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)

Okadaic acid, a potent inhibitor of Type 1 and Type 2A protein phosphatases, was used to investigate the mechanism of insulin action on membrane-bound low Km cAMP phosphodiesterase in rat adipocytes. Upon incubation of cells with 1 microM okadaic acid for 20 min, phosphodiesterase was stimulated 3.7- to 3.9-fold. This stimulation was larger than that elicited by insulin (2.5- to 3.0-fold). Although okadaic acid enhanced the effect of insulin, the maximum effects of the two agents were not additive. When cells were pretreated with 1-(5-isoquinolinylsulfonyl)-2-methylpiperazine (H-7), the level of phosphodiesterase stimulation by okadaic acid was rendered smaller, similar to that attained by insulin. In cells that had been treated with 2 mM KCN, okadaic acid (like insulin) failed to stimulate phosphodiesterase, suggesting that ATP was essential. Also, as reported previously, the effect of insulin on phosphodiesterase was reversed upon exposure of hormone-treated cells to KCN. This deactivation of previously-stimulated phosphodiesterase was blocked by okadaic acid, but not by insulin. The above KCN experiments were carried out with cells in which A-kinase activity was minimized by pretreatment with H-7. Okadaic acid mildly stimulated basal glucose transport and, at the same time, strongly inhibited the action of insulin thereon. It is suggested that insulin may stimulate phosphodiesterase by promoting its phosphorylation and that the hormonal effect may be reversed by a protein phosphatase which is sensitive to okadaic acid. The hypothetical protein kinase thought to be involved in the insulin-dependent stimulation of phosphodiesterase appears to be more H-7-resistant than A-kinase.
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PMID:Effects of okadaic acid on insulin-sensitive cAMP phosphodiesterase in rat adipocytes. Evidence that insulin may stimulate the enzyme by phosphorylation. 165 32

The present studies demonstrate that the beta-cell line RINr1046-38 (RIN-38) retains the capability to secrete insulin in response to glucose. The maximal effect of glucose was a 5- to 9-fold stimulation of insulin secretion from RIN-38 cells. This glucose-induced insulin secretion was maximal at 0.6 mM and was modulated by other secretagogues. Potassium concentrations of 10 mM, adenylate cyclase activators (glucagon-like peptide-1 and forskolin), and a phosphodiesterase inhibitor (isobutylmethylxanthine) potentiated glucose-induced insulin secretion, but had little or no effect on insulin secretion in the absence of glucose. Potassium concentrations of 20 mM or more, glibenclamide, and carbachol (Cch) stimulated insulin secretion 8- to 12-fold in the absence of glucose, while only Cch potentiated the effect of glucose on insulin secretion. Amino acids (alanine, arginine, leucine, and ketoisocaproate) also stimulated insulin secretion. The alpha 2-adrenergic agonist clonidine (1 microM), low extracellular calcium (less than or equal to 0.5 mM), and extended culture of RIN-38 cells at low glucose concentrations (0.33 mM) inhibited the stimulatory effect of glucose on insulin secretion. Insulin secretion was retained in RIN-38 cells for up to 98 passages. However, extended passage was associated with a decline in cellular insulin content (83% decline over 89 passages). In addition, high passage cells lost the ability to secrete insulin in response to glucose, but continued to respond to other secretagogues (K+, alanine, and carbachol). In fact, in the absence of glucose the effect of Cch on insulin secretion was well maintained in high passage cells (8- and 9.9-fold increase in insulin secretion, passages 9 and 70, respectively). Thus, low passage RIN-38 cells secrete insulin in response to glucose and other insulin secretagogues. High passage cells do not respond to glucose, but continue to respond to other secretagogues. Based on these results we propose that high and low passage RIN-38 cells provide a model for examining molecular mechanisms of glucose-induced insulin secretion. In addition, these findings emphasize that passage information is essential for interpretation of secretion studies with RIN cell lines.
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PMID:Modulation of glucose-induced insulin secretion from a rat clonal beta-cell line. 170 Nov 27

A new cyclic AMP phosphodiesterase inhibitor, griseolic acid (CAS 79030-08-3), in a dose-dependent manner increased insulin release and cyclic AMP level in rat pancreatic islets in the presence of 5.5 mmol/l glucose. Griseolic acid (0.26 mmol/l) or 3-isobutyl-1-methylxanthine (IBMX) (1 mmol/l) enhanced insulin release and cyclic AMP level both in the presence of 5.5 and 16.7 mmol/l glucose (no significant difference). In perifusion system, 45Ca++ efflux and insulin release showed a monophasic increase when the islets were exposed to 1.3 mmol/l griseolic acid or 1 mmol/l IBMX in the presence of 5.5 mmol/l glucose (no significant difference). In a cell-free system, griseolic acid had a stronger inhibitory effect on cyclic AMP phosphodiesterase activity than IBMX, has a stimulatory effect on insulin release through an increase of cyclic AMP by inhibiting phosphodiesterase in pancreatic islets, but it might not cross the plasma membrane easily.
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PMID:Effects of the new phosphodiesterase inhibitor griseolic acid on insulin release in rat pancreatic islets. 170 26

