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)

Farnesyltransferase is a heterodimer consisting of a 49 kDa alpha-subunit and a 46 kDa beta-subunit. In this report, we demonstrate that the endogenous heterodimeric farnesyltransferase protein is phosphorylated at the alpha-subunit in vivo and phosphorylation plays a role in the regulation of farnesyltransferase activity. In vivo 32P-labeling of PC-12 cells followed by immunoprecipitation with specific anti rat alpha-subunit IgG showed a labeled alpha-subunit protein band at an expected molecular mass of 49 kDa. Treatment of PC-12 cells with protein phosphatase inhibitor, Calyculin A, resulted in a decrease in FTase activity, and phophoserine/phosphothreonine-specific protein phosphatase-1 treatment of PC-12 and GM37 cell extracts resulted in 100% and 375% increase in farnesyltransferase activity, respectively, compared to untreated extracts.
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PMID:Alpha-subunit of farnesyltransferase is phosphorylated in vivo: effect of protein phosphatase-1 on enzymatic activity. 867 Feb 25

The identification of three highly conserved phosphorylation sites in the cytoplasmic domain of each of the monomeric subunits of the macrophage scavenger receptor suggests that protein phosphorylation may regulate this receptor pathway. To investigate this, mouse peritoneal macrophages were pretreated with either the protein phosphatase inhibitor okadaic acid or the protein kinase inhibitor staurosporine to modulate cellular protein phosphorylation and their effects on the metabolism of acetyl-LDL were measured. Both okadaic acid and staurosporine inhibited the degradation of acetyl-low density lipoprotein (LDL) without affecting cellular lactic dehydrogenase (LDH) levels. The inhibition by okadaic acid was due to a 70% decrease in acetyl-LDL binding whereas post-receptor processing was minimally affected. Calyculin A, another serine/threonine phosphatase inhibitor, also reduced acetyl-LDL binding, whereas lithium chloride, an inositol phosphatase inhibitor, did not. Okadaic acid did not decrease steady state receptor mRNA levels nor decrease the number of total cellular receptors, consistent with a posttranslational mechanism of action. Interestingly, protease sensitivity studies showed that the receptors were still located on the cell surface. These studies suggest that okadaic acid inhibits acetyl-LDL binding by causing the redistribution of surface receptors into a sequestered compartment or inactivating the receptors. In contrast, staurosporine produced a paradoxical increase in receptor expression (30%) but slowed post-receptor processing (2.3-fold decrease). The latter was due to an inhibition of ligand internalization (2.9-fold decrease) via a protein kinase C-independent mechanism. Macrophage pinocytosis was also slowed by staurosporine (38% decrease); however, this does not appear to account for the inhibition of scavenger receptor internalization. Direct receptor phosphorylation was also slowed by staurosporine (38% decrease); however, this does not appear to account for the inhibition of scavenger receptor internalization. Direct receptor phosphorylation was also investigated and it was established that the receptor can be phosphorylated; however, changes in receptor function did not correlate with changes in the degree of receptor phosphorylation. Together these studies demonstrate that changes in cellular protein phosphorylation affect the expression, surface transport, and internalization of the macrophage scavenger receptor and suggest that the regulated phosphorylation/dephosphorylation of cellular proteins may be an important biochemical mechanism that controls normal processing of ligands by this receptor pathway.
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PMID:Modulation of macrophage scavenger receptor transport by protein phosphorylation. 872 20

In the course of its activation by heat and other stresses, the inactive monomer of human heat shock transcription factor 1 (HSF1) is converted to a DNA-binding homotrimer and is hyperphosphorylated. At least four Ser/Thr residues in HSF1 appeared to be inducibly phosphorylated during heat shock. Ser/Thr protein kinase inhibitors inhibited, and protein phosphatase inhibitor calyculin A and phorbol ester enhanced, hsp70-CAT reporter gene expression but not heat shock element DNA binding activity in HeLa cells undergoing a moderate heat shock. Calyculin A (5-20 nM) caused hyperphosphorylation of HSF1, the extent of which was comparable to that produced by moderate to severe heat shock. Upon recovery from a 42 degrees C/30 min-heat shock, HSF1 trimers disassembled quantitatively within 2 h. Calyculin A interfered with the dissociation of HSF1 trimers. Thus, hyperphosphorylation increases the effective half-life of the HSF1 trimer, which may prolong factor activity subsequent to heat shock. Hyperphosphorylation also dramatically stimulated the transactivation function of HSF1: exposure to calyculin A of cells induced to form inactive HSF1 trimers resulted in the conversion of the inactive to active trimers. Given that deletion of certain sequences renders HSF1 constitutively active, these results suggested that the activation of HSF1 trimers by calyculin A was a consequence of hyperphosphorylation of HSF1 rather than of a downstream factor.
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PMID:Hyperphosphorylation of heat shock transcription factor 1 is correlated with transcriptional competence and slow dissociation of active factor trimers. 902 Jan 19

