgE receptor-mediated exocytosis in mast cells. FK-506 binds to a growing family of receptors termed FK-506-binding proteins (FKBPs), the most abundant being a 12-kDa cytosolic receptor, FKBP12. To date, there is no formal evidence proving that FKBP12 is the sole receptor mediating the immunosuppressive effects or toxic side effects of FK-506. Using gel filtration chromatography as an assay for novel FK-506-binding proteins, we identified FK-506 binding activities in extracts prepared from calf brain and from JURKAT cells. Both of these new activities comigrated with apparent molecular masses of 110 kDa. However, further characterization of both binding activities revealed that the two are not identical. The 110-kDa activity observed in brain extracts appears to be the FKBP12.FK-506.calcineurin (CaN) complex previously reported (Liu, J., Farmer, J., Lane, W., Friedman, J., Weissman, I., and Schreiber, S. (1991) Cell 66, 807-815) while the 110 kDa activity observed in JURKAT cells is a novel FK-506-binding protein. Our characterization of the FKBP12.FK-506.CaN complex reveals a dependence upon calmodulin (CaM) for formation of the complex and demonstrates that the peptidyl-prolyl cis-trans isomerase (PPIase) activity of FKBP12 is not required for binding of FKBP12.FK-506 to CaN or for inhibition of CaN phosphatase activity. The novel FK-506-binding protein in JURKAT cells has been purified to homogeneity, migrates with an apparent mass of 51 kDa on denaturing gels, and has been termed FKBP51. Like FKBP12, FKBP51 has PPIase activity, but, unlike FKBP12.FK-506, FKBP51.FK-506 does not complex with or inhibit the phosphatase activity of, CaN. These results indicate that complex formation with CaN may not be a general property of the FKBPs. Peptide sequencing reveals that FKBP51 may be similar, if not identical, to hsp56, a component of non-transformed steroid receptors.
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PMID:Characterization of high molecular weight FK-506 binding activities reveals a novel FK-506-binding protein as well as a protein complex. 138 26

Migration of human polymorphonuclear neutrophils on vitronectin is dependent on repeated transient increases in the concentration of intracellular free calcium ([Ca2+]i). A specific peptide inhibitor of the Ca(2+)-calmodulin-dependent phosphatase calcineurin was introduced into the cytoplasm of neutrophils. The peptide inhibited neutrophil migration on vitronectin by interfering with the release of the cells from sites of attachment. A similar reduction in motility on vitronectin occurred when cells were treated with the immunosuppressant FK506, which also inhibits calcineurin when bound to its binding protein, FKBP. These results indicate that a rise in [Ca2+]i reduces integrin-mediated adhesion to vitronectin by a mechanism that requires calcineurin activity.
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PMID:Inhibition of neutrophil chemokinesis on vitronectin by inhibitors of calcineurin. 138 29

Cyclosporin A and FK-506 are important therapeutic agents that have found widespread use in preventing graft rejection during tissue transplantation. Research efforts aimed at elucidating the molecular mechanism of action of these drugs have, in addition to defining their immunosuppressive functions, led to the identification of two new gene families whose products may function as components of several diverse signal transduction pathways. In the presence of the immunosuppressive drugs, some members of the receptor families interact with the Ca2+/calmodulin-dependent protein phosphatase 2B, also known as calcineurin. Inhibition of phosphatase activity may effect several downstream biochemical processes. In this way, cyclosporin A and FK-506 have proved to be useful probes of signaling events in both lymphocytic and other cell types.
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PMID:FK-506 and cyclosporin A: immunosuppressive mechanism of action and beyond. 138 51

