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)

1. In the adipocyte, phosphorylation/dephosphorylation of regulatory proteins is a common mechanism of metabolic regulation. We have observed a very prominent phosphoprotein doublet of 61 kDa and 63 kDa in rat adipocytes that is markedly responsive to hormones. The 63 kDa band was the predominant phosphoprotein in the cell in response to 0.1 microM-isoprenaline, whereas the 61 kDa band was nearly absent. Insulin alone did not alter 32P incorporation into the doublet, but partially counteracted the effects of isoprenaline, decreasing label in the 63 kDa band by as much as 50% and resulting in the reappearance of the 61 kDa band. 2. Subcellular fractionation demonstrated that both phosphoprotein bands were fat-associated. Neither insulin nor isoprenaline altered this localization. Peptide maps (one-dimensional) of the 61/63 kDa bands demonstrated close sequence similarity. Amino acid analysis revealed the presence of phosphoserine and phosphothreonine. The latter was more prominent in the 61 kDa band. Isoprenaline caused an absolute increase in both phosphoamino acids. 3. Permeabilization of 32P-labelled isoprenaline-treated cells with digitonin initiated rapid dephosphorylation of the 63 kDa band, with reappearance of the 61 kDa band. Insulin increased the rate of dephosphorylation by 2-3-fold when present with isoprenaline before permeabilization. 4. In permeabilized adipocytes, cyclic AMP (1 microM-1 mM) increased phosphorylation of the 61/63 kDa doublet by 4-10-fold in the presence of [gamma-32P]ATP, but insulin had no effect. 5. We conclude that this prominent phosphoprotein, migrating as a 61/63 kDa doublet, is coupled to the cyclic AMP-dependent protein kinase and is associated with an insulin-stimulated phosphoprotein phosphatase activity. This fat-associated phosphoprotein, which is under counter-regulatory hormonal control, may play a role in hormone-dependent lipid metabolism.
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PMID:Counter-regulation by insulin and isoprenaline of a prominent fat-associated phosphoprotein doublet in rat adipocytes. 184 60

Isoprenaline is a beta-adrenergic agonist of clinical importance as a remedy for asthma. In airway smooth muscle its relaxant action is accompanied by hyperpolarization of the membrane and elevation of the level of intracellular cyclic AMP. Hyperpolarization and relaxation are also induced by drugs such as forskolin, theophylline and dibutyryl cAMP, indicating that cAMP-dependent phosphorylation is involved in producing the electrical response. Cyclic AMP-dependent protein kinase (protein kinase A) has been reported to activate Ca2+-dependent K+ channels in cultured aortic smooth muscle cells and snail neurons. The membrane of tracheal smooth-muscle cells is characterized by a dense distribution of Ca2+-dependent K+-channels. We have now examined the effect of isoprenaline and protein kinase A on Ca2+-dependent K+-channels in isolated smooth muscle cells of rabbit trachea, using the patch-clamp technique. Our results show that the open-state probability of Ca2+-dependent K+-channel of tracheal myocytes is reversibly increased by either extracellular application of isoprenaline or intracellar application of protein kinase A. We also show that this effect is significantly enhanced and prolonged in the presence of a potent protein phosphatase inhibitor, okadaic acid.
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PMID:Regulation of Ca2+-dependent K+-channel activity in tracheal myocytes by phosphorylation. 255 Aug 23

