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)

The selective beta 2-adrenergic agonist clenbuterol was ineffective as a stimulus for insulin secretion when isolated rat pancreatic islets were incubated with glucose at concentrations between 4 and 20 mM. Inclusion of the phosphodiesterase inhibitor 3-isobutyl-1-methylxanthine led to potentiation of glucose-induced insulin secretion, but did not facilitate stimulation by clenbuterol. Furthermore, maintenance of isolated rat islets for up to 3 days in tissue culture also failed to result in the appearance of a secretory response to beta-agonists. By contrast, clenbuterol induced a dose-dependent increase in insulin release from isolated human islets incubated with 20 mM glucose. Clenbuterol did not increase the basal rate of insulin secretion (4 mM glucose) in human islets. Under perifusion conditions, the secretory response of human islets to clenbuterol was rapid, of similar magnitude to that seen under static incubation conditions and could be sustained for at least 30 min. The increase in insulin secretion induced by clenbuterol was inhibited by propranolol, indicating that the response was mediated by activation of beta-receptors. In support of this, a similar enhancement of glucose-induced insulin secretion was elicited by a different beta 2-agonist, salbutamol, in human islets. The results indicate that the B cells of isolated rat islets are unresponsive to beta-agonists, whereas those of human islets are equipped with functional beta-receptors which can directly influence the rate of insulin secretion.
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PMID:Differential effects of beta-adrenergic agonists on insulin secretion from pancreatic islets isolated from rat and man. 197 43

Selenate was found to have several insulin-like effects in rat adipocytes: stimulation of glucose transport activity by translocation of two types of glucose transporters from intracellular sites to the plasma membrane, stimulation of cAMP phosphodiesterase activity, and stimulation of ribosomal S6 protein phosphorylation. Furthermore, in intact cells addition of 1 mM selenate stimulated tyrosyl phosphorylation of 210-, 170-, 120-, 95-, 70-, and 60-kDa proteins but failed to stimulate insulin receptor kinase activity, suggesting that selenate stimulated other tyrosine kinase. In the presence of insulin, selenate enhances insulin receptor kinase activity and phosphorylations of insulin-stimulated tyrosyl phosphoproteins. These results may provide clues for the elucidation of the role of selenium in animals and the mechanism of insulin action.
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PMID:The insulin-like effects of selenate in rat adipocytes. 215 2

Incubation of intact rat fat cells with maximally effective concentrations of insulin (1 nM, 12 min) or isoprenaline (300 nM, 3 min) increased particulate cGMP- and cilostamide-inhibited, low-Km cAMP phosphodiesterase (cAMP-PDE) activity by about 50% and 100%, respectively. In 32P-labeled cells, these agents induced serine 32P-phosphorylation of a 135-kDa particulate protein and, to a variable and lesser extent, a 44-kDa protein, which were selectively immunoprecipitated by anti-cAMP-PDE, as analyzed by SDS/PAGE and autoradiography. In the absence of hormonal stimulation, little phosphorylation was detected (less than 10% of that with the hormones). The two phosphoproteins were identified as cAMP-PDE or a closely related molecule (in the case of the 44-kDa species, perhaps a proteolytic fragment) since (i) amounts of 32P in the immunoprecipitated 135-kDa protein paralleled enzyme inactivation, (ii) prior incubation of the anti-cAMP-PDE with the pure rat or bovine enzyme selectively blocked the immunoprecipitation of the phosphoproteins, (iii) 135- and 44-kDa proteins reacted with the anti-cAMP-PDE on Western immunoblots, and (iv) the two phosphoproteins copurified with cAMP-PDE activity through DEAE-Sephacel chromatography and were isolated by highly selective affinity chromatography on cilostamide-agarose. Thus, in fat cells, catecholamine- and insulin-induced activation of the cAMP-PDE may be mediated via phosphorylation by cAMP-dependent protein kinase and an insulin-activated serine protein kinase, respectively.
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PMID:Evidence that insulin and isoprenaline activate the cGMP-inhibited low-Km cAMP phosphodiesterase in rat fat cells by phosphorylation. 215 56

