EC:3.1.4.1 - FACTA Search

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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)

Growth and differentiation of cells derived from the embryonic palate are critically dependent on the intracellular cAMP-mediated signal transduction pathway. Human embryonic palate mesenchymal (HEPM) cells have been widely used to examine the effect of teratogens on palatal tissue growth and differentiation, as well as a prescreen for environmental teratogens. This study examined responsiveness of HEPM cells to agents known to stimulate adenylate cyclase, characterized cAMP-dependent protein kinases (cAMP-dPK) (EC 2.7.1.37) and investigated to what extent HEPM cells reveal adaptational responses to cAMP at the level of cAMP-dependent protein kinase. HEPM cells exhibited a total cell cycle transit time of approximately 22 h and responded maximally, when confluent, to prostacyclin (PGI2), prostaglandin E2 (PGE2), and isoproterenol with time- and dose-dependent increases in intracellular levels of cAMP. The order of sensitivity to hormonal activation of adenylate cyclase was PGE2 > isoproterenol > PGI2. Basal cAMP-dependent protein kinases activity was 0.184 fmol phosphate transferred from ATP to histone per microgram protein per minute under conditions where endogenous phosphatases did not significantly affect protein phosphorylation. Regulatory subunits of cAMP-dPK in HEPM cells were characterized by the binding of [3H]cAMP to cytosolic fractions. Specific binding was saturable at approximately 50 nM indicating the presence of binding sites that are finite in number. Calculation of half-maximal binding yielded an estimated Kd of 25 nM indicating the presence of high affinity binding sites. Cyclic AMP-dPK regulatory subunits were also photoaffinity labeled with 8-N3-[32P]-cAMP, subjected to sodium dodecyl sulfate-polyacrylamide gel electrophoresis, and radiolabeled bands visualized by autoradiography. Photoactivated incorporation of 8-N3-[32P]cAMP was detected into two proteins of molecular weight (M(r)) 45,000 and M(r) 51,000 representing, respectively, the RI alpha and RII beta subunits of cAMP-dPK. Binding of [32P]8-azido cAMP to proteins of M(r) 45,000 (RI alpha) and M(r) 51,000 (RII beta) was increased in response to elevation of intracellular cAMP via inhibition of its breakdown with the phosphodiesterase inhibitor 3-isobutyl-1-methylxanthine, or by direct activation of adenylate cyclase with forskolin. HEPM cells thus revealed adaptational responses to cAMP at the level of cAMP-dependent protein kinase. Characterization of the cAMP signal transduction pathway in HEPM cells, derived from embryonic palatal tissue which is critically dependent on this pathway for normal development, may provide information fundamental to a clear understanding of cellular events involved in palatal ontogeny. These results highlight several important differences between HEPM cells and murine embryonic palate mesenchymal cells.(ABSTRACT TRUNCATED AT 400 WORDS)
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PMID:Cyclic AMP-dependent protein kinase in human embryonic palate mesenchymal cells. 128 15

ATP transiently increases the intracellular Ca2+ concentration in cardiac myocyte suspensions. Pretreatment with norepinephrine (NE) greatly potentiates the ATP response. We performed experiments on adult rat myocyte suspensions loaded with fura-2 to investigate the mechanism of NE potentiation. We found that forskolin (an activator of adenylate cyclase), 3-isobutyl-1-methylxanthine (an inhibitor of phosphodiesterase), and permeative adenosine 3',5'-cyclic monophosphate (cAMP) analogues potentiate the increase in cytosolic Ca2+ concentration induced by ATP. NE, forskolin, and 8-(4-chlorophenylthio)-cAMP all increase Vmax of the Ca2+ response curve of ATP. Measurement of cAMP by radioimmunoassay confirmed that the changes in the ATP response were accompanied by an increase in cAMP. These results suggest that the noradrenergic potentiation of the ATP-induced Ca2+ mobilization involves cAMP as a second messenger. Patch-clamp studies of isolated myocytes showed that neither NE nor forskolin alters the inward current elicited by ATP, but rather they increase the duration of secondary slow action potentials elicited by ATP. NE also increases the Ca2+ current through L-type Ca2+ channels in the myocytes. We conclude that NE potentiates the ATP-induced Ca2+ transient by increasing cAMP levels and that one of the early events is the increase of the inward Ca2+ current during the action potential.
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PMID:Synergism between cAMP and ATP in signal transduction in cardiac myocytes. 131 Feb 5