The trout red blood cell Na+/H+ antiporter (beta NHE) plays two interesting properties: it is the only NHE own to be activated by cyclic AMP, and the activation process is followed by a desensitisation of the transport system itself. Cloning and expression of beta NHE have provided inificant information about Na+/H+ activation, in particular that activation by cyclic AMP is directly dependent upon the presence of two protein kinase A consensus sites in the cytoplasmic tail of the antiporter. Expression of beta NHE in fibroblasts demonstrates that the protein kinase A (PKA) and protein kinase C (PKC) activation pathways are independent and do not converge a common kinase. Moreover, the hydrophilic C-terminal fragment is essential to the mediation of the various hormonal responses. NHE1 (the human ubiquitous isoform) is not activated by cyclic AMP, but a "NHE1 transmembrane domain/beta NHE cytoplasmic domain' chimera is fully activated by cyclic AMP. In red cells, activation of beta NHE is the result of phosphorylation by PKA of at least two independent sites. Desensitisation, inhibited by the phosphatase inhibitor okadaic acid, may consist of the dephosphorylation of one of these two sites. Furthermore, Calyculin A (CIA), another specific protein phosphatase inhibitor, induces in unstimulated cells a Na+/H+ exchange activity whose exchange properties are very different from those of the adrenergically stimulated antiporter. It is suggested that CIA may be able to revive "sequestered' antiporters. We propose that the molecular events underlying beta NHE desensitisation could be similar to those involved in rhodopsin desensitisation. Antibodies were generated against trout red cell arrestin in order to analyse the binding of arrestin to the activated exchanger. Recombinant trout arrestin was produced in a protease-deficient strain of Escherichia coli and its functionality tested in a reconstituted rhodopsin assay.
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PMID:Regulation of Na+/H+ antiporter in trout red blood cells. 905 Feb 44

To investigate the role of phosphatase in O2- generation, the effects of the potent phosphoprotein phosphatase inhibitors, Calyculin A and FK506, were analyzed during phagocytosis using rat peritoneal macrophages. O2- generation was continuously measured after addition of opsonized zymosan (op. ZY) or IgG-coated zymosan (IgG-ZY). The rate of O2- generation was directly proportional to the number of macrophages, up to 1-2 x 10(6) cells/ml. It was found that the rate and duration of O2- generation were markedly inhibited by Calyculin A. The addition of 100 nM of Calyculin A reduced O2- generation to about one-tenth of the control value. In contrast, FK506 did not inhibit O2- generation, suggesting that calcium calmodulin phosphatase is not involved in the activation of NADPH oxidase. This result indicates that the process of dephosphorylation might involve activation of NADPH oxidase as a control mechanism in phagocytosis by rat peritoneal macrophages. Furthermore, since Calyculin A is an inhibitor of phosphatase 1 and 2A, it is suggested that dephosphorylation may be evoked by these phosphatases.
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PMID:Effects of calyculin A and FK506 on the O2- generation of rat peritoneal macrophages. 923 3

