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)

In previous studies we have shown that the activation of bovine heart cyclic nucleotide phosphodiesterase by purified protein activator is completely dependent on the presence of Ca2+ and that the protein activator Ca2+ complex is probably the true activator for the enzyme (Teo, T.S. and Wang, J.H. (1973) J. Biol. Chem. 248, 5930-5955). More recent studies have led us to believe that the mechanism of the Ca2+ activation of phosphodiesterase resembles that of the Ca2+ activation of muscle contraction and that the protein activator may play a role similar to troponin. In the present study we show that the protein activator resembles rabbit muscle troponin C in amino acid composition, molecular weight, isoelectric point, and ultraviolet absorption spectrum. Preliminary structural studies also indicate that these two proteins may have evolved from a common ancestral protein through gene duplication. This argument is strengthened by the finding that the tryptic peptide map of the bovine heart protein activator is indistinguishable from that of the bovine brain phosphodiesterase activator protein for which preliminary sequence information also suggests homology to troponin C (Watterson, D.M., Harrelson, W.G., Jr., Keller, P.M., Sharief, F., and Vanaman, T.C. (1976) J. Biol. Chem. 251, 4501-4513).
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PMID:Comparison of calcium-binding proteins. Bovine heart and brain protein activators of cyclic nucleotide phosphodiesterase and rabbit skeletal muscle troponin C. 18 74

The Ca2+-dependent regulation of smooth muscle actomyosin involves a myosin light chain kinase (ATP: myosin light chain phosphotransferase). It has been shown (Dabrowska, R., Aromatorio, D., Sherry, J.M.F., and Hartshorne, D.J. 1977, Biochem. Biophys. Res. Commun. 78, 1263) that the kinase is composed of two proteins of approximate molecular weights 105 000 and 17 000. In this communication it is demonstrated that the 17 000 component is the modulator protein. This conclusion is based on: (1) the identical behavior of the 17 000 kinase component and modulator protein in assays of actomyosin Mg2+-ATPase activity, phosphorylation of myosin, and phosphodiesterase activity, and, (2) the similarity of the 17 000 kinase component and the modulator protein with respect to amino acid composition, absorption spectrum, and electrophoresis in urea-polyacrylamide gels. It is shown also that the modulator protein from smooth muscle and troponin C are distinct proteins.
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PMID:Modulator protein as a component of the myosin light chain kinase from chicken gizzard. 20

Methionine residues have been implicated in the activation of cyclic nucleotide phosphodiesterase by the Ca2+-dependent protein modulator [Walsh, M., & Stevens, F.C. (1977) Biochemistry 16,2742-2749]. Treatment of the modulator with N-chlorosuccinimide in the presence of Ca2+ resulted in selective oxidation of methionine residues at positions 71,72, 76, and, possibly, 109 in the modulator sequence. These residues lie on the surface of the molecule exposed to solvent. This modification has several effects on the modulator protein: (1) the Ca2+-binding properties of the oxidized modulator are changed with apparent loss of high-affinity binding sites, (2) the oxidized protein no longer interacts with phosphodiesterase, and (3) troponin C like activities, viz., Ca2+-dependent change in mobility on urea-polyacrylamide gel electrophoresis and formation of a urea-stable complex with troponin I, are lost upon oxidation of the modulator. The phosphodiesterase binding domain of the modulator protein appears to be located between the second and third Ca2+-binding loops, a region of the molecule known from previous partial proteolysis studies [Walsh, M., Stevens, F.C., Kuznicki, J., & Drabikowski, W.(1977), J. Biol. Chem. 252, 7440-7443] to be exposed in the presence of Ca2+.
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PMID:Chemical modification studies on the Ca2+-dependent protein modulator: the role of methionine residues in the activation of cyclic nucleotide phosphodiesterase. 21 97