Cyclosporin A is an established immunomodulatory agent with an increasing number of clinical applications. Although its precise mechanisms of action remain elusive, one of the most important known properties of CyA is its ability to inhibit the production of cytokines involved in the regulation of T-cell activation. In particular, CyA inhibits de novo synthesis of interleukin 2(IL-2), the major cytokine involved in T-cell proliferation, as well as other cytokines, probably at the level of gene transcription, as shown by the suppression of mRNA levels in activated T-cells. Although the major actions of CyA are on T-cells, there is some evidence for possible direct effects on other cell types e.g. B-cells, macrophages and, from our own work, on bone and cartilage cells. Cyclosporin A is thought to enter cells and to bind to cyclophilins, which are members of a family of high-affinity cyclosporin A-binding proteins, now known as immunophilins. The binding of cyclosporins to such proteins appears to be closely linked to the immunosuppressive action of cyclosporins. The immunophilins possess enzyme activity, ie. peptidyl-prolyl cis-trans isomerase, also known as rotamase, which can regulate protein folding, and may therefore alter the functional state of many cell proteins. Cyclosporin A blocks peptidyl-prolyl cis-trans isomerase activity but it is not clear whether this plays a part in its selective inhibition of cytokine-gene transcription. Moreover, the ubiquitous presence of cyclophilins and immunophilins raises the question of why cyclosporin A has its apparent major effects only on T-cells. Recent proposals regarding the intracellular mode of action of CyA suggest that it interacts with cyclophilin and other regulatory proteins including calmodulin and calcineurin, which is a serine/threonine phosphatase, and thereby affects the functional state of key regulators of gene transcription in its target cells. The effects of CyA on T-cells and directly or indirectly on connective tissue cells, including bone, cartilage and synovial cells, which all can produce a range of cytokines, are of interest in relation to the tissue changes that occur in inflammatory diseases, such as rheumatoid arthritis. Thus, for example, cyclosporin A inhibits in vitro the bone resorbing activity of interleukin 1, 1,25-dihydroxy-vitamin D3, parathyroid hormone and prostaglandin E2 by apparently non-T-cell effects, while in vivo protects against bone and cartilage loss in adjuvant arthritis. More needs to be known about the direct and indirect modulation of cytokine production by cyclosporin A in connective tissues, in order to understand its potential value in clinical disorders.
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PMID:Cyclosporin A. Mode of action and effects on bone and joint tissues. 147 34

Ca(2+)-binding proteins in the synaptic and subsynaptic fractions (P2, synaptosome, synaptic plasma membrane, and postsynaptic density [PSD]-enriched fractions) and soluble fraction of rat brain were surveyed by a 45Ca2+ overlay method. The PSD-enriched fraction from cerebral cortex contained two major Ca(2+)-binding proteins (55,000 M(r) and 19,000 M(r)) and a distinct group (in 140,000 M(r) region), and two minor ones (66,000 M(r) and 16,000 M(r)); and the fraction from cerebellum contained two (55,000 M(r) and 19,000 M(r)). The proteins with 55,000 M(r) and 19,000 M(r) were identified as tubulin and calmodulin, respectively, and present in all the fractions investigated. The Ca(2+)-binding proteins of 140,000 M(r) region were found only in the PSD-enriched fraction isolated from cerebral cortex: neither the PSD-enriched fraction isolated from cerebellum nor other subcellular fractions prepared from cerebral cortex and cerebellum contained the proteins. The 140,000 M(r) Ca(2+)-binding proteins were the substrates for the Ca2+/calmodulin-dependent protein kinase II associated with PSD, and no change in the Ca(2+)-binding was detected by the 45Ca2+ overlay method after phosphorylation of the proteins by the protein kinase. The 16,000 M(r) Ca(2+)-binding protein might be the beta-subunit of calcineurin. Calretinin and calbindin-D28k were also detected as Ca(2+)-binding proteins in the soluble fractions of both cerebral cortex and cerebellum.
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PMID:Ca(2+)-binding proteins in rat synaptic fractions surveyed by the 45Ca2+ overlay method. 148 83