The role of Na(+)-K(+)-2Cl- cotransport in ion and fluid transport of the corneal endothelium was examined by measuring changes in corneal hydration and uptake of 86Rb by the endothelial cell layer. Isolated, intact rabbit corneas maintain normal hydration when they are superfused at the endothelial surface with bicarbonate (HCO3-)-Ringer solutions as a result of equilibrium between active ion and fluid transport out of the stromal tissue and leak of fluid into stromal tissue from the aqueous humor. Furosemide and bumetanide did not alter this equilibrium when they were added to the superfusion medium. Uptake of 86Rb by the endothelium of the incubated cornea was increased 25% by bumetanide, but uptake in the presence of ouabain (70% less than that of controls) was not changed by bumetanide. In Na(+)-free medium, uptake of 86Rb was reduced by 58%, but it was unchanged in Cl(-)-free medium. Calyculin A, a protein phosphatase inhibitor and activator of Na(+)-K(+)-Cl- cotransport, was without effect on 86Rb uptake. Hypertonicity (345 mosmol/kg) increased uptake slightly, whereas hypotonicity (226 mosmol/kg) caused a 33% decrease. Neither of these changes was significantly different when bumetanide was present in the media. It is concluded that Na(+)-K(+)-2Cl- cotransporter activity is not exhibited by the in situ corneal endothelium and does not play a role in the ion and fluid transport of this cell layer. Its presence in cultured endothelial cells may reflect the reported importance of this protein in growth, proliferation, and differentiation.
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PMID:Fluid and ion transport in corneal endothelium: insensitivity to modulators of Na(+)-K(+)-2Cl- cotransport. 937 32

We report here on a novel procedure for measuring glycogenolysis in rat adipocytes. In this procedure, cells are incubated for 30 min at 37 degrees C with insulin or vanadate, and with [U-14C]glucose to label the glycogen pool with radioactive glucose. The cells are washed and preincubated for an additional 1 h, before being assayed. The extent of glycogenolysis is determined by the decrease in radioactivity in precipitated glycogen, which was quite substantial under experimental conditions facilitating glycogenolysis. From the assay, we determined the following. (a) Glycogenolysis is activated in rat adipocytes in response to lipolytic hormones (i.e. catecholamines and adrenocorticotropic hormone). (b) Other agents and conditions elevating intracellular adenosine 3',5'-monophosphate levels (i.e. cholera toxin, dibutyryladenosine 3',5'-monophosphate, and isobutylmethylxanthine) also activate glycogenolysis. (c) Glycogenolysis (as opposed to lipolysis) is activated at concentrations of adrenocorticotropic hormone or isoproterenol 7-11-fold lower and at adenosine 3',5'-monophosphate concentrations 7-fold lower. (d) Calyculin A, a specific inhibitor of protein phosphatase 1, activates glycogenolysis as well. Calyculin A also activates lipolysis at an equimolar potency. (e) Insulin does not antagonize glycogenolysis in rat adipocytes. In conclusion, the assay allowed us to compare glycogenolysis to lipolysis within the same cell, and to find that the sensitivity to hormones and adenosine 3',5'-monophosphate was about 1 order of magnitude higher for glycogenolysis than for lipolysis. A more striking finding was the inability of insulin to antagonize glycogenolysis in the rat adipose cell, an effect which occurs readily in liver and muscle cells via protein phosphatase 1-activating machinery. This rules out a role for adipose protein phosphatase 1 activation in the mechanism by which insulin antagonizes lipolysis and supports the contention that the insulin effect in lowering adenosine 3',5'-monophosphate levels is the central mechanism by which insulin antagonizes lipolysis.
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PMID:A novel assay for evaluating glycogenolysis in rat adipocytes and the inability of insulin to antagonize glycogenolysis in this cell type. 940 54

Calcium-tolerant rabbit cardiomyocytes were isolated using retrograde aortic perfusion with a nominally calcium-free, collagenase buffer. In vitro ischemic preconditioning was induced by a 10-min episode of ischemic pelleting, followed by a 15-min post-incubation and a prolonged period of ischemic pelleting. Injury was assessed by determination of cell contracture and trypan blue permeability following hypotonic swelling and correlated with metabolic assays of lactate and adenine nucleotides. The protein phosphatase PP1/2A inhibitor calyculin A and PP2A-selective fostriecin protected isolated rabbit cardiomyocytes from lethal injury after a 10-min pre-incubation and when added late into ischemic pellets after a delay of 75 min. At the time of late drug addition, cells were severely ATP-depleted and in rigor contracture. Protection with Calyculin A from 1 nM to 1 microM was dose-related. Cells pre-incubated with 10 nM to 10 microM fostriecin 10 min prior to ischemic pelleting were protected with an EC50 approximating 71 nM, implying protection at a PP2A-selective dose. The selective protein kinase C inhibitor, calphostin C, blocked ischemic preconditioning protection but not protection from 1 microM calyculin A. Protection of severely ischemic cardiomyocytes following protein phosphatase inhibition appears not to require PKC activity or ATP conservation. Pre-incubation of cells with calyculin A induced high levels of phosphorylation in p38 mitogen activated protein kinase (MAPK), as compared to the ischemia-induced phosphorylation observed in the untreated group only at 30 min of ischemia, providing evidence of protein phosphatase activity in cardiomyocytes. Pharmacological protection in late ischemia has been demonstrated, but the mechanism of protection is undetermined.
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PMID:Protein phosphatase inhibitors calyculin A and fostriecin protect rabbit cardiomyocytes in late ischemia. 950 Aug 65

