Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: EC:2.7.11.1 (protein kinase)
 81,284 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

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

The effect of several opioids: methadone, etorphine, beta-endorphin and D-ala2met enkephalin on Ca++/calmodulin stimulation of enzyme activities either in pure solution (cyclic nucleotide phosphodiesterase) or in striatal membranes (protein kinases in synaptic membranes) were compared to see if a direct opioid/calmodulin interaction could eliminate the stimulation of enzyme activity as part of the mechanism by which opioids alter ion flow and neurotransmitter release. In other experiments, in which endogenous phosphorylation of proteins in striatal synaptic membranes was altered by opioid treatments, the possibility of restoring protein kinase activity to normal levels in the membrane preparation by supplementation with calmodulin at optimal Ca++ concentration was examined. Some opioids (methadone and D-ala2met enkephalin) did not inhibit calmodulin-stimulated phosphodiesterase, which suggests that they were not able to bind to calmodulin. In addition, it was not possible to restore decreases in protein kinase activity to normal levels by adding calmodulin to the assay in the presence of optimal Ca++. We conclude that a direct binding of opioids to calmodulin is not a general mechanism of opioid action, although the binding may participate in the action of some neuropeptides, including beta-endorphin.
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PMID:Is a calmodulin-opiopeptide interaction related to the mechanism of opioid action? 631 23

Cyclic AMP-sensitive protein kinase activity has been found in suspensions of purified rabbit peripheral myelin. The enzyme phosphorylated the P0, "Y", X, P1, and P2 myelin proteins. Kinase activity, which was maximal at physiological pH, 2.5 mM Mg2+, and 2 microM cAMP, was stimulated three-fold over basal levels by cyclic AMP. Addition of calcium or EGTA had no effect on the enzyme activity in the presence or absence of cyclic AMP. Cyclic GMP also did not stimulate endogenous or exogenous protein phosphorylation. Theophylline, an inhibitor of 3',5'-cyclic nucleotide phosphodiesterase activity, increased protein kinase activity in the presence of cyclic AMP. These data show that PNS myelin proteins can be phosphorylated in situ by a protein kinase system whose activity is stimulated selectively by cyclic AMP.
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PMID:Cyclic AMP-stimulated protein kinase activity in rabbit peripheral myelin. 632 73

A calmodulin-binding protein is present in extracts of the macrophage-like mouse cell line J774 and in extracts of thioglycollate-stimulated mouse peritoneal macrophages; it is deficient in variants of J774 resistant to trifluoperazine and in resident peritoneal macrophages. The calmodulin-binding protein [CaMBP (J7)0.5] was purified from J774 and resolved from endogenous cyclic nucleotide phosphodiesterase and protein kinase activities. The protein has an apparent native Mr of 125,000-150,000 and binds calmodulin in a calcium-dependent manner with a Kd of 20 nM. It inhibits the ability of calmodulin to activate phosphodiesterase. Its sedimentation constant in glycerol gradients containing calmodulin was dependent upon the relative concentrations of calmodulin and the calmodulin-binding protein.
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PMID:Characterization of a calmodulin-binding protein that is deficient in trifluoperazine-resistant variants of the macrophage-like cell line J774. 657 95

The availability of the pure inhibitor of cAMP-dependent protein kinase prompted a re-examination of the inhibitor-induced meiotic maturation of Xenopus laevis oocytes. Injection of the inhibitor (1.5 microM) triggered 100% germinal vesicle breakdown faster than progesterone and slower than the maturation-promoting factor: at 0.15 microM, the inhibitor still triggered 100% meiosis, but with a much slower kinetics. In contrast, injection of 24 microM calmodulin resulted in less than 50% GVBD, and results were variable from female to female. Combined injection of inhibitor and calmodulin failed to show any synergism, which does not favour hypotheses according to which calmodulin acts by activation of cyclic nucleotide phosphodiesterase. The net effect of the inhibitor is to decrease the concentration of the free catalytic sub-unit of cAMP-dependent protein kinase, fully dissociated in the unstimulated oocyte, as shown by the absence of effect of pretreatment with cholera toxin on the inhibitor-induced maturation. After such decrease by about 1 microM, a maturation protein, Mp-P, is dephosphorylated by phosphoprotein phosphatases. Dephospho-Mp triggers the synthesis of MPF in cycloheximide-sensitive steps. Finally, MPF triggers GVBD in steps insensitive to cycloheximide. Evidence for such a 4-step scheme--fall in cAMP levels, then in C sub-unit levels, dephosphorylation of Mp leading to the synthesis of MPF and finally MPF-triggered GVBD--is presented and discussed.
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PMID:The pure inhibitor of cAMP-dependent protein kinase initiates Xenopus laevis meiotic maturation. A 4-step scheme for meiotic maturation. 701 32