In some systems, such as the turkey erythrocyte, agonist-promoted phosphorylation of the beta-adrenergic receptor appears to be associated with desensitization of the adenylate cyclase system. This process can be partially mimicked by cyclic AMP analogs. Accordingly, we have investigated the phosphorylation of the pure mammalian beta-adrenergic receptor by the pure catalytic subunit of the cyclic AMP-dependent protein kinase. The beta-adrenergic receptor, purified from hamster lung to apparent homogeneity, contains a single polypeptide of Mr approximately 64,000. The receptor can be phosphorylated in vitro by the catalytic subunit of cyclic AMP-dependent protein kinase (approximately 2 mol of phosphate (on serine residues) per mol). Isoproterenol, a beta-agonist, promoted a 2-3-fold increase in the rate of receptor phosphorylation which was blocked by the beta-antagonists propranolol and alprenolol. High performance liquid chromatographic tryptic peptide mapping reveals two major phosphorylation sites. Phosphorylated receptor can be completely dephosphorylated by a high molecular weight phosphoprotein phosphatase. The rate of receptor dephosphorylation is enhanced 2-3-fold by isoproterenol and this effect is blocked by alprenolol. The functional significance of receptor phosphorylation was examined using ligand binding and reconstitution techniques. While the binding of isoproterenol and alprenolol to the receptor was unaffected by phosphorylation, the ability of the receptor to interact with the stimulatory guanine nucleotide regulatory protein, as assessed by isoproterenol-promoted GTPase activity, was decreased 24 +/- 1% (mean +/- S.E., p less than 0.001, n = 17). The quantitative extent of receptor phosphorylation and functional impairment are virtually identical to those previously observed when intact turkey erythrocytes were incubated with cyclic AMP. These data provide a direct demonstration of regulation of the function of the isolated beta-adrenergic receptor by cyclic AMP-dependent protein kinase.
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PMID:Phosphorylation of the mammalian beta-adrenergic receptor by cyclic AMP-dependent protein kinase. Regulation of the rate of receptor phosphorylation and dephosphorylation by agonist occupancy and effects on coupling of the receptor to the stimulatory guanine nucleotide regulatory protein. 298 43

An inhibitor (inhibitor-1) of phosphorylase a phosphatase has been identified in rat epididymal fat pads. This heat-stable, acid-soluble protein only exhibits phosphatase inhibitory activity when it itself is phosphorylated. Inhibitor-1 in rat adipose tissue migrates at 32,000 Da on sodium dodecyl sulfate-polyacrylamide gels, and at 64,000 Da on gel filtration. Exposure of fat pads to insulin (1 milliunit/ml) resulted in a 50% decrease in inhibitor-1 activity, compared to control (p less than 0.001). Isoproterenol (10(-6) M) caused a 25% increase in inhibitor-1 activity (p less than 0.05). Electrophoresis of heat-stable proteins prepared from hormone-treated 32P-labeled fat cells showed that insulin caused a dephosphorylation of the 32,000 Da phosphoprotein by 30% (p less than 0.01), whereas isoproterenol stimulated 32P incorporation in this protein by 35% compared to control (p less than 0.05). Thus, insulin appears to dephosphorylate and inactivate inhibitor-1, and might thereby result in an increase of protein phosphatase activity. Insulin regulation of inhibitor-1 is a mechanism which may underlie other of insulin's effects in adipose tissue, such as the activation of glycogen synthase.
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PMID:Hormonal regulation of protein dephosphorylation. Identification and hormonal regulation of protein phosphatase inhibitor-1 in rat adipose tissue. 634 43

Peroxovanadate (PVN) is an insulin-like agent that inhibits the dephosphorylation of the insulin receptor kinase. PVN inhibited the lipolytic action of 0.1 microM isoproterenol by 88%, which is a relatively specific beta 1 catecholamine agonist at this concentration, but was largely ineffective against beta 3 agonists or forskolin. To determine whether PVN-mediated desensitization of the beta 1 AR was associated with enhanced phosphorylation, we immunoprecipitated the beta 1 AR from rat adipocytes that were metabolically labeled with 32PO4. Isoproterenol enhanced the net phosphorylation of the beta 1 AR by 8 +/- 2-fold over control. PVN increased the net phosphorylation of the beta 1 AR by 5 +/- 0.5-fold, and together with isoproterenol, they enhanced the phosphorylation of the beta 1 AR by 2-fold over isoproterenol alone. Phosphoamino acid analysis of the phosphorylated receptor revealed phosphate incorporation into serine that was proportional to the radioactivity incorporated into the immunoprecipitated receptor. PVN inhibited the serine/threonine phosphatase calcineurin, suggesting that inhibition of receptor dephosphorylation may play a role in the actions of PVN. Cyanogen bromide cleavage of the phosphorylated beta 1 AR generated a phosphoprotein with a molecular mass consistent with carboxyl-terminal phosphorylation. Furthermore, the magnitude of receptor phosphorylation by isoproterenol was 3-fold larger than that due to forskolin, suggesting that beta 1 AR is a substrate for the beta AR kinase that phosphorylates carboxyl-terminal residues in the beta(2) AR. Our findings suggest that PVN may be a powerful new tool with which to study the phosphorylation of other G protein-coupled receptors.
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PMID:Enhanced desensitization and phosphorylation of the beta 1-adrenergic receptor in rat adipocytes by peroxovanadate. 864 43

