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)

Protein phosphorylation has been recognized as a major mechanism by which cellular functions are controlled by neurotransmitters and hormones. In this review, applications of molecular biological techniques to the analyses of regulatory mechanisms of protein phosphorylation by four major second messengers, cAMP, cGMP, diacylglycerol, and Ca2+, are described. 1) Complementary DNA of the regulatory subunit of the cAMP-dependent protein kinase was cloned and expressed in E. coli. Point mutations were introduced in order to analyze functional domains of the subunit. 2) The soluble isoform of guanylate cyclase was purified, and a cDNA of its 70-KD subunit was cloned. Cyclic GMP binding to purified cGMP-dependent protein kinase was characterized using a rapid filtration assay. 3) Primary structure of the catalytic subunit of calmodulin-dependent protein phosphatase (calcineurin A) was determined and the presence of the second isoform of the enzyme was shown by the cDNA cloning technique. 4) The regulatory domain of the protein kinase C was expressed in E. coli. Analysis using site-directed mutagenesis revealed that a "zinc finger"-like structure is responsible for the binding of phorbol esters. In these studies, the molecular biological approach has proven to be useful for clarifying the molecular mechanisms of cellular signal transduction related to second messengers and protein phosphorylation.
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PMID:[Second messengers and protein phosphorylation in cellular signal transduction]. 222 19

The phosphorylation and dephosphorylation of the dihydropyridine-sensitive Ca2+ channel was studied in transverse-tubule membranes isolated from rabbit skeletal muscle. Exposure of these membranes to either the cAMP-dependent protein kinase or a Ca2+/calmodulin-dependent protein kinase resulted in a rapid phosphorylation of a protein with properties similar to the major component of the skeletal muscle Ca2+ channel. The molecular mass of the phosphoprotein was 140 or 160 kDa, depending on the electrophoretic conditions. The stoichiometry of the phosphorylation was calculated to be 0.4-1.0 mol of phosphate per mol of protein. Neither the rate nor the extent of phosphorylation was affected by dihydropyridines. Limited proteolytic digestion of the protein that had been phosphorylated by either or both protein kinases yielded a single phosphopeptide of approximately equal to 5.4 kDa. The Ca2+-dependent phosphatase calcineurin dephosphorylated the membrane-bound Ca2+ channel that had been previously phosphorylated by either protein kinase. The results suggest that the major component of the dihydropyridine-sensitive Ca2+ channel from skeletal muscle can be effectively phosphorylated and dephosphorylated in its native state by cAMP- and Ca2+-dependent processes.
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PMID:Phosphorylation and dephosphorylation of dihydropyridine-sensitive voltage-dependent Ca2+ channel in skeletal muscle membranes by cAMP- and Ca2+-dependent processes. 242 10

Isolated neurons of Helix aspersa were dialyzed and voltage clamped under conditions that isolate the Ca current. The rapid time-dependent run-down, or washout, of Ca current could be slowed by addition of 1 mM EGTA to the dialysis solution. A more effective means of slowing washout was the use of agents that promote protein phosphorylation, such as cAMP, Mg-ATP and the catalytic subunit (CS) of cAMP-dependent protein kinase, along with leupeptin, a tripeptide inhibitor of proteases. In the presence of these agents, no internal EGTA was required to prevent Ca current washout. Thus, during dialysis with 100 microM leupeptin, 7 mM Mg-ATP and 20 micrograms/ml CS, the Ca current remained stable for up to several hours. The rate of Ca-dependent inactivation of the current that occurs during a depolarizing step showed only a small decline during prolonged dialysis. Under these conditions, introduction of 10 microM calmodulin plus 40 micrograms/ml calcineurin, a Ca-calmodulin-dependent phosphatase, caused a significant increase in the rate of Ca current inactivation during a depolarizing step. This increase in rate of inactivation, as well as the original inactivation, was eliminated by introduction of EGTA or replacement of external Ca with Ba, results that are consistent with the ion dependency for activation of calcineurin. When internal ATP was replaced with ATP-gamma-S, a hydrolysis-resistant analogue, the rate of Ca current inactivation slowed, providing further evidence that inactivation involves a dephosphorylation.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Enzymatic regulation of calcium current in dialyzed and intact molluscan neurons. 243 95

