EC:3.1.3.16 - FACTA Search

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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 flip-flop model is a mechanistic model proposed to describe how calmodulin activates enzymes. One prediction based upon this model is that calmodulin-activated enzymes would contain a calmodulin-like binding site which, among other attributes, would bind the peptide melittin. Five purified calmodulin-activated enzymes, namely calcineurin, myosin light chain kinase, phosphorylase b kinase, phosphodiesterase, and NAD kinase, were all found to bind biotinylated melittin and to also bind an antimelittin antibody and biotinylated calmodulins. Using gel blots of crude tissue extracts (rat brain and Arabidopsis), most proteins did not bind any of the probes and thus do not have these characteristics. However, among those which bind any of these probes, a strong correlation was found between those proteins which bind biotinylated calmodulins and those which bind melittin and antimelittin. Gel blots of phosphorylase b kinase demonstrate that the alpha, beta, and gamma subunits all bind calmodulin and melittin. A putative calmodulin-like binding site sequence was identified in eight enzymes or subunits which may play an important role in both melittin binding and calmodulin-dependent regulation of these enzymes.
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PMID:Calmodulin-binding proteins also have a calmodulin-like binding site within their structure. The flip-flop model. 184 67

A novel serine/threonine protein phosphatase is identified, and the catalytic subunit, obtained from a detergent extraction of the pellet generated by a 100,000 x g centrifugation of a whole bovine brain homogenate, is purified and characterized. The protein phosphatase, designated as PP3, has a Mr of 36,000, does not require divalent cations for activity, is stimulated rather than inhibited by inhibitor 2, is inhibited by both okadaic acid and microcystin-LR with an intermediate IC50 compared to type 1 and type 2A protein phosphatases, and preferentially dephosphorylates the beta subunit of phosphorylase kinase. Substrate specificity, immunoblotting with type-specific antisera, and the amino acid sequences of peptides derived from PP3 indicate that PP3 is not an isoform of any known serine/threonine protein phosphatase.
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PMID:Identification, purification, and characterization of a novel serine/threonine protein phosphatase from bovine brain. 184 59

Regulation of glycogenolysis in skeletal muscle is dependent on a network of interacting enzymes and effectors that determine the relative activity of the enzyme phosphorylase. That enzyme is activated by phosphorylase kinase and inactivated by protein phosphatase-1 in a cyclic process of covalent modification. We present evidence that the cyclic interconversion is subject to zero-order ultrasensitivity, and the effect is responsible for the "flash" activation of phosphorylase by Ca2+ in the presence of glycogen. The zero-order effect is observable either by varying the amounts of kinase and phosphatase or by modifying the ratio of their activities by a physiological effector, protein phosphatase inhibitor-2. The sensitivity of the system is enhanced in the presence of the phosphorylase limit dextrin of glycogen which lowers the Km of phosphorylase kinase for phosphorylase. The in vitro experimental results are examined in terms of physiological conditions in muscle, and it is shown that zero-order ultrasensitivity would be more pronounced under the highly compartmentalized conditions found in that tissue. The sensitivity of this system to effector changes is much greater than that found for allosteric enzymes. Furthermore, the sensitivity enhancement increases more rapidly than energy consumption (ATP) as the phosphorylase concentration increases. Energy effectiveness is shown to be a possible evolutionary factor in favor of the development of zero-order ultrasensitivity in compartmentalized systems.
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PMID:Muscle glycogenolysis. Regulation of the cyclic interconversion of phosphorylase a and phosphorylase b. 189 38

1. Purified native rabbit liver phosphorylase kinase becomes activated during the assay of its activity while low molecular weight forms of the same enzyme do not. 2. The activation requires ATP and magnesium ions, suggesting the phosphorylation of the enzyme by a protein kinase as the mechanism involved. 3. The activation of the enzyme can be reverted by the action of a type I protein phosphatase isolated from the same tissue. 4. The activation can also be catalyzed by the catalytic subunit of cAMP-dependent protein kinase in a process that requires a much lower ATP concentration to proceed. 5. The activation is believed to be due to an autocatalytic phosphorylation of phosphorylase kinase itself. In support of this hypothesis are the regulation of the process through calcium ions, the low levels of endogenous protein kinase detected in the purified preparation, the high ATP concentrations required in the absence of cAMP dependent protein kinase and the fact that the process cannot be blocked by an excess of the heat stable inhibitor specific for the later enzyme. 6. The low molecular weight forms of the enzyme on their side are not affected by the action of neither protein phosphatase 1 nor cyclic AMP dependent protein kinase. 7. Both activated and nonactivated phosphorylase kinase are partially dependent on calcium ions, the affinity of the former being higher than that of the latter. The low molecular forms do not require calcium ions to express their activity.
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PMID:Regulatory properties of rabbit liver phosphorylase kinase. 216 56