The calmodulin contents of rabbit brain, lung, kidney and liver, of bovine aorta and uterus, and of chicken gizzard have been determined. 2. The calmodulin in all of these tissues has been shown to be present in the form of very stable complexes with several other proteins. 3. A calmodulin-binding protein of mol.wt. 22 000 has been purified in high yield from bovine brain. It has been shown to interact with calmodulin and rabbit skeletal-muscle troponin C in a Ca2+-dependent manner. 4. The 22 000-mol.wt. protein inhibits the activation of bovine brain phosphodiesterase by calmodulin, but has very little affect on the activation of myosin light-chain kinase. 5. Calmodulin-binding proteins of mol.wts. 140000, 77000 and 61000 have also been partially purified from rabbit brain by affinity chromatography and have been shown to interact in a Ca2+-dependent manner with calmodulin. 6. The apparent molecular weights of the calmodulin-calmodulin-binding protein complexes, determined by gel filtration in the presence of 6M-urea, have been shown to be similar for most of the mammalian tissues examined. 7. By using 125I-labelled calmodulin, similar complexes have been demonstrated in rabbit skeletal muscle, although they are present at much lower concentrations.
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PMID:Calmodulin-binding proteins from brain and other tissues. 53 97

The action of two antiarrhytmic drugs, moracizine (MOR, CAS 31883-05-3) and ethacizine (ETHA, CAS 33414-33-4) on receptors of potential-operated CA-channels has been investigated. ETHA binding to verapamil receptors was more effective than that of MOR (IC50 = 0.53 +/- 0.08 mumol/l, respectively). The Hill coefficient for ETHA binding was similar to that of verapamil (0.64 +/- 0.09 and 0.60 +/- 0.10, respectively). Interaction of ETHA and MOR with dihydropyridine receptors in concentrations up to 10 mumol/l was similar that of verapamil, however, MOR was less potent. MOR and ETHA did not interact with calmodulin and troponin C at concentrations up to 100 mumol/l. The influence of MOR and ETHA on enzymes dependent on Ca-binding proteins (phosphodiesterase and actomyosin ATPase) was not observed up to 100 mumol/l. Comparison of clinical and electrophysiological data with these results allows the conclusion that ETHA exerts Ca-blocking effects by the interaction with verapamil receptors on potential-operated Ca-channels.
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PMID:Effect of moracizine and ethacizine on receptors of potential-operated calcium channels and calcium-binding proteins. 132 68

A monoclonal antibody (IM7) toward scallop testis calmodulin and another one (PBE2) toward wheat germ calmodulin were produced. Ca2+ was required for IM7 to react with scallop calmodulin. IM7 reacted with the C-terminal region (Asp78-Lys148) of the calmodulin. As observed on competitive ELISA, IM7 reacted with chicken calmodulin, but not with Euglena gracilis or wheat calmodulin, troponin C, myosin light chains, or parvalbumin. It is assumed that the cluster of Thr143, Thr146, and Ser147 in the C-terminal region acts as the antigenic site. IM7 (and Fab of IM7) inhibited the activities of myosin light chain kinase and cAMP-phosphodiesterase. PBE2 reacted with wheat germ calmodulin irrespective of the presence or absence of Ca2+, the antigenic site being in the N-terminal region (Ala1-Met37). It reacted with wheat and spinach calmodulins, but not with scallop, chicken, or Euglena calmodulin, troponin C, myosin light chains, or parvalbumin. PBE2 had no effect on the activities of myosin light chain kinase and cAMP-phosphodiesterase.
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PMID:Monoclonal antibodies toward scallop (Patinopecten yessoensis) testis and wheat germ calmodulins. 171 41

The effects of Ca2+ antagonists (nicardipine, felodipine, nitrenedipine, isradipine, niphedipine, darodipine and riodipine) and Ca2+ agonists (BAY K8644 and CGP 28392), 1.4-dihydropyridine derivatives (1.2-DHP), on the calmodulin (CM)-dependent activation of cyclic nuxleotide phosphodiesterase (PDE) were studied. Both the blockers and activators of slow potential-dependent Ca2+ channels induced a un-competitive inhibition of the CM-dependent PDE activity. 1.4-DHP was found to replace the fluorescent probe, diS-C3-(5), from the Ca2(+)-dependent calmodulin-dye complex (K0.5 = 4-60 microM) but at concentrations below 100 microM had no effect on the Ca2(+)-dependent troponin C-dye complex. Darodipine (100 microM) did not interact with the proteins. The 1.4-DHP interaction with CM did not interfere with PDE activation. It is concluded that 1.4-DHP may affect Ca2+ dependent processes not only at the levels of activation or blocking of Ca2+ channels, but also through regulation of Ca2(+)-CM dependent enzymes.
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PMID:[Interaction of calcium agonists and antagonists with Ca-binding proteins and their effect on cyclic nucleotide phosphodiesterase]. 216 22

