EC:3.1.4.1 - FACTA Search

Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: EC:3.1.4.1 (phosphodiesterase)
18,767 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Guanosine 3':5'-monophosphate (cyclic GMP)-dependent protein kinase was purified from the guinea pig fetal lung, a tissue shown to be the richest in this enzyme in all mammalian sources examined, and its general properties studied. The enzyme was purified 150-fold from crude extract by steps of pH 5.4 isoelectric precipitation, Sephadex G-200 filtration, hydroxylapatite treatment and DEAE-cellulose chromatography. The purified enzyme, free from contamination with adenosine 3':5'-monophosphate (cyclic AMP)-dependent protein kinase, had a specific activity at least equivalent to 600-fold purification of the enzyme from the adult lung. The pulmonary enzyme exhibited an absolute requirement of protein kinase modulator (prepared from various mammalian tissues with an exception of skeletal muscle) for its activity. Inhibitor protein of cyclic AMP-dependent protein kinase purified from rabbit skeletal muscle could not stimulate nor inhibit the cyclic GMP target enzyme, indicating the factors from mammalian sources regulating the two classes of protein kinases may not be the same. The enzyme had Ka values of 1.3 times 10(-8) and 3.3 times 10(-8) M for 8-bromo cyclic GMP and cyclic GMP, respectively, compared to 3.0 times 10(-6) M for cyclic AMP. Cyclic GMP lowered the Km of the enzyme for ATP from 6.3 times 10(-5) M in its absence to 2.1 times 10(-5) M in its presence, accompanied by an approximate doubling of the Vmax. The molecular weight of the enzyme (assayed by its catalytic and cyclic GMP-binding abilities) was estimated to be 123,000, corresponding to a sedimendation coefficient of 7.06 S, by means of sucrose density gradient ultracentrifugation. The cyclic GMP-dependent enzyme required Mg2+ and Co2+ for its activity with optimal concentrations of about 30 and 0.7 mM, respectively. The maximal activity seen in the presence of Mg2+, however, was nearly twice as high as that seen in the presence of Co2+. Histones were generally effective substrates for the enzyme, whereas protamine, casein, phosvitin, phosphorylase kinase, and activator protein of phosphodiesterase were not. The cyclic GMP-dependent enzyme exhibited a greater affinity for histones than did the cyclic AMP-dependent enzyme in the presence of Mg2+.
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PMID:Purification and general properties of guanosine 3':5'-monophosphate-dependent protein kinase from guinea pig fetal lung. 17 61

Monoclonal antibodies against human erythrocyte membrane Ca2+-ATPase were obtained. The binding of monoclonal antibodies to the enzyme resulted in a decrease in the enzyme sensitivity to calmodulin (CaM). The effects of monoclonal antibodies on other CaM-dependent enzymes, namely, on the phosphodiesterase of cAMP, phosphorylase kinase, and Ca2+-CaM-dependent protein kinase II (PK II), were studied. It was found that all four enzymes contain a common antigenic site. However, the inhibitory effect of antibodies was observed only with respect to Ca2+-ATPase and PK II. The kinetics of the binding of monoclonal antibodies and their inhibitory action were investigated. It was shown that the antigenic site is confined to the calmodulin-binding portion of Ca2+-ATPase and PK II.
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PMID:Elucidation of conservative elements of calmodulin-dependent enzymes with the use of monoclonal antibodies. 246 54

Occupancy of one of the two phenothiazine-binding sites on calmodulin does not significantly decrease the affinity of calmodulin for its target proteins; however, it does affect the ability of calmodulin to activate some enzymes. Previously we demonstrated that a covalent adduct of calmodulin with one molecule of phenothiazine (CAPP1-calmodulin) is an antagonist for the calmodulin-dependent enzymes, cAMP phosphodiesterase and myosin kinase, and a partial agonist for calcineurin. We now show that CAPP1-calmodulin is a full agonist for glycogen synthase kinase and phosphorylase kinase. Unlike phenothiazines, CAPP1-calmodulin is specific for calmodulin-regulated proteins; it has no effect on protein kinase C. With the exception of phosphorylase kinase, occupancy of two phenothiazine-binding sites completely eliminates the ability of calmodulin to activate these proteins. Thus, the study of the interaction of CAPP1-calmodulin with calmodulin target proteins demonstrates that calmodulin interacts differently with different proteins. This is confirmed by studies of the effect of calmodulin fragments, 1-77 and 78-148, on calmodulin-regulated enzymes.
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PMID:Selective effects of CAPP1-calmodulin on its target proteins. 298 45