We have studied cAMP-dependent phosphorylation of sodium channels in rat brain neurons maintained in primary culture. In back phosphorylation studies, cells were treated with drugs to increase intracellular cAMP and sodium channels were solubilized and isolated by immunoprecipitation. Surface and intracellular pools of sodium channels were isolated separately. Purified channels were then phosphorylated with [gamma-32P]ATP by the catalytic subunit of cAMP-dependent protein kinase to incorporate 32P into available cAMP-dependent phosphorylation sites. The amount of 32P incorporated in vitro is inversely proportional to the extent of endogenous phosphorylation. Incubation of cells with forskolin (0.1-100 microM), 8-Br-cAMP (0.1-10 mM), or isobutylmethylxanthine (0.01-1.0 mM) inhibited subsequent incorporation of 32P into isolated sodium channels by 70-80%, indicating that treatment of cells with these drugs had increased endogenous phosphorylation to nearly maximum levels. The phosphopeptides phosphorylated in vivo and in vitro were identical. To examine the magnitude of basal phosphorylation and the extent of stimulated phosphorylation, the amount of 32P incorporated into sodium channels from control and stimulated cells was compared to that from matched samples which had been dephosphorylated with calcineurin. Sodium channels from control cells incorporated approximately 2-fold more 32P after dephosphorylation, indicating that cAMP-dependent sites on the channel are at least 47% phosphorylated in the basal state. Sodium channels from forskolin-treated cells incorporated 7-8-fold more 32P after dephosphorylation, indicating that cAMP-dependent phosphorylation sites are 80-90% phosphorylated after stimulation. Cell surface and intracellular pools of sodium channels were phosphorylated similarly. In cells metabolically labeled with 32P, cell surface sodium channels incorporated 2.7 mol of phosphate/mol of channel. Forskolin stimulated 32P incorporation into sodium channels 1.3-fold, consistent with the results obtained by back phosphorylation. We conclude that the rat brain sodium channel is substantially phosphorylated in both the cell surface and intracellular pools in vivo in unstimulated rat brain neurons, and the extent of phosphorylation is increased to 80-90% of maximum phosphorylation by agents that elevate intracellular cAMP.
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PMID:Cyclic-AMP-dependent phosphorylation of voltage-sensitive sodium channels in primary cultures of rat brain neurons. 244 66

A protein kinase and an acidic phosphoprotein phosphatase were purified from Tetrahymena pyriformis which phosphorylate and dephosphorylate the purified ornithine decarboxylase (ODC) of this microorganism. The protein kinase and the phosphoprotein phosphatase are copurified with ODC and can be separated in three distinct peaks only by a hydrophobic column of phenyl-Sepharose. The purified kinase is not dependent on cAMP, requires Mg2+ for its catalytic activity and has a molecule mass of 45 kDa. Incubation of [32P]ODC with the purified phosphoprotein phosphatase results in a complete loss of 32P and its catalytic activity. Phosphorylation of the inactive phosphatase-treated ODC by endogenous kinase or rat liver casein kinase-2 results in 100 or 40% reactivation of the initial untreated ODC activity, respectively.
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PMID:Interconversion of Tetrahymena pyriformis ornithine decarboxylase from inactive to active form by phosphorylation. 250 Jan 53