Light-induced GTP-dependent scattering changes are studied in suspensions of retinal disc membranes to which one or both of the purified proteins involved in the phototransduction mechanism (G-protein and cGMP phosphodiesterase) are reassociated; a scattering change which depends on the presence of both G-protein (G) and inhibited cGMP phosphodiesterase (PDE) and on an ATPase-dependent process, previously described in Bennett [(1986) Eur. J. Biochem. 157, 487-495] is compared to the signal observed in the absence of PDE or of ATP and to PDE activity. The same signal can also be induced either in the dark or in the light by addition of preactivated G in the presence of inhibited PDE. This PDE-dependent scattering change is composed of two components (fast and slow); the variation of the amplitude and kinetics of both components with PDE or G concentration is similar to the variation of the active PDE state with two activator GGTP molecules (G with GTP bound), calculated with dissociation constants previously reported for the interaction between GGTP and PDE [Bennett, N., & Clerc, A. (1989) Biochemistry 28, 7418-7424]. The two components are therefore proposed to be associated with processes which depend on the formation of the active PDE state with two activators.
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PMID:cGMP phosphodiesterase dependent light-induced scattering changes in suspensions of retinal disc membranes. 131 Jun 20

The mechanism of phosphaturia induced by cAMP infusion and the physiological role of extracellular cAMP in modulation of renal phosphate transport were examined. In cultured opossum kidney cells, extracellular cAMP (10-1,000 microM) inhibited Na-dependent phosphate uptake in a time- and concentration-dependent manner. The effect of cAMP was reproduced by ATP, AMP, and adenosine, and was blunted by phosphodiesterase inhibitors or by dipyridamole which inhibits adenosine uptake. [3H]cAMP was degraded extracellularly into AMP and adenosine, and radioactivity accumulated in the cells as labeled adenosine and, subsequently, as adenine nucleotides including cAMP. Radioactivity accumulation was decreased by dipyridamole and by inhibitors of phosphodiesterases and ecto-5'-nucleotidase, assessing the existence of stepwise hydrolysis of extracellular cAMP and intracellular processing of taken up adenosine. In vivo, dipyridamole abolished the phosphaturia induced by exogenous cAMP infusion in acutely parathyroidectomized (APTX) rats, decreased phosphate excretion in intact rats, and blunted phosphaturia induced by PTH infusion in APTX rats. These results indicate that luminal degradation of cAMP into adenosine, followed by cellular uptake of the nucleoside by tubular cells, is a key event which accounts for the phosphaturic effect of exogenous cAMP and for the part of the phosphaturic effect of PTH which is mediated by cAMP added to the tubular lumen under the influence of the hormone.
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PMID:Mechanisms whereby extracellular adenosine 3',5'-monophosphate inhibits phosphate transport in cultured opossum kidney cells and in rat kidney. Physiological implication. 132 99

A method for the separation of cyclic AMP from adenosine and polyvalent adenine nucleotides is described. The method consists of the sequential elution of adenosine and cyclic AMP from a single column of acidic aluminum oxide (alumina) with dilute hydrochloric acid and ammonium acetate. Adenosine, adenine, xanthine, and hypoxanthine are rapidly eluted with the application of 0.005 N hydrochloric acid while cyclic AMP remains adsorbed to the alumina. A subsequent application of 0.1 M ammonium acetate elutes more than 90% of the cyclic AMP. Under these conditions, polyvalent nucleotides (AMP, ADP, and ATP) remain adsorbed to the alumina. The method permits the measurement of adenylylcyclase activity using [3H]ATP as the labeled substrate. The same technique can be used to measure the accumulation of cyclic AMP in intact cells after labeling the ATP pool with [3H]adenine. With slight modification, the technique can be used to measure the activity of cyclic-AMP phosphodiesterase using [3H]cyclic AMP as the substrate. The proposed technique provides rapid, highly reproducible assays using inexpensive, disposable columns.
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PMID:A separation method for the assay of adenylylcyclase, intracellular cyclic AMP, and cyclic-AMP phosphodiesterase using tritium-labeled substrates. 132 36