A comparative study on the structure of nonactivated and activated forms of phosphorylase kinase was carried out. The enzyme was activated by incubation in alkaline medium (pH 8.5), by phosphorylation with cAMP-dependent protein kinase and by limited proteolysis. The comparative analysis was based on the use of hydrophobic chromatography on phenyl-sepharose and electrophoresis in polyacrylamide gel density gradient. Activation of the enzyme was accompanied by separation of a low molecular weight component (Mr about 17 000). Using chromatography on phenyl-sepharose, this low molecular weight protein was obtained in a homogeneous state. It was found that the properties of the protein are close to those of calmodulin. The presence of calmodulin in phosphorylase kinase preparations was judged upon by the activation of the calmodulin-dependent form of phosphodiesterase. The boiled and subtilisin-treated kinase activates phosphodiesterase in the same way as does bovine brain calmodulin. The experimental results suggest that the delta-subunit is a protein inhibitor of the enzyme.
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PMID:[The role of calmodulin (delta-subunit) in the activation of phosphorylase kinase from rabbit skeletal muscles]. 301 Nov 26

An anti-calmodulin monoclonal antibody having an absolute requirement for Ca2+ has been produced from mice immunized with a mixture of calmodulin and calmodulin-binding proteins. Radioimmune assays were developed for the determination of its specificity. the epitope for this antibody resides on the COOH-terminal half of the mammalian protein. Plant calmodulin or troponin C had little reactivity. The apparent affinity of the antibody for calmodulin was increased approximately 60-fold in the presence of heart calmodulin-dependent phosphodiesterase. The presence of heart phosphodiesterase in the radioimmune assay greatly enhanced the sensitivity for calmodulin. The intrinsic calmodulin subunit of phosphorylase kinase and calmodulin which was bound to brain phosphodiesterases was also recognized with high affinity by the antibody. The antibody reacted poorly with calmodulin which was bound to heart or brain calcineurin, skeletal muscle myosin light chain kinase, or other calmodulin-binding proteins. In direct binding experiments, most of the calmodulin-binding proteins studied were unreactive with the antibody. This selectivity allowed purification of heart and two brain calmodulin-dependent cyclic nucleotide phosphodiesterase isozymes on immobilized antibody affinity columns. Phosphodiesterase activity was adsorbed directly from crude samples and specifically eluted with EGTA. Isozyme separation was accomplished using a previously described anti-heart phosphodiesterase monoclonal antibody affinity support. The brain isozymes differed not only in reactivity with the anti-phosphodiesterase antibody, but also in apparent subunit molecular weight, and relative specificity for cAMP and cGMP as substrates. The calmodulin activation constants for the brain enzymes were 10-20-fold greater than for the heart enzyme. The data suggest that the binding of ligands to Ca2+/calmodulin induce conformation changes in calmodulin which alter reactivity with the anti-calmodulin monoclonal antibody. The differential antibody reactivity toward calmodulin-enzyme complexes indicates that target proteins either induce very different conformations in calmodulin and/or interact with different geometries relative to the antibody binding site. The anti-calmodulin monoclonal antibody should be useful for the purification of other calmodulin-dependent phosphodiesterases as well as isozymes of phosphorylase kinase.
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PMID:Differential recognition of calmodulin-enzyme complexes by a conformation-specific anti-calmodulin monoclonal antibody. 302 48

1. A calmodulin-binding protein of apparent mol.wt. 19 000 has been purified from chicken gizzard. Similar proteins have been isolated from bovine uterus, rabbit skeletal muscle and rabbit liver. 2. These proteins migrated as an equimolar complex with bovine brain calmodulin on electroporesis on polyacrylamide gels in the presence of Ca2+ and 6M-urea. The complex was dissociated in the presence of EGTA. 2. The chicken gizzard calmodulin-binding protein has been shown to be identical with chicken erythrocyte histone H2B on the basis of partial amino acid sequence determination. 4. The calmodulin-binding proteins of apparent mol.wt. 22 000 isolated previously from bovine brain [Grand & Perry (1979) Biochem. J. 183, 285-295] has been shown, on the basis of partial amino-acid-sequence determination, to be identical with myelin basic protein. 5. The activation of bovine brain phosphodiesterase by calmodulin is inhibited by excess bovine uterus calmodulin-binding protein (histone H2B). 6. The phosphorylation of myelin basic protein by phosphorylase kinase is partially inhibited, whereas the phosphorylation of uterus calmodulin-binding protein (histone H2B) is unaffected by calmodulin or troponin C. 7. The subcellular distribution of myelin basic protein and calmodulin suggests that the two proteins do not exist as a complex in vivo.
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PMID:The binding of calmodulin to myelin basic protein and histone H2B. 616 7

The spleen cells of a Balb/c mouse immunized with purified bovine calmodulin-dependent cyclic nucleotide phosphodiesterase were fused with nonsecreting mouse myeloma cells (P3-X63-Ag8-653). Antibody producing hybridomas were screened by the enzyme-linked immunosorbent assay using purified phosphodiesterase as the antigen. One monoclonal cell line, CR-B1, was found to produce antibodies which showed positive enzyme-linked immunosorbent assay reactions with bovine brain calcineurin and rabbit muscle phosphorylase kinase in addition to phosphodiesterase. The antibody was purified and characterized. It was shown to immunoprecipitate the calmodulin (CaM)-dependent phosphodiesterase and phosphorylase kinase activities but not those of CaM itself, CaM-independent phosphodiesterase and the catalytic unit of cAMP-dependent protein kinase. The immunoprecipitation of phosphodiesterase could be inhibited by calcineurin and phosphorylase kinase. These results suggest that the antibody interacts at a common site on these calmodulin-dependent proteins. The antigenic determinant in phosphodiesterase does not appear to reside in the calmodulin-binding domain of the enzyme since the antibody and phosphodiesterase interaction is not inhibited by calmodulin, and the calmodulin activation of phosphodiesterase is not affected by CR-B1 antibody. It is therefore suggested that the structural similarity among the three calmodulin-dependent proteins extends beyond the calmodulin-binding domains.
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PMID:A monoclonal antibody showing cross-reactivity toward three calmodulin-dependent enzymes. 631 38