Transforming Harvey (Ha) ras oncogene products accelerated the time course of Xenopus oocyte maturation induced by insulin, insulinlike growth factor 1, or progesterone. The transforming constructs, [Val-12]Ha p21 and [Val-12, Thr-59]Ha p21, displayed equal potency and efficacy in their abilities to accelerate the growth peptide-induced response. Normal Ha p21 was only 60% as powerful and one-fifth as potent as the mutants containing valine in the 12 position. In contrast, two nontransforming constructs, [Val-12, Ala-35, Leu-36, Thr-59]Ha p21 and [Val-12, Thr-59]Ha(term-174) p21, had no effect on the time course of hormone-induced maturation. Effects of the transforming ras proteins on hormone-induced maturation correlated with their abilities to stimulate in vivo phosphodiesterase activity measured after microinjection of 200 microM cyclic [3H] AMP. When p21 injection followed 90 min of insulin treatment, there was no increase in phosphodiesterase activity over that measured after hormone treatment or p21 injection alone, but additive effects of p21 and insulin on enzyme activity were observed during the first 90 min of insulin treatment. Even though normal Ha p21 and transforming [Val-12, Thr-59]Ha p21 stimulated oocyte phosphodiesterase to equal levels when coinjected with substrate at the initiation of the in vivo assay, the transforming protein elicited a more sustained stimulation of enzyme activity. These results suggest that stimulation of a cyclic AMP phosphodiesterase activity associated with insulin-induced maturation is involved in the growth-promoting actions of ras oncogene products in Xenopus oocytes.
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PMID:Transforming ras proteins accelerate hormone-induced maturation and stimulate cyclic AMP phosphodiesterase in Xenopus oocytes. 215 40

The insulin-sensitive cAMP phosphodiesterase (PDE) in the microsomal fraction (Fraction P-2) from basal (-insulin) rat adipocytes was stimulated upon incubation with 2 mM ATP plus the soluble fraction from insulin-treated adipocytes (Fraction S-2+). Fraction S-2+ was prepared in the presence of p-nitrophenylphosphate, sodium vanadate, and EGTA. The ATP-dependent stimulation of PDE was routinely 60-70%. The unknown factor in Fraction S-2 was water-soluble, heat-labile, excluded by Sephadex G-50, mostly retained by Sephadex G-100, and not inhibited with 1 microgram/ml heparin, 3 mM CaCl2, or 30 mM NaF. The soluble factor may be a mediator of insulin action on PDE, possibly a protein kinase.
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PMID:Stimulation of the insulin-sensitive cAMP phosphodiesterase by an ATP-dependent soluble factor from insulin-treated rat adipocytes. 215 11

Isolated rat ventricular cardiomyocytes were used to study the effects of insulin on glycogen metabolism in cells treated with various agents that activate adenosine 3',5'-cyclic monophosphate (cAMP)-dependent protein kinase. Incubation of myocytes with isoproterenol produced a rapid concentration-dependent increase in cAMP concentration, cAMP-dependent protein kinase activity, and phosphorylase activity and a simultaneous decrease in the glycogen synthase activity ratio. Various cAMP analogues also produced a concentration-dependent increase in phosphorylase activity and a decline in the glycogen synthase activity ratio. Incubation of cells with insulin produced no change in basal phosphorylase activity but produced a rapid 40% increase in the glycogen synthase activity ratio. Inclusion of insulin in cell incubations containing increasing concentrations of isoproterenol did not modify the increases in cAMP concentration, protein kinase activity, or phosphorylase activity. Insulin also did not antagonize the ability of any of the cAMP analogues tested to activate phosphorylase, irrespective of the suitability of the particular cAMP analogue as a substrate for cAMP phosphodiesterases. The failure of insulin to antagonize the glycogenolytic effects of isoproterenol or cAMP analogues was paralleled by its failure to activate low-Km phosphodiesterase activity, but the cAMP analogue, 8-parachlorophenylthio-cAMP produced a small reproducible activation of the low-Km enzyme. In contrast to hepatocytes and adipocytes, where some effects of insulin appear to be due to activation of the phosphodiesterase and hydrolysis of cAMP, the effects in cardiomyocytes appear to be independent of an insulin-sensitive phosphodiesterase or of the effects on other components of the cAMP cascade.
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PMID:Failure of insulin to antagonize cAMP-mediated glycogenolysis in rat ventricular cardiomyocytes. 215 37

A novel relaxin sensitive cell line of apparent smooth muscle origin has been established from a newborn rhesus monkey uterus (NRMU). NRMU cells respond to relaxin, in the presence of 1 microM forskolin, by producing intracellular adenosine 3', 5'-cyclic monophosphate (cAMP). The increase in cAMP levels is dose, time and cell density dependent, reaching peak levels at 10 min when cells are seeded at 1 X 10(5) cells/well. Specificity was demonstrated by neutralization of the relaxin activity with anti-relaxin monoclonal and polyclonal antibodies, degradation of cAMP in the presence of phosphodiesterase, and confirmation of the absence of cGMP. Three synthetic analogs of human relaxin generated a dose-related cAMP response as did synthetic native human relaxin. Natural relaxin purified from human corpora lutea tissue also generated a response similar to synthetic human relaxin. Porcine and rat relaxins also increased levels of cAMP. Insulin, but not IGF I or IGF II, was capable of increasing cAMP levels in NRMU cells, however, 200 ng/mL were required to achieve cAMP levels comparable to 6.25 ng/ml relaxin. Combinations of relaxin with insulin, IGF I or IGF II did not increase cAMP levels above levels obtained with relaxin alone. The effect on NRMU cells of other hormones, growth factors and drugs potentially present in cell culture systems or serum samples was evaluated. In combination with relaxin, oxytocin significantly decreased the cAMP production below the levels induced by relaxin alone, whereas progesterone and prostaglandin E2 resulted in additive increases in cAMP. These data suggest that the NRMU cell line is an appropriate target tissue for studying relaxin-mediated biological responses in vitro as well as functioning as the primary component of a relaxin in vitro bioassay.
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PMID:Increase in cyclic AMP levels by relaxin in newborn rhesus monkey uterus cell culture. 216 18