The effect of various phosphodiesterase inhibitors, and adenosine analogues on palmitate oxidation, were studied in isolated rat myocytes. Enoximone, milrinone, and dipyridamole, at a concentration of 250 microM, stimulated palmitate oxidation by 78%, 40%, and 43%, respectively. The specific A1-agonist, N6-cyclopentyladenosine, increased palmitate oxidation by 56%, at a concentration of 250 microM. Moreover, the nucleoside transport inhibitor, S-(P-Nitrobenzyl-)6-thioinosine, increased palmitate oxidation by 40%, at a concentration of 100 microM. These data suggest that the stimulation of palmitate oxidation by enoximone and adenosine analogues may be mediated via the inhibition of the uptake and/or the oxidation of glucose in myocytes.
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PMID:Stimulation of fatty acid oxidation in myocytes by phosphodiesterase inhibitors and adenosine analogues. 170 36

The effect of theophylline, a specific inhibitor of phosphodiesterase, on gap junction-mediated intercellular communication between Chinese hamster V79 cells was examined. It was found that addition of theophylline to coculture of 6-thioguanine-resistant (TGr) and 6-thioguanine-sensitive (TGs) V79 cells significantly increased the recovery of TGr cells. This finding indicates an inhibition of metabolic cooperation of V79 cells by theophylline. Theophylline was tested at concentrations less than 0.3 mg/ml, which were neither cytotoxic (after short or continuous exposure) nor inhibited the synthesis of DNA, RNA, and proteins. At the tested concentrations, no change was found in the membrane permeability of cells. Theophylline did not increase the incorporation of glucose into the cells.
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PMID:Study of the biological effects of theophylline on V79 cells: viability, membrane permeability, and metabolic cooperation. 171 77

1. In rat isolated islets of Langerhans the selective beta 2-adrenoceptor agonist, clenbuterol (1 to 20 microM), significantly increased the level of adenosine 3':5'-cyclic monophosphate (cyclic AMP) within 2 min of incubation. 2. The cyclic AMP response to clenbuterol was inhibited in the presence of the selective beta 2 adrenoceptor antagonist, ICI 118551 (0.1 or 10 microM) but remained unchanged when the beta 1-antagonist, atenolol (0.1 microM) was administered. 3. Despite causing an elevation in cyclic AMP, clenbuterol (up to 20 microM) failed to influence insulin secretion at any glucose concentration tested, even in the presence of a phosphodiesterase inhibitor. 4. By contrast, clenbuterol elicited a dose-dependent rise in the rate of glucagon secretion; the maximal agonist-induced increase in secretion was two fold, a response equivalent to that observed with 20 mM L-arginine. 5. ICI 118551 significantly inhibited the rise in glucagon secretion induced by clenbuterol (up to 20 microM). 6. The results indicate that the rat islet A cell population is equipped with functional beta 2-adrenoceptors which influence glucagon secretion via the second messenger cyclic AMP, but that the B cells are deficient in functional beta-receptors.
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PMID:Selective stimulation of glucagon secretion by beta 2-adrenoceptors in isolated islets of Langerhans of the rat. 171 26

The trypanocidal drug suramin is known to concentrate in lysosomes and to depress the activity of different lysosomal enzymes. We have previously shown that suramin can inhibit the activity of the islet lysosomal enzyme acid amyloglucosidase, a glycogenolytic glucose-producing hydrolase, which seems to be involved in certain insulin-secretory processes. In the present investigation we studied the pH dependency and dose-response effects of suramin on islet lysosomal enzyme activities as well as the effect of suramin treatment on the insulin-secretory response to various secretagogues in mice. It was found that two injections of suramin (0.18 mmol/kg) to normal NMRI mice at -24 and -2 h induced a moderate depression of the activities of islet acid amyloglucosidase (-22%) and acid phosphatase (-13%), whereas no effect was recorded for the activities of acid alpha-glucosidase, N-acetyl-beta-D-glucosaminidase and the non-lysosomal enzyme neutral alpha-glucosidase. Direct addition of different concentrations of suramin to islet homogenates showed that the drug was a potent inhibitor of acid amyloglucosidase and acid alpha-glucosidase at pH 4.0. At pH 5.0, suramin induced a large increase in acid alpha-glucosidase activity, whereas acid amyloglucosidase and acid phosphatase were inhibited. Suramin-injected mice showed a reduced insulin-secretory response to the sulphonylurea drug glibenclamide (-45%), whereas the insulin response to the cholinergic agonist carbachol or the phosphodiesterase inhibitor IBMX (1-isobutyl-3-methylxanthine) was unaffected. It is concluded that suramin inhibits islet acid amyloglucosidase activity in vivo and in vitro, whereas its effect on acid alpha-glucosidase is complex and pH dependent.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Effect of the lysosomotropic drug suramin on islet lysosomal enzyme activities and the insulin-secretory response induced by various secretagogues. 172 7