The prominent protein phosphatases involved in liver glycogen metabolism are the AMD (ATP, Mg-dependent, type-1) and PCS (polycation-stimulated, type-2A) phosphatases. The glycogen synthase phosphatase activity, measured from the rate of activation of liver glycogen synthase, is virtually accounted for by AMD phosphatases; the bulk of the activity belongs to the glycogen-bound protein phosphatase G and a small part is present in the cytosol. The major part of the phosphorylase phosphatase activity present in the post-mitochondrial supernatant is shared by protein phosphatase G and cytosolic enzymes, and a minor part belongs to a microsomal AMD phosphatase. In the liver cytosol, the phosphorylase phosphatase activity is about equally distributed between AMD and PCS phosphatases. Studies in vivo as well as on isolated, perfused livers have shown that glucagon (which raises the level of cyclic AMP) as well as vasopressin (which increases the cytosolic Ca2+ concentration) decrease the phosphorylase phosphatase activity in liver extract or cytosol (filtered through Sephadex G-25) by about 25% within a few minutes. These effects were not additive, and the activity of glycogen synthase phosphatase was not affected. Conversely, insulin as well as glucose increased both phosphatase activities by about 25%, and these effects were additive. Vanadate mimicked the effect of insulin on the perfused liver. All the activity changes were only observed when the assays were performed at high tissue concentration. Upon subcellular fractionation all the effects were well expressed in the cytosol, but not in the particulate fraction (glycogen and microsomes). However, quantitatively the hormonal responses were largely lost during the fractionation procedure; they could be restored by recombination of the liver cytosol from a hormone-treated rat with the particulate fraction from either a treated or an untreated animal. It appears that the effects of glucagon, insulin and glucose are mediated by cytosolic, transferable effectors of the Vmax of protein phosphatases. These effectors are eluted in the void volume of a Sephadex G-25 column. Rats of the gsd/gsd strain, which have a genetic deficiency of hepatic phosphorylase kinase, responded to an injection of insulin plus glucose with a normal increase in the cytosolic phosphorylase phosphatase activity. In contrast, they failed to respond to glucagon as well as vasopressin. A transient 80% inhibition of the phosphorylase phosphatase activity could be induced in vitro in a concentrate liver cytosol from Wistar rats upon addition of MgATP.(ABSTRACT TRUNCATED AT 400 WORDS)
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PMID:Short-term hormonal control of protein phosphatases involved in hepatic glycogen metabolism. 216 98

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

1. Glycogen synthase from rabbit skeletal muscle was phosphorylated by phosphorylase kinase to yield synthase b2. 2. Dephosphorylation and activation of synthase b2 by the catalytic subunits of protein phosphatase-1 (PP-1c) and protein phosphatase-2A (PP-2Ac) was studied. The apparent Km of PP-1c and PP-2Ac were 3.3 microM and 6.2 microM, respectively. The apparent Vmax of PP-1c was about two times larger than that of PP-2Ac. 3. Ligands with phosphate moiety (AMP, glucose-6-P at high concentration) caused an inhibition in dephosphorylation by both phosphatases. Spermine inhibited the dephosphorylation by PP-1c and stimulated the action of PP-2Ac. Therefore it can be employed to distinguish the phosphatases using synthase b2 as substrate.
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PMID:Activation/dephosphorylation of muscle glycogen synthase phosphorylated by phosphorylase kinase. 250 70