Calmodulin (CaM) mediates the Ca(2+)-dependent activation of many enzyme systems in accordance with its cellular localization. We have described previously a muscarinic receptor-mediated translocation of CaM from membranes into the cytosol of SK-N-SH human neuroblastoma cells. To explore the potential targets (CaM-binding proteins, CaMBP) for CaM upon translocation, a photoreactive CaM derivative was introduced into living SK-N-SH cells using a scrape-loading technique. Scrape-loading incorporated rhodamine isothiocyanate-labeled CaM with an efficiency of 38%. CaM-diazopyruvamide (CaM-DAP), a Ca(2+)-dependent and CaM-specific probe, was also introduced into the cells. The muscarinic agonist carbachol stimulated a translocation of CaM from membranes into cytosol in CaM-DAP-loaded SK-N-SH cells. Upon photochemical cross-linking, cross-linked adducts of CaM-CaMBP were detected by immunoblotting with anti-CaM antibody. Carbachol stimulated increased photoaffinity labeling of three proteins with relative adduct molecular masses of 70, 120, and 180 kDa. The time course of labeling for the 70- and 120-kDa adducts showed maximal increased by 15-30 min. The 180-kDa adduct displayed a slower time course of maximal labeling, with increases maintained for 2-4 h. Subtracting the molecular mass of CaM, carbachol stimulated binding to CaMBPs of 55, 105, and 163 kDa. Predominant cellular CaMBP were identified using a biotinylated CaM overlay procedure. Western blot analysis indicated the expression of specific CaM-dependent enzymes such as calcineurin, phosphodiesterase, the beta-isoform (rat brain) of CaM kinase II, and Ca(2+)-ATPase. Numerous cytoskeletal CaMBP were expressed such as microtubule-associated protein-2, spectrin, tubulin, caldesmon, adducin, and neuromodulin. Of the CaMBP expressed, phosphodiesterase, calcineurin, caldesmon, and adducin cross-linked with CaM-DAP in the loaded SK-N-SH cells. Carbachol stimulated the time-dependent CaM-DAP labeling of calcineurin and adducin. This study demonstrates the novel incorporation of a photoreactive CaM derivative into living cells, as well as muscarinic receptor-activated CaM-DAP interaction with several cellular CaMBP. We postulate that carbachol-stimulated CaM translocation in SK-N-SH cells may affect the activity of CaM-dependent enzymes and may alter aspects of cytoskeletal function.
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PMID:Carbachol stimulates binding of a photoreactive calmodulin derivative to calmodulin-binding proteins in intact SK-N-SH human neuroblastoma cells. 155 1

A neuronal Ca2+/calmodulin-dependent protein kinase (CaM kinase-Gr) undergoes autophosphorylation on a serine residue(s) in response to Ca2+ and calmodulin. Phosphate incorporation leads to the formation of a Ca(2+)-independent (autonomous) activity state, as well as potentiation of the Ca2+/calmodulin-dependent response. The autonomous enzyme activity of the phosphorylated enzyme approximately equals the Ca2+/calmodulin-stimulated activity of the unphosphorylated enzyme, but displays diminished affinity toward ATP and the synthetic substrate, syntide-2. The Km(app) for ATP and syntide-2 increased 4.3- and 1.7-fold, respectively. Further activation of the autonomous enzyme by Ca2+/calmodulin yields a marked increase in the affinity for ATP and peptide substrate such that the Km(app) for ATP and syntide-2 decreased by 14- and 8-fold, respectively. Both autophosphorylation and the addition of Ca2+/calmodulin are required to produce the maximum level of enzyme activation and to increase substrate affinity. Unlike Ca2+/calmodulin-dependent protein kinase type II that is dephosphorylated by the Mg(2+)-independent phosphoprotein phosphatases 1 and 2A, CaM kinase-Gr is dephosphorylated by a Mg(2+)-dependent phosphoprotein phosphatase that may be related to the type 2C enzyme. Dephosphorylation of CaM kinase-Gr reverses the effects of autophosphorylation on enzyme activity. A comparison between the autophosphorylation and dephosphorylation reactions of CaM kinase-Gr and Ca2+/calmodulin-dependent protein kinase type II provides useful insights into the operation of Ca(2+)-sensitive molecular switches.
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PMID:A brain-specific Ca2+/calmodulin-dependent protein kinase (CaM kinase-Gr) is regulated by autophosphorylation. Relevance to neuronal Ca2+ signaling. 164 31