Regulation of blood glucose homeostasis is complex. Its major hormonal regulators include insulin, glucagon and somatostatin from the endocrine pancreas. Secretion of these hormones is controlled predominantly by the supply of nutrients in the circulation but also by nerve signals and other peptides. Thus, it is likely that peptides, released from cells of the gut or endocrine pancreas or from peptidergic nerves, affect glucose homeostasis by modulating the secretion of insulin, glucagon and somatostatin. When searching for novel gut peptides with such effects, diazepam binding inhibitor (DBI) was isolated from the porcine small intestine. By immunocytochemistry, DBI has been demonstrated to occur not only in the gut but also in endocrine cells of the pancreatic islets, namely in the somatostatin-producing D-cells in pig and man, and in the glucagon-producing A-cells in rat. Porcine DBI (pDBI; 10(-8)-10(-7) M) has been shown to suppress glucose-stimulated release of insulin from both isolated islets and perfused pancreas of the rat. Furthermore, secretion of insulin stimulated by either the sulfonylurea glibenclamide or the phosphodiesterase inhibitor 3-isobutyl-1-methylxanthine (IBMX), was inhibited by the peptide. In contrast, arginine-induced release of insulin was unaffected by pDBI. Moreover, pDBI decreased arginine-induced release of glucagon from the perfused rat pancreas, whereas release of somatostatin was unchanged. Notably, rat DBI, structurally identical with rat acyl-CoA-binding protein, has also been demonstrated to inhibit glucose-stimulated release of insulin in the rat, both in vivo and in vitro. Long-term exposure of cultured fetal rat islets to pDBI (10(-8) M) significantly decreased the synthesis of DNA in islet cells.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Diazepam binding inhibitor and the endocrine pancreas. 178 37

A method for product analysis that eliminates a problematic step in the radiometric sucrose-phosphate synthase assay is described. The method uses chromatography on a boronate-derivatized high-performance liquid chromatography column to separate the labeled product, [14C]sucrose phosphate, from unreacted uridine 5'-diphosphate-[14C]glucose (UDP-Glc). Direct separation of these compounds eliminates the need for treatment of the reaction mixtures with alkaline phosphatase, thereby avoiding the problem of high background caused by contaminating phosphodiesterase activity in alkaline phosphatase preparations. The method presented in this paper can be applied to many UDP-Glc requiring enzymes; here we show its use for determining the activities of sucrose-phosphate synthase, sucrose synthase, and uridine diphosphate-glucose pyrophosphorylase in plant extracts.
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PMID:A high-performance liquid chromatography-based radiometric assay for sucrose-phosphate synthase and other UDP-glucose requiring enzymes. 183 Jul 27

Enoximone, a new phosphodiesterase-inhibitor with positive inotropic and vasodilating activities is available for intravenous use in patients with severe heart failure. A review of the current knowledge regarding the adverse effects of this substance reveals that they are characterized by cardiovascular, central nervous, and gastrointestinal side effects. Adverse effects occurred in 20% of patients and were mostly due to the pharmacological properties of enoximone. Cardiovascular side effects (10%) were the most frequent; ventricular and supraventricular arrhythmias were most common. Two to three percent of the patients experienced hypotension due to the vasodilator activity of enoximone. Headache, insomnia, and anxiety were the most frequent adverse effects on the central nervous system. Three percent of the patients treated experienced vomiting, nausea, abdominal pain, and diarrhea. An increase of liver enzymes and serum glucose could be observed, mostly in patients with previous liver disease or diabetes. Pharmacokinetic drug interactions are not known; possible pharmacodynamic interactions result from the pharmacological properties of the drugs. Intravenous therapy with enoximone causes a few serious side effects that can only be controlled by careful observation of the patients treated.
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PMID:[Tolerance of enoximone in patients with heart failure]. 183 4


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