We have recently shown that several putative selective inhibitors of Ca2+-calmodulin-dependent myosin light chain kinase (MLCK), such as ML-9 [1-(5-chloronaphthalene-1-sulfonyl)-1H-hexahydro-1,4-diazepine], reversibly stimulate renin secretion [C. S. Park, S.-H. Chang, H. S. Lee, S.-H. Kim, J. W. Chang, and C. D. Hong. Am. J. Physiol. 271 (Cell Physiol. 40): C242-C247, 1996]. We hypothesized that Ca2+ inhibits renin secretion, via phosphorylation of 20-kDa myosin light chain (MLC20), by activating MLCK. In the present studies, we have investigated the types of protein phosphatase (PP) involved in the control of renin secretion through inhibition of MLC dephosphorylation using inhibitors of various types of serine/threonine-specific protein phosphatases. Cyclosporin A, a putative inhibitor of PP type 2 (calcineurin), was without effect. Calyculin A and okadaic acid, putative selective inhibitors of both PP type 1 (PP1) and type 2A (PP2A), significantly inhibited renin secretion under control conditions. Calyculin A had inhibitory effects at least 10-fold more potent than okadaic acid, suggesting that PP1, rather than PP2A, is involved in the control of renin secretion. Furthermore, calyculin A blocked the reversal of renin secretion preinhibited by raised intracellular Ca2+ concentrations in a concentration-dependent manner. Calyculin A (10(-6) M) significantly inhibited renin secretion stimulated by lowering intracellular Ca2+ concentrations and blocked the stimulatory effect of ML-9 on renin secretion. Taking all of these results into consideration, we hypothesize that dephosphorylation of MLC20 by Ca2+-independent PP1 stimulates renin secretion, whereas phosphorylation of MLC20 by Ca2+-calmodulin-dependent MLCK inhibits it. This hypothesized regulatory model of renin secretion predicts that the rate of renin secretion at a given time is determined by the ratio of phosphorylated to dephosphorylated MLC20, which is, in turn, determined by the dynamic balance between activity of MLCK and MLC phosphatase.
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PMID:Inhibitory effect of calyculin A, a Ser/Thr protein phosphatase type I inhibitor, on renin secretion. 981 25

We investigated the effects of signaling molecule inhibitors on the expression and function of beta1 integrins in Jurkat cells. Jurkat cells expressed alpha4beta1 and alpha5beta1, with significant levels of constitutively activated beta1 integrins as assessed by labeling with mAb 15/7 that distinguishes between activation states. Adhesion to fibronectin (Fn) was mediated equally through alpha4 and alpha5 subunits, and was potentiated by the beta1 integrin activating mAb 8A2. Fn adhesion was decreased by okadaic acid through effects on both alpha4beta1, and alpha5beta1. Tyrphostin A23 also decreased adhesion but was less potent. Neither inhibitor had any effect on the surface expression of total or activated beta1 integrins. The effect of tyrphostin was completely reversed by 8A2; the effect of okadaic acid was only partially reversed. Using Calyculin A, we determined that Jurkat adhesion to Fn was regulated via protein phosphatase 1, independent of the levels of integrins or integrin activation epitopes. Activation of Jurkat cells with a CD3-stimulating mAb enhanced adhesion to Fn and was partially blocked by okadaic acid. These data demonstrate different regulatory pathways for constitutive versus activation-dependent adhesion via beta1 integrins, and implicate both tyrosine kinases and serine-threonine phosphatases in integrin function.
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PMID:Beta 1 integrin-dependent binding of Jurkat cells to fibronectin is regulated by a serine-threonine phosphatase. 985 Jan 57


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