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)

1. The ability of a range of phenothiazines to inhibit activation of brain phosphodiesterase by purified calmodulin was studied. Trifluoperazine, prochlorperazine and 8-hydroxyprochlorperazine produced equipotent dose-dependent inhibition with half-maximum inhibition at 12mum. When tested at 10 or 50mum, 7-hydroxyprochlorperazine was a similarly potent inhibitor. However, trifluoperazine-5-oxide and N-methyl-2-(trifluoromethyl)phenothiazine were ineffective at concentrations up to 50mum, and produced only a modest inhibition at 100mum. 2. The same phenothiazines were tested for their ability to inhibit activation of brain phosphodiesterase by boiled extracts of rat islets of Langerhans. At a concentration of 20mum, 70-80% inhibition was observed with trifluoperazine, prochlorperazine, 7-hydroxyprochlorperazine or 8-hydroxyprochlorperazine, whereas trifluoperazine-5-oxide and N-methyl-2-(trifluoromethyl)phenothiazine were less effective. 3. The effect of these phenothiazines on insulin release from pancreatic islets was studied in batch-type incubations. Insulin release stimulated by glucose (20mm) was markedly inhibited by 10mum-trifluoperazine or -prochlorperazine and further inhibited at a concentration of 20mum. 8-Hydroxyprochlorperazine (20mum) was also a potent inhibitor but 7-hydroxyprochlorperazine (20mum) elicited only a modest inhibition of glucose-stimulated insulin release; no inhibition was observed with trifluoperazine-5-oxide or N-methyl-2-(trifluoromethyl)phenothiazine. 4. Trifluoperazine (20mum) markedly inhibited insulin release stimulated by leucine or 4-methyl-2-oxopentanoate in the absence of glucose, and both trifluoperazine and prochlorperazine (20mum) decreased insulin release stimulated by glibenclamide in the presence of 3.3mm-glucose. 5. None of the phenothiazines affected basal insulin release in the presence of 2mm-glucose. 6. Trifluoperazine (20mum) did not inhibit islet glucose utilization nor the incorporation of [(3)H]leucine into (pro)insulin or total islet protein. 7. Islet extracts catalysed the incorporation of (32)P from [gamma-(32)P]ATP into endogenous protein substrates. Sodium dodecyl sulphate/polyacrylamide-gel electrophoresis resolved several phosphorylated bands, but incorporation was slight. However, calmodulin in the presence of Ca(2+) greatly enhanced incorporation: the predominant phosphorylated band had an estimated mol.wt. of 55000. This enhanced incorporation was abolished by trifluoperazine, but not by cyclic AMP-dependent protein kinase inhibitor protein. 8. These results suggest that islet phosphodiesterase-stimulating activity is similar to, although not necessarily identical with, calmodulin from skeletal muscle; that islet calmodulin may play an important role in Ca(2+)-dependent stimulus-secretion coupling in the beta-cell; and that calmodulin may exert part at least of its effect on secretion via phosphorylation of endogenous islet proteins.
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PMID:Evidence for the participation of calmodulin in stimulus-secretion coupling in the pancreatic beta-cell. 626 64

Cyclic nucleotide phosphodiesterase activities (3',5'-cyclic nucleotide 5'-nucleotidohydrolase, EC 3.1.4.17) were found in the 40,000 X g supernatant fraction of homogenates of Xenopus laevis oocytes. In the supernatant, the ratio of the specific activity of cyclic AMP phosphodiesterase to that of cyclic GMP phosphodiesterase was 1.1 at the 1 micro substrate level. Two phosphodiesterase forms were isolated by centrifugation on sucrose gradient: a 3-4 S form hydrolyzing specificity cyclic AMP and a 6-7 S form hydrolyzing both cyclic nucleotides (cyclic AMP and cyclic GMP). The activity of the 6-7 S phosphodiesterase was characterized by its activation by 0.1 micro M calmodulin purified from beef pancreas in the presence of 50 micro M CA2+. The calmodulin dependence of this form was completely abolished in the presence of 1 mM ethyleneglycobis(beta-aminoethyl ether)-N-N,N',N'-tetraacetic acid (EGTA). Trifluoperazine at 0.1 mM inhibited both the freshly prepared crude enzyme and the partially purified 6-7 S form. On the other hand, no effect of cyclic GMP at 3 micro M was observed on cyclic AMP hydrolysis in the case of the supernatant or that of the partially purified phosphodiesterases. These data show the presence of a calmodulin-dependent phosphodiesterase in the soluble fraction of X. laevis oocytes.
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PMID:Characterization of the soluble cyclic nucleotide phosphodiesterases in Xenopus laevis oocytes. Evidence for a calmodulin-dependent enzyme. 628 Jul 70