Limited proteolysis of calmodulin with trypsin in the presence of ethylene glycol bis(beta-aminoethyl ether)-N, N,N',N'-tetracetic acid (EGTA) or Ca2+ was performed according to a modification of the method of Drabikowski et al. (Drabikowski, W., Kuznicki, J., and Grabarek, Z. (1977) Biochim. Biophys. Acta 485, 124-133). The resulting peptides were purified by reverse-phase high performance liquid chromatography. Tryptic digests in EGTA yielded peptides 1-106, 1-90, and 107-148 with yields of 9, 47, and 61%, respectively. The digests performed with Ca2+ yielded peptides 1-77 and 78-148 in 35 and 45% yield. Analysis by high performance liquid chromatography indicated that the purified fragments contained less than 0.1% contamination by calmodulin, thus allowing a definitive study of the ability of these fragments to activate, or interact with, calmodulin-regulated enzymes and anti-calmodulin drugs. Each of the fragments, except 107-148, bound to a phenothiazine affinity column in a Ca2+-dependent manner. Thus, calmodulin contains two interaction sites for phenothiazines: one on the NH2-terminal half (fragment 1-77) and one on the COOH-terminal half (fragment 78-148). None of the fragments activates the protein phosphatase, calcineurin, or prevents its stimulation by calmodulin, nor does any of the fragments stimulate Ca2+-dependent cAMP phosphodiesterase. A single cleavage in the middle of the calmodulin molecule results in the rapid dissociation of the two resultant fragments and a loss of ability to activate cAMP phosphodiesterase. One fragment, 78-148, interacts with phosphodiesterase and prevents its activation by calmodulin (Ki: 1.5 +/- 0.4 X 10(-6) M). The same fragment, 78-148, can fully activate phosphorylase kinase but with a lower affinity than calmodulin (Kuznicki, J., Grabarek, Z., Brzeska, H., Drabikowski, W., and Cohen, P. (1981) FEBS Lett. 130, 141-145). Thus, peptide 78-148 behaves as a calmodulin agonist or antagonist or as neither, depending on the enzyme under study.
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PMID:Agonist and antagonist properties of calmodulin fragments. 632 72

The activation of phosphorylase kinase during limited proteolysis by subtilisin was studied. It was shown that phosphorylase kinase undergoes rapid activation and its activity remains unchanged throughout a prolonged incubation. Electrophoresis in the presence of Na-SDS revealed a rapid decomposition of the alpha-subunit and a gradual disappearance of the beta-subunit; the protein molecule was shown to be composed of the degradation products of alpha- and beta-subunits with different molecular weights and unchanged proteolysis of the gamma-subunit. The phosphorylase kinase hydrolysate was separated using chromatography on a cellulose phosphate column. The active protein fraction contains a new form of phosphorylase kinase with a low molecular weight (approximately 80 000) which is insensitive to Ca2+. The subtilisin-activated phosphorylase kinase does not affect the activity of phosphodiesterase from cyclic nucleotides.
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PMID:[Properties of phosphorylase kinase activated by subtilisin]. 701 93

The focus of this study was to identify the molecular basis for the hypersensitive response of glycogen phosphorylase activation to epinephrine stimulation in alloxan diabetic-derived cardiomyocytes. Cyclic AMP levels were found not to be significantly different between normal and diabetic-derived cells while cGMP concentrations were found consistently to be significantly lower in diabetic-derived cells than in normal cells. Treatment with cyclic GMP analogues did not affect phosphorylase activation by epinephrine in normal cardiomyocytes whereas, IBMX, a nonselective phosphodiesterase inhibitor, had a significant effect on basal and agonist-stimulated phosphorylase activity in both normal and diabetic-derived cardiomyocytes. Differences in the time course for the rate of decay of phosphorylase a from agonist-stimulated to basal levels were observed between normal and diabetic cells. After 3 h in primary culture, phosphorylase a activity returned to basal levels more quickly in normal than in diabetic-derived cells while after 24 h in culture, the time for phosphorylase a decay was not significantly different between normal and diabetic myocytes and was longer than the 3 h response. After 3 h response. After 3 h in primary culture, no significant difference in phosphorylase kinase activity was observed between normal and diabetic-derived cells exposed to epinephrine whereas, after 24 h in culture, phosphorylase kinase activity was significantly decreased in diabetic cells under basal and agonist-stimulation conditions.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Identification of the molecular basis for phosphorylase hypersensitivity in cultured diabetic cardiomyocytes. 767 33

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