Because the calmodulin in postsynaptic densities (PSDs) activates a cyclic nucleotide phosphodiesterase, we decided to explore the possibility that the PSD also contains a calmodulin-activatable protein kinase activity. As seen by autoradiographic analysis of coomassie blue-stained SDS polyacrylamide gels, many proteins in a native PSD preparation were phosphorylated in the presence of [gamma-(32)P]ATP and Mg(2+) alone. Addition of Ca(2+) alone to the native PSD preparation had little or no effect on phosphorylation. However, upon addition of exogenous calmodulin there was a general increase in background phosphorylation with a statistically significant increase in the phosphorylation of two protein regions: 51,000 and 62,000 M(r). Similar results were also obtained in sonicated or freeze thawed native PSD preparations by addition of Ca(2+) alone without exogenous calmodulin, indicating that the calmodulin in the PSD can activate the kinase present under certain conditions. The calmodulin dependency of the reaction was further strengthened by the observed inhibition of the calmodulin-activatable phosphorylation, but not of the Mg(2+)-dependent activity, by the Ca(2+) chelator, EGTA, which also removes the calmodulin from the structure (26), and by the binding to calmodulin of the antipsychotic drug chlorpromazine in the presence of Ca(2+). In addition, when a calmodulin-deficient PSD preparation was prepared (26), sonicated, and incubated with [gamma-(32)P]ATP, Mg(2+) and Ca(2+), one could not induce a Ca(2+)-stimulation of protein kinase activity unless exogenous calmodulin was added back to the system, indicating a reconstitution of calmodulin into the PSD. We have also attempted to identify the two major phosphorylated proteins. Based on SDS polyacrylamide gel electrophoresis, it appears that the major 51,000 M(r) PSD protein is the one that is phosphorylated and not the 51,000 M(r) component of brain intermediate filaments, which is a known PSD contaminant. In addition, papain digestion of the 51,000 M(r) protein revealed multiple phosphorylation sites different from those phosphorylated by the Mg(2+)-dependent kinase(s). Finally, although the calmodulin-activatable protein kinase may phosphorylate proteins I(a) and I(b), the cyclic AMP-dependent protein kinase, which definitely does phosphorylate protein I(a) and I(b) and is present in the PSD, does not phosphorylate the 51,000 and 62,000 M(r) proteins, because specific inhibition of this kinase has no effect on the levels of the phosphorylation of these latter two proteins.
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PMID:Function of a calmodulin in postsynaptic densities. II. Presence of a calmodulin-activatable protein kinase activity. 725 61

We have been studying cAMP signaling in L6 myoblasts because of its potential role in regulating the differentiation of these cells into multinucleate myotubes. Previous studies have shown that treatment of L6 myoblasts with cAMP analogs causes an increase in cAMP phosphodiesterase activity. To assess the role of protein kinase A in this cAMP-mediated increase in cAMP phosphodiesterase activity, L6 myoblasts were transfected with a plasmid containing the cDNA for a mutant regulatory subunit of protein kinase A, which functions as a dominant negative inhibitor of this enzyme. The cDNA was under control of the metallothionein promoter in the construct. Induction of the mutant regulatory subunit with Zn2+ decreased cAMP-dependent protein kinase activity by 90%. Zn2+ treatment was also able to completely block the cAMP-mediated increase in phosphodiesterase activity, showing that this effect is mediated by protein kinase A. The activity of the cAMP-induced phosphodiesterase was inhibited by low concentrations of RO 20-1724, showing that it was a member of the type IV low Km cAMP phosphodiesterase family of enzymes. We used the polymerase chain reaction and consensus primers designed to amplify phosphodiesterase sequences to show that L6 myoblasts also contain mRNA for a type IV low Km cAMP phosphodiesterase designated PDE3.1. The levels of this mRNA were increased greatly by treatment with dibutyryl cAMP or forskolin in L6 myoblasts and also in differentiated L6 myotubes. Run-off transcription assays showed that this increase in PDE mRNA was regulated, at least in part, by an increase in the rate of transcription of the PDE3 gene. The induction of PDE3 message by cAMP was blocked when the L6 transfectants were treated with Zn2+ to induce protein kinase A inhibition. Therefore, some of the cAMP-mediated increase in phosphodiesterase activity seen in L6 myoblasts is due to a protein kinase A-mediated increase in PDE3 mRNA. This pathway may serve as a feedback mechanism to modulate the inhibitory effects of cAMP on myogenesis.
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PMID:Protein kinase A regulation of cAMP phosphodiesterase expression in rat skeletal myoblasts. 751 Jun 96