C6 glial tumor cells exposed to phorbol myristate acetate (PMA) possessed lowered cAMP content, reduced ability to accumulate cAMP in response to norepinephrine or cholera toxin, and a 3-fold increase in the concentration of norepinephrine producing 50% of the maximal rate of cAMP accumulation. Detectable effects on cAMP accumulation occurred within 10 min of exposure to PMA, and prominent effects by 2 h. PMA similarly affected cells pretreated with cycloheximide. In contrast, Ca2+-depleted preparations of control and PMA-treated cells accumulated cAMP identically in response to norepinephrine or cholera toxin. Ca2+ restoration, which increased the rate of cAMP accumulation in control cells severalfold, did not enhance cAMP accumulation in PMA-treated cells. Neither high catecholamine nor high extracellular Ca2+ concentrations reversed the suppression of cAMP accumulation by PMA. Trifluoperazine, which inhibited the Ca2+-dependent component of norepinephrine-stimulated cAMP accumulation in control cells, did not significantly reduce norepinephrine-stimulated cAMP accumulation in PMA-treated cells. Cell free preparations of control and PMA-treated cultures did not differ significantly in calmodulin content or in Ca2+-stimulated adenylate cyclase, Ca2+-dependent cAMP phosphodiesterase, and (Ca2+-Mg2+)-ATPase activities. The Ca2+ content, however, of intact cells decreased with time of PMA treatment. Within minutes after exposure to PMA, the ability of Ca2+-depleted cells to take up 45Ca was significantly reduced. Both 45Ca uptake and Ca2+-dependent cAMP accumulation were reduced over the same PMA concentration range.
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PMID:Alterations of glial tumor cell Ca2+ metabolism and Ca2+-dependent cAMP accumulation by phorbol myristate acetate. 628 23

Acidic phospholipids, unsaturated fatty acids and limited proteolysis mimic the activating effect of calmodulin on erythrocyte Ca2+-transport ATPase and on brain cyclic nucleotide phosphodiesterase, as has been reported previously in several studies. Three different antagonists of calmodulin-induced activation of these enzymes were tested for their inhibitory potency on the stimulation produced by the other activators. Trifluoperazine and penfluridol were found to antagonize all the above mentioned types of activation of Ca2+-transport ATPase in the same concentration range. Both inhibitors also can reverse the activation of phosphodiesterase by oleic acid, phosphatidylserine and calmodulin at similar concentrations. However, in contrast with erythrocyte Ca2+-transport ATPase, activation of phosphodiesterase by limited tryptic digestion cannot be antagonized by penfluridol and trifluoperazine. Calmidazolium, formerly referred to as compound R 24571, was found to be a relatively specific inhibitor of calmodulin-induced activation of phosphodiesterase and Ca2+-transport ATPase, since antagonism of the other activators required much higher concentrations of the drug. The results suggest that the investigated drugs exert their inhibitory effect on calmodulin-regulated enzymes not solely via their binding to calmodulin but may also interfere directly with the calmodulin effector enzyme. In addition, a general mechanism of activation and inhibition of calmodulin-dependent enzymes is derived from our results.
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PMID:A model for the regulation of the calmodulin-dependent enzymes erythrocyte Ca2+-transport ATPase and brain phosphodiesterase by activators and inhibitors. 629 72

Trifluoperazine and chlorpromazine, blockers of calmodulin action, potentiate slow inward current in molluscan neurons identically to the action of cAMP. The sulfoxide derivative of chloropromazine does not appreciably bind to calmodulin and also fails to enhance the inward current. The likelihood that these effects are mediated by cAMP via inhibition of a Ca2+-calmodulin-activated phosphodiesterase is discussed and related to other data.
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PMID:Phenothiazines mimic the action of cAMP in potentiating slow inward current in a bursting molluscan neuron. 631 54

A calmodulin dependent cyclic nucleotide phosphodiesterase is associated with the head and tailpieces of demembranated rat caudal epididymal sperm. The phosphodiesterase was stimulated two-fold in the presence of Ca2+, while the simultaneous addition of Ca2+ and calmodulin resulted in a four-fold increase in activity. Ca2+ stimulation was abolished if demembranated sperm were extracted with EGTA and was recovered upon the addition of exogenous calmodulin. Micromolar levels of Ca2+ were required for full stimulation. Trifluoperazine inhibited the Ca2+ stimulated enzyme in a dose dependent manner (ID50 = 50 microM) but had no effect on the basal phosphodiesterase activity.
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PMID:Function of calmodulin in mammalian sperm: presence of a calmodulin-dependent cyclic nucleotide phosphodiesterase associated with demembranated rat caudal epididymal sperm. 632 56