(Na(+)-K+)ATPase is necessary for the maintenance of the membrane potential. The activity of this enzyme was studied in purified plasma membranes from a glucose-responsive rat insulinoma. Ouabain-sensitive (Na(+)-K+)ATPase activity showed expected ATP dependency with a Km of 0.4 mM. It was also dependent on Mg2+ (Km range 70-80 microM). In the presence of Mg and ATP, half-maximal activity was obtained at a Na concentration of 30 mM and the enzyme activity increased sigmoidally with a Hill coefficient of 1.5. No direct effect on enzyme activity was observed with the insulin secretagogues glucose, fructose, glyceraldehyde, and ketoisocaproate, or with dibuturyl-cAMP and the phosphodiesterase-inhibitor isobutyl methyl xanthine. It is concluded that (Na(+)-K+)ATPase is not directly influenced by known secretagogues associated with insulin release by the beta cell.
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PMID:The function of (Na(+)-K+)ATPase in the beta cell: characterization of the enzyme in a glucose-responsive insulinoma. 132 2

Earlier studies established that adenylyl cyclase in NCB-20 cell plasma membranes is inhibited by concentrations of Ca2+ that are achieved in intact cells. The present studies were undertaken to prove that agents such as bradykinin and ATP, which elevate the cytosolic Ca2+ concentration ([Ca2+]i) from internal stores in NCB-20 cells, could inhibit cyclic AMP (cAMP) accumulation as a result of their mobilization of [Ca2+]i and not by other mechanisms. Both bradykinin and ATP transiently inhibited [3H]cAMP accumulation in parallel with their transient mobilization of [Ca2+]i. The [Ca2+]i rise stimulated by bradykinin could be blocked by treatment with thapsigargin; this thapsigargin treatment precluded the inhibition of cAMP accumulation mediated by bradykinin (and ATP). A rapid rise in [Ca2+]i, as elicited by bradykinin, rather than the slow rise evoked by thapsigargin was required for inhibition of [3H]cAMP accumulation. Desensitization of protein kinase C did not modify the inhibitory action of bradykinin on [3H]cAMP. Effects of Ca2+ on phosphodiesterase were also excluded in the present studies. The accumulated data are consistent with the hypothesis that hormonal mobilization of [Ca2+]i leads directly to the inhibition of cAMP accumulation in these cells and presumably in other cells that express the Ca(2+)-inhibitable form of adenylyl cyclase.
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PMID:Inhibition of cyclic AMP accumulation in intact NCB-20 cells as a direct result of elevation of cytosolic Ca2+. 132 28

The influence of adenosine 5'-triphosphate on gastric acid secretion stimulated by histamine, carbachol, dibutyryl-cAMP and the phosphodiesterase inhibitors 8-phenyl-theophylline and rolipram in isolated rabbit gastric glands was studied. Changes oi gastric acid secretion were measured by the aminopyrine accumulation method. Histamine-stimulated acid secretion was significantly inhibited by ATP 1 mM, whereas the secretory responses elicited by carbachol, dibutyryl-cAMP, 8-phenyl-theophylline or rolipram were not. Assays with indomethacin, a well known prostaglandin synthesis inhibitor, showed that this agent significantly reduced the inhibitory effect of ATP on histamine responses. The results indicate that the antisecretory effect of ATP was specific for histamine and that it was mediated, at least in part, via stimulation of endogenous prostaglandin production.
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PMID:[Specific inhibition by ATP of histamine-stimulated acid secretion in the gastric glands of the rabbit]. 132 61