The roles of cyclic AMP and calcium in the regulation of serotonin N-acetyltransferase (NAT) activity were studied in low density monolayer cultures of chick retinal photoreceptors and neurons. Photoreceptor-enriched retinal cell cultures were prepared from embryonic day 6 retinas and cultured for 6 days. NAT activity in these cultures could be induced by treatment with cyclic AMP protagonists, 8Br-cyclic AMP, forskolin, and 3-isobutyl-1-methylxanthine (IBMX), or by treatment with depolarizing concentrations of extracellular K+. The stimulatory effect of K+, which involves Ca2+ influx through dihydropyridine-sensitive channels, was mediated at least in part by cyclic AMP, as indicated by the following observations. Depolarizing concentrations of K+ stimulated the formation of cyclic AMP, and the stimulatory effects of K+ on both cyclic AMP formation and on NAT activity were synergistically potentiated by the cyclic nucleotide phosphodiesterase inhibitor 3-isobutyl-1-methylxanthine (IBMX). MDL 12,330A, a putative adenylate cyclase inhibitor, inhibited K(+)-evoked cyclic AMP accumulation and induction of NAT activity over the identical concentration range. In contrast, MDL 12,300A failed to inhibit the induction of NAT elicited by 8Br-cyclic AMP. H-89, an inhibitor of cyclic AMP-dependent protein kinase, antagonized the induction of NAT activity by either forskolin or K+ with equal potency for both stimuli. These results suggest that cyclic AMP plays an essential role in the induction of NAT activity that occurs as a consequence of membrane depolarization. Cyclic AMP and Ca2+ may also interact at a step distal to adenylate cyclase.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Melatonin biosynthesis in photoreceptor-enriched chick retinal cell cultures: role of cyclic AMP in the K(+)-evoked, Ca(2+)-dependent induction of serotonin N-acetyltransferase activity. 758 Aug 70

Calmodulin plays an important role in cellular proliferation as part of a signal transduction pathway activated by phospholipase C. Drugs that block the ability of calmodulin to bind to and activate its target enzymes inhibit the growth of a wide variety of malignant cells. To identify more potent and selective inhibitors of this potential target for new drug development, we studied two recently synthesized compounds, KS-501 and KS-502, for their activity against calmodulin-sensitive enzymes and for their ability to block the growth of parental and multidrug-resistant leukemic cells. KS-501 and KS-502 inhibited the activation of a calmodulin-sensitive cyclic nucleotide phosphodiesterase. The mechanism of enzyme inhibition was through interfering with calmodulin activation rather than through a direct effect on the enzyme. KS-501 was more potent than KS-502 and was studied in greater detail. This compound inhibited the activation of calmodulin kinase I and II, but had less effect against cyclic adenosine 3',5'-monophosphate (cyclic AMP)-sensitive kinase. KS-501 was also more effective than KS-502 in inhibiting the growth of sensitive L1210 leukemic lymphocytes. Both compounds were less effective inhibitors of multidrug-resistant L1210 leukemia than of the parental line. These studies identify a new class of calmodulin inhibitor, with selectivity for calmodulin-dependent kinases over cyclic AMP-dependent protein kinase. Since the total synthesis of the KS-compounds has been accomplished, it should now be possible to develop derivatives with greater activity and selectivity.
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PMID:Effects of KS-501, KS-502 and their enantiomers on calmodulin-sensitive enzyme activity and cellular proliferation. 760 47

Throughout vegetative growth, Dictyostelium amoebae secrete an autocrine factor, prestarvation factor, PSF, which accumulates in proportion to cell density. During late exponential growth, PSF induces the expression of several genes whose products are needed for cAMP signaling and cell aggregation. Among these genes are discoidin-I and the 2.4-kb transcript of cyclic nucleotide phosphodiesterase (PDE). We have identified several parameters that modulate expression of one or both of these prestarvation response genes; all effects were monitored in cells growing exponentially on bacteria. Under these conditions, axenic mutants produce higher levels of PSF activity than wild-type cells. Consistent with the high PSF levels, the 2.4-kb PDE transcript is more abundant in axenic strains than wild-type cells at the same cell density. In contrast, the density-dependent induction of discoidin-I is greatly delayed in axenic strains, occurring only at the very end of exponential growth. Analysis of axenic strains of independent origin suggested that this negative effect on discoidin-I expression is attributable to the axenic mutations themselves. The effects of two environmental factors that inhibit the prestarvation response (the bacteria upon which the cells feed and a bacterial product, folic acid) were also analyzed. We found that folate does not account for the inhibitory effect of bacteria. Cells deficient in the G-protein beta subunit, which is thought to be common to all heterotrimeric G-proteins in Dictyostelium, respond to PSF in the same manner as G beta+ cells, and this response is inhibited by bacteria. However, folate has no inhibitory effect on g beta- cells, indicating that folate inhibition is mediated by a heterotrimeric G-protein. In cells lacking the catalytic subunit of protein kinase A, the prestarvation response is severely impaired, but about 3% of the pka- cells manifest an apparently normal density-dependent induction of discoidin-I. This behavior and the heterogeneity of the prestarvation response in wild-type cells lead us to speculate that protein kinase A may not be required for PSF signal transduction per se, but rather may render the cells responsive to PSF. Based on analysis of adenylyl cyclase mutants (aca-), the effect of protein kinase A is not cAMP-dependent.
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PMID:Genetic and physiologic modulation of the prestarvation response in Dictyostelium discoideum. 761 66


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