This report concerns a study of the effect of ethanol and acetaldehyde on the regulatory enzymes of glycogen metabolism. It demonstrates an inhibition of glycogen phosphorylase kinase at pH 6.8 at a very low concentration of ethanol. There was no effect of acetaldehyde on this enzyme. Neither ethanol not acetaldehyde has been shown to have any effect on glycogen synthase, glycogen phosphorylase, protein phosphatase or independent and cAMP-dependent protein kinases. This inhibition could explain the high concentration of glycogen in the muscle tissue of chronic alcoholics that is found when ethanol is present in skeletal muscle.
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PMID:Effects of ethanol and acetaldehyde on the enzymes of glycogen metabolism. 250 71

ARPP-21 (cAMP-regulated phosphoprotein, Mr = 21,000 as determined by SDS/PAGE) is a major cytosolic substrate for cAMP-stimulated protein phosphorylation in dopamine-innervated regions of rat CNS (Walaas et al., 1983c). This acidic phosphoprotein has now been identified in bovine caudate nucleus cytosol and purified to homogeneity from this source. The purification procedure involved diethylaminoethyl-cellulose chromatography, ammonium sulfate fractionation, phenyl-Sepharose CL-4B chromatography, and fast protein liquid chromatography using Mono Q anion-exchange resin. Two isoforms of ARPP-21 (ARPP-21A and ARPP-21B) were obtained, which were present in approximately equal amounts in the starting material. ARPP-21A was purified 2610-fold with a final yield of 20% and ARPP-21B was purified 2940-fold with a final yield of 21%. The purified preparations of both isoforms were judged to be homogenous by SDS/PAGE. ARPP-21A and ARPP-21B yielded identical 2-dimensional thin-layer tryptic phosphopeptide maps, identical amino acid compositions and closely related, but distinct, reverse-phase high-pressure liquid chromatograms of tryptic digests. The amino acid composition of ARPP-21 showed a high content of glutamic acid/glutamine, and no methionine, tryptophan, tyrosine, phenylalanine, or histidine. ARPP-21 was stable to heat denaturation and to 50% (vol/vol) ethanol treatment and was partially soluble at pH 2. The Mr determined for ARPP-21 by SDS/PAGE was 21,000. The Stokes radius of ARPP-21 was 26.3 A, and the sedimentation coefficient of ARPP-21 was 1.3 S; these values yield a calculated molecular mass of 13,700 Da and a frictional ratio of 1.7, indicative of an elongated tertiary structure. ARPP-21 was an excellent substrate for cAMP-dependent protein kinase and was either not phosphorylated or only poorly phosphorylated by cGMP-dependent protein kinase, calcium/calmodulin-dependent protein kinase I, calcium/calmodulin-dependent protein kinase II, casein kinase II, or protein kinase C. The purified catalytic subunit of cAMP-dependent protein kinase catalyzed the incorporation of 1.2 mol phosphate/mol purified ARPP-21. Phosphorylation occurred exclusively on seryl residues. Phospho-ARPP-21 was dephosphorylated effectively by protein phosphatase-1 or -2A, but not by protein phosphatase-2B or -2C. Rabbit polyclonal and mouse monoclonal antibodies were prepared to purified ARPP-21. These antibodies specifically immunoprecipitated ARPP-21, which was found to be highly enriched in the caudate nucleus and putamen of monkey brain.(ABSTRACT TRUNCATED AT 400 WORDS)
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PMID:ARPP-21, a cyclic AMP-regulated phosphoprotein enriched in dopamine-innervated brain regions. I. Purification and characterization of the protein from bovine caudate nucleus. 253 84