Ribosomal protein S6 is the principal phosphoprotein of the eucaryotic ribosome that becomes multiply phosphorylated on serine residues in response to a wide variety of mitogenic stimuli. In this paper the principal protein phosphatases able to dephosphorylate S6 were characterized in Xenopus laevis ovary and eggs. Two enzymes termed peak I and peak II were found to account for most S6 phosphatase activity in both oocytes and eggs. The peak I enzyme had an apparent Mr of 200,000 on gel filtration, dephosphorylated the beta subunit of phosphorylase kinase and phosphorylase a, and was inhibited by inhibitor 1 and inhibitor 2, suggesting it was similar to protein phosphatase 1. The peak II enzyme was purified over 12,000-fold and had an apparent Mr = 55,000 on glycerol gradient centrifugation. This phosphatase could dephosphorylate all sites in S6 but was unable to dephosphorylate phosphorylase a or phosphorylase kinase. However, it was inhibited by nanomolar concentrations of inhibitor 1 and inhibitor 2. These results indicate the peak II enzyme represents a new class of highly specific protein phosphatase and suggest that inhibition of dephosphorylation in cellular extracts by inhibitor 1 and inhibitor 2 is not a sufficient criterion for implicating protein phosphatase 1 in a cellular process.
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PMID:Purification and characterization of a novel protein phosphatase highly specific for ribosomal protein S6. 253 37

Ca2+-calmodulin-dependent protein phosphatase activity is found in cytoskeletons of Y-1 mouse adrenal and bovine fasciculata cells. The activity is inhibited by three inhibitors of calmodulin (trifluoperazine, W-7 and pimozide) with EC50 in the low micromolar range. Protein phosphatase activity is inhibited by vanadate, fluoride, Zn2+ and pyrophosphate, stimulated by Mn2+ and found to be tightly bound to the cytoskeleton. Substrates for endogenous phosphatase activity were defined by one- and two-dimensional polyacrylamide gels. Phosphatase activity was seen with proteins that are substrates for both cyclic AMP-dependent and cyclic AMP-independent kinase enzymes. One specific Ca2+-calmodulin-dependent phosphatase, namely calcineurin, was purified to near homogeneity from cytoskeletons of Y-1 cells. The enzyme was found to be a heterodimer (MW 61,000 and 16,000) and the smaller subunit was shown to cross-react with antibodies raised against calcineurin from bovine brain. The purified enzyme catalyzes dephosphorylation of proteins (phosphorylase kinase and casein), phosphoamino acids (tyr greater than thre greater than ser) and a synthetic substrate (p-nitrophenyl phosphate). In addition, a new application of membrane transfer was devised by which the purified enzyme was incubated with a Western blot of cytoskeleton following incubation with [32P]ATP. This method defined four specific substrates of the enzyme (MW 150,000, 55,000, 35,000 and 30,000). Anti-calcineurin revealed that only a single Ca2+-calmodulin-dependent phosphatase is found in adrenal cell cytoskeleton.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Isolation and characterisation of calcineurin from adrenal cell cytoskeleton: identification of substrates for Ca2+-calmodulin-dependent phosphatase activity. 254 40

Infection of Escherichia coli with phage lambda gt10 resulted in the appearance of a protein phosphatase with activity towards 32P-labelled casein. Activity reached a maximum near the point of cell lysis and declined thereafter. The phosphatase was stimulated 30-fold by Mn2+, while Mg2+ and Ca2+ were much less effective. Activity was unaffected by inhibitors 1 and 2, okadaic acid, calmodulin and trifluoperazine, distinguishing it from the major serine/threonine-specific protein phosphatases of eukaryotic cells. The lambda phosphatase was also capable of dephosphorylating other substrates in the presence of Mn2+, although activity towards 32P-labelled phosphorylase was 10-fold lower, and activity towards phosphorylase kinase and glycogen synthase 25 50-fold lower than with casein. No casein phosphatase activity was present in either uninfected cells, or in E. coli infected with phage lambda gt11. Since lambda gt11 lacks part of the open reading frame (orf) 221, previously shown to encode a protein with sequence similarity to protein phosphatase-1 and protein phosphatase-2A of mammalian cells [Cohen, Collins, Coulson, Berndt & da Cruz e Silva (1988) Gene 69, 131-134], the results indicate that ORF221 is the protein phosphatase detected in cells infected with lambda gt10. Comparison of the sequence of ORF221 with other mammalian protein phosphatases defines three highly conserved regions which are likely to be essential for function. The first of these is deleted in lambda gt11.
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PMID:Discovery of a protein phosphatase activity encoded in the genome of bacteriophage lambda. Probable identity with open reading frame 221. 254 89

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