Calmodulin-dependent phosphodiesterase was purified to apparent homogeneity from the total calmodulin-binding fraction of bovine heart in a single step by immunoaffinity chromatography. The isolated enzyme had significantly higher affinity for calmodulin than the bovine brain 60-kDa phosphodiesterase isozyme. The cAMP-dependent protein kinase was found to catalyze the phosphorylation of the purified cardiac calmodulin-dependent phosphodiesterase with the incorporation of 1 mol of phosphate/mol of subunit. The phosphodiesterase phosphorylation rate was increased severalfold by histidine without affecting phosphate incorporation into the enzyme. Phosphorylation of phosphodiesterase lowered its affinity for calmodulin and Ca2+. At constant saturating concentrations of calmodulin (650 nM), the phosphorylated calmodulin-dependent phosphodiesterase required a higher concentration of Ca2+ (20 microM) than the nonphosphorylated phosphodiesterase (0.8 microM) for 50% activity. Phosphorylation could be reversed by the calmodulin-dependent phosphatase (calcineurin), and dephosphorylation was accompanied by an increase in the affinity of phosphodiesterase for calmodulin.
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PMID:Phosphorylation and characterization of bovine heart calmodulin-dependent phosphodiesterase. 164 4

Saccharomyces cerevisiae genomic clones that encode calmodulin-binding proteins were isolated by screening a lambda gt11 expression library using 125I-labeled calmodulin as probe. Among the cloned yeast genes, we found two closely related genes (CMP1 and CMP2) that encode proteins homologous to the catalytic subunit of phosphoprotein phosphatase. The presumed CMP1 protein (62,999 Da) and CMP2 protein (68,496 Da) contain a 23 amino acid sequence very similar to those identified as calmodulin-binding sites in many calmodulin-regulated proteins. The yeast genes encode proteins especially homologous to the catalytic subunit of mammalian phosphoprotein phosphatase type 2B (calcineurin). The products of the CMP1 and CMP2 genes were identified by immunoblot analysis of cell extracts as proteins of 62,000 and 64,000 Da, respectively. Gene disruption experiments demonstrated that elimination of either or both of these genes had no effect on cell viability, indicating that these genes are not essential for normal cell growth.
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PMID:The Saccharomyces cerevisiae genes (CMP1 and CMP2) encoding calmodulin-binding proteins homologous to the catalytic subunit of mammalian protein phosphatase 2B. 164 87

Characteristics of the autophosphorylation of Ca2+/calmodulin-dependent protein kinase II (CaM kinase II) from the cytosol and in the postsynaptic densities (PSD) of rat brain were investigated. Several proteins were surveyed for their abilities to serve as a substrate for non-autophosphorylated and autophosphorylated CaM kinase IIs from the cytosol and PSD. The tested substrates were separated into two groups. Autophosphorylation of the kinase slightly decreased or did not change its activities towards substrates of the first group: myosin light chain of chicken gizzard, synapsin I, tau factor and microtubule-associated protein 2. In contrast, autophosphorylation of the enzyme increased its activities towards substrates of the second group: syntide-2, histone H1, calcineurin and myelin basic protein. The Ca2+/calmodulin-independent kinase activity increased by autophosphorylation with any of substrates tested. Similar results were obtained with the cytosolic and PSD CaM kinase II. Trifluoperazine and mastoparan, calmodulin binding antagonists, inhibited the activity of the non-autophosphorylated CaM kinase II, but had no effect or only a slight inhibitory effect on the activity of the autophosphorylated CaM kinase II, indicating that the autophosphorylated kinase has no requirement for calmodulin for Ca(2+)-dependent activity and/or a higher affinity for calmodulin The results suggest that the autophosphorylation of CaM kinase II is a subtle mechanism for regulating the interaction between the enzyme and substrate.
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PMID:Autophosphorylation of Ca2+/calmodulin-dependent protein kinase II: effects on interaction between enzyme and substrate. 164 40

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