Protein phosphatase inhibitor-1 (PPI-1) has been shown to be present in heart tissue and smooth muscle. Whether PPI-1 is present in cardiomyocytes is not known. The purpose of this study was to determine whether PPI-1 is present and is hormonally regulated in cardiomyocytes. A trichloroacetic acid (TCA) extract enriched in PPI-1 was isolated from guinea pig ventricular cardiomyocytes. The TCA extract inhibited the activity of type 1 protein phosphatase by 20 +/- 4% (n = 3 expts). On phosphorylation by the catalytic subunit of adenosine 3', 5'-cyclic monophosphate-dependent protein kinase, the extent of this inhibition was augmented to 4.5-fold. Dephosphorylation of the phosphorylated TCA extract by type 2 protein phosphatase reduced inhibition to 2 +/- 0.2% (n = 3 expts). To determine whether isoproterenol increases phosphorylation of PPI-1 in cardiomyocytes, the TCA extracts were prepared from cardiomyocytes treated with 1 microM isoproterenol and from untreated cardiomyocytes. The inhibitory activity of the TCA extract in untreated cardiomyocytes was 25 +/- 3% (n = 3 expts) and increased to 75 +/- 2% (n = 3 expts) in isoproterenol-treated cardiomyocytes. With the use of a rabbit skeletal muscle PPI-1 antibody, immunoblots of the TCA extract of cardiomyocytes identified a 28-kDa protein. A 28-kDa protein was also immunoprecipitated from a TCA extract isolated from isoproterenol-treated 32P-labeled cardiomyocytes. The immunoprecipitation was blocked by the addition of excess amounts of purified rabbit skeletal muscle PPI-1. Isoproterenol-treated cardiomyocytes increased the phosphorylation of the 28-kDa protein by 232 +/- 20% (n = 3 expts) compared with untreated cardiomyocytes. We conclude that 1) the 28-kDa protein is PPI-1, 2) PPI-1 is present in ventricular cardiomyocytes, and 3) PPI-1 is hormonally regulated. A decrease in type 1 protein phosphatase activity through phosphorylation of PPI-1 may be an important pathway for augmenting cardiac contractility.
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PMID:Evidence for presence and hormonal regulation of protein phosphatase inhibitor-1 in ventricular cardiomyocyte. 896 52

The sensitivity of the delayed rectifier K+ current (I(K)) to intracellular Mg2+ was investigated in guinea pig ventricular myocytes using the whole cell patch-clamp technique. An increase in free intracellular Mg2+ concentration ([Mg2+]i) led to a dose-dependent decrease in I(K) with a half-maximal effect of approximately 20 nM. Activation of I(K) was shifted toward more positive voltages on increasing [Mg2+]i, but little effect was observed on activation and deactivation kinetics. Isoproterenol increased I(K) and was partially reversible in both control and 100 nM [Mg2+]i. The antiarrhythmic drug dofetilide was used to separate I(K) into its two components, rapidly activating (I(Kr)) and slowly activating (I(Ks)). The magnitude of both components decreased to a similar extent with an increase in [Mg2+]i. As [Mg2+]i was reduced, however, the number of experiments in which the dofetilide-sensitive current I(Kr) displayed inward rectification was reduced. In contrast to results previously reported for frog myocytes, it is unlikely that Mg2+ effects on guinea pig I(K) are mediated by a protein phosphatase.
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PMID:Magnesium shifts voltage dependence of activation of delayed rectifier I(K) in guinea pig ventricular myocytes. 908 4