Phototransduction mechanisms have been so far investigated mostly in rods, whereas those in cones are much less known. In the present experiment, we investigated phototransduction mechanisms in inside-out patches excised from cone outer segments of the carp. Cyclic GMP-activated channels on the patch became light-sensitive when both GTP and Mg2+ were supplied by perfusion. When the channels were activated by a hydrolysis-resistant analogue of cGMP, activities were not suppressed by light even though both GTP and Mg2+ were present. Thus activation of transducin and phosphodiesterase (PDE) were involved in the transduction processes, indicating that phototransduction mechanisms in cones are qualitatively similar to those in rods. In cone patches, however, light responses fully terminated even though ATP was absent, opposing to the report that ATP was indispensable for light response termination in rods. The response termination in the cone patch might result from activation of guanylate cyclase and/or inactivation of PDE. Under the perfusion of GTP together with Mg2+ and 3-isobutyl-1-methyl xanthine, no channel activities were observed, indicating that no guanylate cyclase activity was present in cone patch preparations. Therefore, termination of the light response in the patch might be caused by inactivation of PDE which resulted from inactivation of photopigment and transducin. Based on these observations, differences in light response kinetics between the rod and cone are discussed.
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PMID:Phototransduction in cones as examined in excised membrane patch. 133 81

Parafusin, a cytosolic phosphoglycoprotein of M(r) 63,000, is dephosphorylated and rephosphorylated rapidly in a Ca(2+)-dependent manner upon stimulation of exocytosis in vivo in wild-type (wt) Paramecium. In contrast, the temperature-sensitive exocytosis mutant nd9, grown at the nonpermissive temperature (27 degrees C), does not exocytose or dephosphorylate parafusin upon stimulation in the presence of Ca2+; grown at the permissive temperature (18 degrees C), nd9 cells show a wt phenotype. Parafusin contains two types of phosphorylation sites: one where glucose 1-phosphate is added by an alpha-glucose-1-phosphate phosphotransferase and removed by a phosphodiesterase and one where phosphate from ATP is added directly to a serine residue by a protein kinase and removed by a phosphatase. We show here that, in cell fractions from wt Paramecium, both reactions can be carried out in vitro by using uridine(5'-[beta-[35S]thio])diphospho(1)-glucose (UDP[beta 35S]-Glc) and [gamma-32P]ATP, respectively. The characteristics of these pathways are different. Specifically, in the presence of Ca2+, the amount of UDP[beta 35S]-Glc label in parafusin is reduced. In contrast, identical labeling experiments with [gamma-32P]ATP show that Ca2+ enhances labeling of parafusin. Mg2+ had no appreciable effect on either labeling. Removal of the UDP[beta 35S]-Glc label on parafusin in the presence of Ca2+ correlates with the in vivo dephosphorylation seen upon exocytosis. Incubations with UDP[beta 35S]-Glc were then performed with homogenates and nd9 cell fractions grown at 27 degrees C under the ionic conditions used for wt cells. These labelings were not affected by Ca2+, in contrast to results from wt cells but in accord with those obtained earlier with nd9-27 mutant cells in vivo. Factors responsible for both dephosphorylation and Ca2+ sensitivity were found in the high-speed pellet (P2) in wt cells, suggesting that the putative phosphodiesterase is in this fraction and that the defect in the mutant nd9-27 residues in the Ca2+ activation of the phosphodiesterase. We conclude that the in vivo dephosphorylation of parafusin that occurs upon exocytosis is a dephosphoglucosylation due to removal of the alpha-glucose 1-phosphate and more generally that carbohydrates on cytoplasmic glycoproteins may be cyclically added and/or removed in response to extracellular stimuli.
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PMID:Carbohydrate cycling in signal transduction: parafusin, a phosphoglycoprotein and possible Ca(2+)-dependent transducer molecule in exocytosis in Paramecium. 133 6

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