In this study, ligands from various chemical classes were investigated with respect to their relative affinities to calmodulin (CaM) and troponin C (TnC), using the fluorescent dye 3,3'-dipropylthiocarbocyanine iodide (diS-C3-5'). In parallel, functional tests were carried out determining the effects of the ligands on the CaM activated cyclic nucleotide phosphodiesterase (PDE) activity and the TnC mediated Ca-sensitivity of skinned myocardial fibres and cardiac myofibrils. The following results were obtained: 1) As a rule, most of the ligands tested had higher affinities to CaM than to TnC. 2) Even within one and the same pharmacological class (e.g. phenothiazines) the relative affinities for CaM and TnC varied considerably, trifluoperazine (TFP) or levomepromazine (LMP) showing low or no CaM specificity, methophenazine (MP) on the other hand being highly selective for CaM by a factor of more than 200. 3) In all cases tested, the functional tests were in good quantitative agreement with the binding data, showing inhibition of CaM stimulated PDE activity and Ca-sensitizing effects in concentrations corresponding well with the respective drug affinities to CaM and TnC, respectively. 4) It is concluded that a) interaction of ligands with TnC can lead to Ca-sensitization of the cardiac contractile system and a positive inotropic effect without a concomitant elevation of the intracellular level of activator Ca. This may result in a novel cardiotonic principle avoiding the common side effects of 'classical' positive inotropic agents due to Ca-overload. b) drug selectivity for TnC or CaM appears chemically achievable.
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PMID:Calmodulin and troponin C as targets for drug action. 244 86

The interaction of several phenothiazines, benzodiazepines, butyrophenones, polycyclic neuroleptics and tricyclic antidepressants with calmodulin and troponin C was investigated using the fluorescent dye 3,3'-dipropylthiocarbocyanine iodide. In the presence of Ca2+, trifluoperazine (2-trifluoromethyl-10-[3-(1-methylpiperazinyl-4)propyl]-phenothiaz ine dihydrochloride, TFP), which is commonly used as a selective calmodulin inhibitor, half maximally increased the fluorescence of the complex formed of the fluorescent dye with calmodulin at a concentration of 4 mumol/l, and with troponin C at 24 mumol/l. TFP completely inhibited the calmodulin dependent stimulation of cyclic nucleotide phosphodiesterase with a Ki of 4 mumol/l and decreased the maximum Ca2+ dependent troponin C mediated activation of actomyosin ATPase by 35% at a concentration of 100 mumol/l. Metofenazate (3,4,5-trimethoxybenzoate-2-chlor-10-(3-[(beta-oxyethyl) piperazinyl-4]-propyl)phenothiazine diethanesulfonate, methophenazine, MP) produced half maximal fluorescence enhancement of the calmodulin dye complex at a concentration of 6 mumol/l and did not influence the fluorescence of the troponin C dye complex at concentrations of up to 1000 mumol/l. MP also completely inhibited the calmodulin dependent stimulation of phosphodiesterase with a Ki of 7 mumol/l but it had not effect on maximum Ca2+ stimulation of actomyosin ATPase. MP increased the Ca2+ sensitivity of skinned cardiac muscle with an about 10fold lower potency than TFP. In view of these results, we propose MP as a useful tool for distinction between processes mediated by either calmodulin or troponin C.
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PMID:Metofenazate as a more selective calmodulin inhibitor than trifluoperazine. 244 25

Addition of bovine brain calmodulin and S-100 inhibited Tetrahymena calmodulin-induced stimulation of guanylate cyclase, but they did not affect enzymatic activity in the presence of calcium alone. Troponin C shows little effect on the cyclase activity regardless of the presence or absence of Tetrahymena calmodulin. The inhibitory effects of brain calmodulin and S-100 were overcome by the addition of Tetrahymena calmodulin, but not by calcium. Both calmodulins from Tetrahymena and bovine brain elicited stimulation of heart phosphodiesterase, while troponin C and S-100 did not affect the phosphodiesterase activity in the presence and absence of Tetrahymena calmodulin.
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PMID:Interaction of calcium-binding proteins with calmodulin-dependent guanylate cyclase in Tetrahymena plasma membrane. 286 Sep 95

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