Since various secretory stimuli regulate not only secretion but also protein, RNA, and DNA syntheses in salivary glands, we evaluated the effect of secretory stimuli on the phosphorylation state of CREB (cAMP response element-binding protein). Isoproterenol, forskolin, and CPS-cAMP markedly stimulated the phosphorylation of CREB in parotid acinar cells, and PKA inhibitors H-8 and H-89 dose-dependently inhibited it. In contrast, carbachol (CCH) and A23187 decreased CREB phosphorylation, but CCH did not decrease it in the absence of extracellular Ca2+. Although protein phosphatase inhibitor calyculin A alone markedly increased the phosphorylation, it could not prevent CCH-induced dephosphorylation of CREB. CaM kinase IV, a putative protein kinase for CREB in response to Ca2+ elevation, was undetectable in parotid acinar cells.
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PMID:Regulation of CREB phosphorylation by cAMP and Ca2+ in parotid acinar cells. 935 75

Glycogen-binding subunits for protein phosphatase-1 (PP1) target the PP1 catalytic subunit (PP1C) to glycogen particles, where the enzymes glycogen synthase and glycogen phosphorylase are concentrated. Here we identify sites within the striated muscle glycogen-binding subunit (G(M)) that mediate direct binding to glycogen synthase. Both PP1C and glycogen synthase were coimmunoprecipitated with a full-length FLAG-tagged G(M) transiently expressed in COS7 cells or C2C12 myotubes. Deletion and mutational analysis of a glutathione S-transferase (GST) fusion of the N-terminal domain of G(M) (residues 1-240) identified two putative sites for binding to glycogen synthase, one of which is the WXNXGXNYX(I/L) motif that is conserved among the family of PP1 glycogen-binding subunits. Either deletion of this motif or Ala substitution of Asn-228 in this motif disrupted the binding of glycogen synthase. Expression of full-length FLAG-G(M) in cells increased the activity of endogenous glycogen synthase, but protein disabled in either PP1 binding or glycogen synthase binding did not produce synthase activation. The results show that efficient activation of glycogen synthase requires a scaffold function of G(M) that involves simultaneous binding of both PP1C and glycogen synthase. Isoproterenol and forskolin treatment of cells decreased glycogen synthase binding to FLAG-G(M), thereby limiting synthase activation by PP1. This response was insensitive to inhibition by H-89, therefore probably not involving cAMP-dependent protein kinase, but did require inclusion of microcystin-LR during cell lysis, implying that phosphorylation was modulating binding of glycogen synthase. Phosphorylation control of binding to a scaffold site on the G(M) subunit of PP1 offers a new mechanism for regulation of muscle glycogen synthase in response to beta-adrenergic signals.
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PMID:Glycogen synthase association with the striated muscle glycogen-targeting subunit of protein phosphatase-1. Synthase activation involves scaffolding regulated by beta-adrenergic signaling. 1085 1

Protein kinase C (PKC) and calcineurin are known to play a pivotal role in the development of cardiomyocyte growth. However, its role in Isoproterenol-induced (Iso) cardiac hypertrophy has not been characterized so far and were focus of the current study. After chronic beta-adrenergic stimulation of male Wistar rats with Iso (2mg/kg x day) for 2 and 7 days using osmotic minipumps, we determined a) cardiac PKC-activity, b) the expression of cardiac PKC isozymes (PKC-alpha, PKC-delta and PKC-epsilon) both at the protein and the mRNA-level and c) the expression of calcineurin using Western blot analysis. Iso-treatment for 2 and 7 days results in cardiac hypertrophy with an increase of the heart weight-to-body weight ratio by 36% and 27%. Iso-induced myocardial growth was associated with an enhanced total PKC-activity and a significant increased protein expression of cytosolic PKC-alpha (day 2: +38%; day 7: +43%), PKC-delta (day 2: 85%; day 7: +78%) and PKC-epsilon (day 7: +58%). The protein amount of calcineurin was not significantly altered by Iso compared with sham-operated controls. The increased expression of PKC-alpha, PKC-delta and PKC-epsilon in the cytosol was paralleled by a transcriptional upregulation of the absolute mRNA-levels of these PKC-isozymes as determined by quantitative RT-PCR.
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PMID:Regulation of protein kinase C isozyme and calcineurin expression in isoproterenol induced cardiac hypertrophy. 1516 65


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