Protein phosphatase inhibitor-1 was purified from bovine adipose tissue. The protein had an apparent molecular mass of 32 kDa by SDS/PAGE and a Stokes' radius of 3.4 nm. It was phosphorylated by cAMP-dependent protein kinase on a threonyl residue; this phosphorylation was necessary for inhibition of protein phosphatase-1. Bovine adipose tissue inhibitor-1 was compared directly with rabbit skeletal muscle inhibitor-1 and with a 32000-Mr, dopamine- and cAMP-regulated phosphoprotein from bovine brain (DARPP-32), also an inhibitor of protein phosphatase-1. By the following biochemical and immunochemical criteria, bovine adipose tissue inhibitor-1 was found to be very similar and possibly identical to DARPP-32 and was clearly distinct from skeletal muscle inhibitor-1: molecular mass by SDS/PAGE; Stokes' radii; phosphorylation on threonine residues; Staphylococcus-aureus-V8-protease-generated peptide patterns analyzed by SDS/PAGE; tryptic phosphopeptide maps analysed by two-dimensional thin-layer electrophoresis/chromatography; elution on reverse-phase HPLC; chymotryptic peptide maps as analysed by reverse-phase HPLC; amino acid composition; antibody recognition by immunoprecipitation and immunoblotting; effect of cyanogen bromide cleavage on protein phosphatase inhibitor activity. Based on these results we conclude that bovine brain and adipose tissue contain an identical phosphoprotein inhibitor of protein phosphatase-1 (DARPP-32), which is distinct from that of skeletal muscle (inhibitor-1).
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PMID:Inhibitors of protein phosphatase-1. Inhibitor-1 of bovine adipose tissue and a dopamine- and cAMP-regulated phosphoprotein of bovine brain are identical. 254

To identify the protein kinase that is responsible for catalyzing phosphorylation of actin-binding protein (ABP) in platelets, we have examined the effects of protein kinase C and cAMP-dependent protein kinase on this process. We found that purified platelet protein kinase C from platelets was unable to phosphorylate ABP in vitro. However, a crude platelet kinase preparation phosphorylated ABP in the presence of cAMP, but not in the presence of Ca2+/phosphatidylserine. Fresh platelet plasma membranes incubated with [gamma-32P]ATP phosphorylated ABP in the presence of cAMP and the process was blocked by a cAMP-dependent protein kinase inhibitor; ABP phosphorylation induced by prostaglandin E1 (PGE1) appeared to be reduced by the subsequent addition of thrombin. These results strongly suggest that in situ ABP is phosphorylated by activated cAMP-dependent protein kinase when platelet function is inhibited by PGE1. Furthermore, in the PGE1-treated platelets, ABP was proteolyzed at a slower rate than in control platelets when they were lysed with Triton in the absence of EGTA. Partially purified ABP was proteolyzed by calpain in vitro at a slower rate as well. It was demonstrated that ABP from PGE1-treated platelets recovered its sensitivity to calpain after ABP was incubated with a protein phosphatase that had been purified from platelets. We postulate that ABP is stabilized against proteolysis in response to cAMP-elevating agents and that this blocks cytoskeleton reorganization.
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PMID:In situ phosphorylation of platelet actin-binding protein by cAMP-dependent protein kinase stabilizes it against proteolysis by calpain. 254 93

The present communication reports the presence of a phosphoprotein phosphatase activity in bovine lens preparations which dephosphorylates alpha Ap, the phosphorylated form of alpha A, one of the alpha-crystallin polypeptides, in a Ca2+/calmodulin dependent manner. The activity was found in soluble preparations from epithelial cells but it could not be detected in similar preparations from fiber cells. A 60,000 Mr calmodulin binding polypeptide and a 15,000 Mr polypeptide found in the epithelial cell preparations comigrated in SDS-PAGE with the A and B subunits of bovine brain calcineurin (phosphoprotein phosphatase 2B) respectively. The 15,000 Mr was specifically recognized by an anti-bovine brain calcineurin antiserum. Bovine brain calcineurin was as effective in dephosphorylating alpha Ap as the lens preparations. Thus, it is likely that the activity present in the lens is related to this enzyme. The results indicate that the lens specific polypeptide alpha A may be subject to metabolic control through phosphorylation and dephosphorylation pathways regulated by cAMP and calcium respectively. Changes in the activities of these pathways appear to occur during differentiation of the lens epithelial cell and may be related to gene regulation during the differentiation process.
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PMID:The dephosphorylation of lens alpha-crystallin A chain. 254 98

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