The insulin-sensitive cAMP phosphodiesterase (PDE) from rat adipocytes was stimulated 60-70% upon incubation with 2 mM ATP and the soluble fraction (Fraction S-1) from insulin-treated rat liver. The effect of ATP was partially mimicked by ATP-gamma-S or GTP, but not by AMP-PNP. The PDE-stimulating activity in Fraction S-1 was preserved in the presence of 50 mM sodium phenyl phosphate, 50 mM sodium fluoride, and 0.1 mM sodium vanadate. The PDE-stimulating activity was not inhibited with either 0.5 mM H-7 or 5 microM PKI-(5-24)-peptide, but was blocked with 1 mM Kemptide. The active component in Fraction S-1 may be a phosphorylated compound, which, in the presence of ATP, may mediate the hormonal action on PDE.
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PMID:Cell-free stimulation of the insulin-sensitive cAMP phosphodiesterase by the joint actions of ATP and the soluble fraction from insulin-treated rat liver. 216 98

The content of cyclic nucleotides (cAMP and cGMP), hormones (T3, T4, insulin, protein-bound iodine and thyroid-stimulating hormone) and phosphodiesterase activity were examined in the acute period and over time in blood plasma of patients with ischemic stroke. The parameters under study were found to be interrelated. Also, it has been established that the T4/T3 and cAMP/cGMP ratios and the content of insulin may serve as important biochemical criteria for the gravity of ischemic stroke.
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PMID:[Plasma levels of cyclic nucleotides, phosphodiesterase, thyroid hormones and insulin in patients with ischemic stroke]. 217 82

Using experimentally derived data for the activities and kinetic constants of hepatocyte cyclic AMP phosphodiesterase isoenzymes together with the derived changes in adenylate cyclase activity, due to stimulation and subsequent desensitization by glucagon, a computer model was established to simulate hepatocyte cyclic AMP metabolism. The established ability of glucagon to activate the 'dense-vesicle' cyclic AMP phosphodiesterase by eliciting its cyclic AMP-dependent phosphorylation was shown on the model to be capable of eliciting a profound reduction in the glucagon-stimulated increase in intracellular cyclic AMP. This was consistent with experimentally derived observations using the compound ICI 118233 which was used to inactivate the 'dense-vesicle' enzyme selectively. The non-hydrolysable adenosine agonist N6 (phenylisopropyl)-adenosine (PIA), which prevents glucagon pre-treatment of hepatocytes blocking the ability of insulin to stimulate the peripheral plasma membrane cyclic AMP phosphodiesterase, is shown here to accentuate the ability of insulin to decrease glucagon-elevated intracellular cyclic AMP concentrations. This effect was obliterated using the compound ICI 63197, a selective inhibitor of the peripheral plasma membrane phosphodiesterase. Computer modelling studies, taking into account experimentally derived actions in insulin in activating the peripheral plasma membrane phosphodiesterase, confirmed the potential of this enzyme to decrease intracellular cyclic AMP concentrations. Modelling of the putative effect of an insulin 'mediator' in activating the two cyclic GMP-stimulated cyclic AMP phosphodiesterase isoenzymes was shown to elicit a decrease in intracellular cyclic AMP concentrations which was comparable to that caused by insulin's action on intact hepatocytes. The relative contribution of each phosphodiesterase form to the metabolism of hepatocyte intracellular cyclic AMP, together with an assessment of the potential effect of inhibition and activation of specific species, was evaluated using the computer model. These experimental and stimulation studies indicate that alterations in the phosphodiesterase activity of the 'dense-vesicle' enzyme, the peripheral plasma membrane enzyme, the cyclic GMP-stimulated cyclic AMP isoforms and the IBMX-insensitive PDE-MQ-II can elicit profound effects upon hepatocyte intracellular cyclic AMP concentrations.
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PMID:The use of selective inhibitors and computer modelling to evaluate the role of specific high affinity cyclic AMP phosphodiesterases in the hormonal regulation of hepatocyte intracellular cyclic AMP concentrations. 217 3


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