Trifluoperazine (TFP) was shown to interact with the cyanogen bromide fragment 9 (CB9) (residues 84-135) of rabbit skeletal troponin C and with a synthetic peptide representing the N-terminal region of CB9. The phenothiazine did not affect the calcium binding property of CB9 as observed by proton magnetic resonance and circular dichroism spectroscopies. The calculated calcium binding constants for CB9 in the presence and absence of trifluoperazine were identical (KCa2+ = 1.3 X 10(5) M-1). Localization of the trifluoperazine binding site was achieved by analyzing the 1H NMR spectrum of CB9 and of a synthetic fragment corresponding to residues 90-104 of CB9. Drug-induced shifting and broadening of the ring protons of phenylalanine residues and the methyl resonances of alanine, leucine, and isoleucine residues suggest that the segment 95-102 is in close proximity to the phenothiazine aromatic region. The neighboring negative side chains in the peptide sequence also suggest that the single positive charge present on the piperazine nitrogens of trifluoperazine may interact with them and sterically block a region of interaction of calmodulin (CaM) and troponin C (TnC) with modulated proteins such as phosphodiesterase. Primary sequence analysis of CaM and troponin C reveals that a homologous hydrophobic region to site 3 is also found in the N-terminal region of site 1 of both calcium binding proteins. Binding of TFP to CB9 occurs both in the presence and absence of calcium since the hydrophobic region in these small fragments is completely accessible to TFP whether calcium is present or not. The dissociation constant of the drug to apoCB9 (8 microM) was obtained by ellipticity measurements at 222 nm and was comparable to the 5 microM value obtained by Levin and Weiss [Levin, R. M., & Weiss, B. (1978) Biochim. Biophys. Acta 540, 197-204] for calcium-saturated rabbit skeletal troponin C.
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PMID:Localization of a trifluoperazine binding site on troponin C. 684 70

Mycelia of Phymatotrichum omnivorum obtained at 10 day intervals during 10 to 50 days of growth were used for isolating calmodulin, and studying its effect on glycogen synthase, phosphorylase, phosphorylase kinase, cyclic AMP phosphodiesterase and Ca++ATPase. Glycogen synthase was inhibited until the 30th day by calmodulin, whereas calmodulin obtained from the 40th day stimulated glycogen synthase activity and the 50th day sample had no effect. cAMP phosphodiesterase and Ca++ATPase of P. omnivorum were stimulated by the respective calmodulin. Molecular weight of the purified fungal calmodulin was approximately 18 kD as revealed by sodium dodecyl sulphate gel electrophoresis. Trifluoperazine, dibucaine and lidocaine inhibited calmodulin activity and calmodulin activation of PDE, respectively.
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PMID:Purification and properties of calmodulin from Phymatotrichum omnivorum. 838 68

Phenothiazines have been reported for anti-mycobacterial activity by inhibiting calcium binding proteins, potassium transport processes of phagolysosomes, NADH dependent oxygen consumption by M. tuberculosis membranes and DNA, and lipid synthesis of the bacterium. Thioridazine (TZ), chloropromazine (CPZ) and trifluoperazine (TFP) belong to the class of phenothiazines widely used as neuroleptic drugs. Trifluoperazine, a calmodulin antagonist in eukaryotes, binds to a similar protein containing prototypical EF hand to bind to calcium in M. tuberculosis. Calmodulin, a calcium binding protein, plays a critical role in regulating the activities of several enzymes in response to intracellular calcium levels. Since calmodulins are best characterized in eukaryotes as opposed to prokaryotes, the presence of calmodulin-like activity in M. tuberculosis, the causative agent of tuberculosis, is unknown. We have provided biochemical evidence that M. tuberculosis recombinant (r) Rv1211 gene product stimulates the activities of heterologous calcium-deficient NAD-kinase and bovine brain phosphodiesterase (PDE), much like the eukaryotic calmodulins. Further we have shown that EGTA, a calcium chelator, inhibits rRv1211-stimulated NAD-kinase and PDE activities. We have also shown that trifluoperazine interferes with the activation of NAD-kinase and PDE activities by Rv1211. Using a bioinformatics approach, we have shown that Rv1211 contains one prototypical calcium-binding EF-hand motif, a characteristic feature of calmodulins. Based on these data, we conclude that Rv1211 encodes a protein with calmodulin-like activity (CAMLP) in the human pathogen M. tuberculosis and acts as a potential target for trifluoperazine.
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PMID:A novel calcium binding protein in Mycobacterium tuberculosis--potential target for trifluoperazine. 1963 1


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