EC:3.1.4.1 - FACTA Search

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)

Daily intraperitoneal injection of cadmium chloride (0.25 or 1 mg/kg) for 21 or 45 days into rats significantly stimulated the activities of hepatic pyruvate carboxylase, phosphoenolpyruvate carboxykinase, fructose-1, 6-diphosphatase, and glucose-6-phosphatase, increased the concentrations of glucose and urea in the blood, and decreased the levels of glycogen in the liver. Whereas chronic cadmium treatment failed to alter adenosine-3',5'-monophosphate phosphodiesterase (phosphodiesterase) activity, the endogenous levels of cyclic AMP (cAMP) and the activity of basal- and fluoride-stimulated forms of hepatic adenylate cyclase (AC) were markedly increased in cadmium-injected animals. Treatment with the higher dose (1.0 mg/kg) of cadmium chloride for 45 days produced greater metabolic alterations in hepatic tissue than those seen with the lower dose (0.25 mg/kg) given for a shorter period of time (21 days). Discontinuation of cadmium administration for 14 days in rats previously injected with cadmium chloride (1 mg/kg per day) for 21 days, failed to reverse the observed changes in hepatic cAMP or carbohydrate metabolism. A similar persistence of metabolic alterations was noted in rats treated with cadmium (1 mg/kg per day) for 45 days and subsequently maintained without additional treatment for 28 days. Administration of an acute dose of cadmium chloride (60 mg/kg) decreased hepatic phosphodiesterase activity and glycogen content 1 h after the injection. In addition, acute cadmium exposure increased blood glucose, serum urea, and hepatic cAMP levels, and produced an augmentation of basal- and fluoride-activated AC. However, the activities of various hepatic gluconeogenic enzymes remained unaffected in animals given an acute dose of cadmium chloride (60 mg/kg). Data provide evidence that suggests that the gluconeogenic potential of liver is markedly enhanced following chronic exposure to cadmium and that the cadmium-induced changes in carbohydrate metabolism may be associated with an enhanced synthesis of cAMP. In addition, the present study shows that the cadmium-induced metabolic alterations persist even after the cessation of cadmium treatment for a period of 28 days.
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PMID:Response of hepatic carbohydrate and cyclic AMP metabolism to cadmium treatment in rats. 16 49

A vasopressin resistant urinary concentrating defect has been described in patients receiving lithium salt for affective disorders. For the pathogenic mechanism of the concentrating defect it has been postulated that lithium inhibits the vasopressin-dependent cyclic AMP system. However, the results of indirect studies on the lithium effect are equivocal. Therefore, the effect of lithium specifically on the vasopressin-dependent cyclic AMP system was investigated in rat renal medulla. The increase of cyclic AMP concentration by vasopressin was inhibited by lithium. But lithium had no effect on the PTH-dependent cyclic AMP concentration in renal cortical slices. Regardless of magnesium concentrations from 0-10 mM in the incubation media, 10 mM lithium had no moeasurable effect on the vasopressin-dependent adenylate cyclase of rat renal medulla. However, 10 mM lithium augmented the cyclic AMP-phosphodiesterase activity in renal medulla in the high Km system. These results suggest that lithium inhibits the vasopressin-dependent cyclic AMP concentration in renal medulla via the augmentation of its catabolism, rather than via the inhibition of cyclic AMP generation.
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PMID:Effects of lithium on vasopressin-dependent cyclic AMP in rat renal medulla. 16 28

Prostaglandin E 9-ketoreductase was purified from chicken heart by ammonium sulfate fractionation, and DEAE-Sephadex, hydroxylapatite and phosphocellulose chromatography. Two peaks of activity were resolved during the phosphocellulose chromatographic step. Both peaks were stimulated by a substance that was not bound to the phosphocellulose column. This stimulatory substance was destroyed by treatment with phosphodiesterase and 0.1 M NaOH. It was heat-stable (100 degrees, 2 min), nondialyzable, and resistant to treatment with pronase, ribonuclease, and deoxyribonuclease; but it was dialyzable after heating or digestion with pronase. Sodium pyrophosphate also enhanced the activities of the prostaglandin E 9-ketoreductases as did angiotensin I; but not angiotensin II. In the presence of 3':5'-cyclic AMP, AMP, or several other ribonucleotides, the enhancing effects of the natural stimulatory substance, sodium pyrophosphate or angiotensin I were blocked, but these ribonucleotides themselves had little effect on the enzymes activity. The substrate specificities of the two prostaglandin E 9-ketoreductases were also studied. Both the 9-keto group and the 15-keto group of 15-ketoprostaglandin F2 alpha could be converted to the corresponding hydroxyl group; the 15-keto group was reduced faster than the 9-keto group. Prostaglandin D2, a prostaglandin with a 9-hydroxyl and an 11-keto group, could not be converted to prostaglandin F2 alpha nor could cyclohexanone be converted to cyclohexanol by the prostaglandin E 9-ketoreductase.
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PMID:Purification and regulatory properties of chicken heart prostaglandin E 9-ketoreductase. 16 95

N-6,O-2'-dibutyryl adenosine 3',5'-monophosphate kills cultured mouse lymphosarcoma cells, but not resistant mutants derived by a single-step clonal selection. Resistant clones lack the cyclic AMP binding proteins present in wild type, cyclic AMP sensitive clones. Both endogenous cyclic AMP, accumulated in response to isoproterenol or cholera toxin, and exogenous dibutyryl cyclic AMP induce cyclic AMP phosphodiesterase, slow growth, and eventually kill wild type cells. In the resistant mutants, however, the endogenous and exogenous cyclic nucleotides appear to be completely inactive. These results indicate that an intracellular receptor for cyclic AMP, previously shown to be associated with a cyclic AMP-dependent protein kinase, mediates cyclic AMP's regulation of growth and phosphodiesterase synthesis.
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PMID:Somatic genetic analysis of cyclic AMP action: characterization of unresponsive mutants. 16 37

Methylxanthines, being potent phosphodiesterase inhibitors, produce increased intestinal cyclic AMP levels and would be predicted to produce increased net intestinal fluid secretion. Their effect when presented to the intestinal lumen, which would be analogous to human ingestion, had not been previously determined. Isolated loops of rat jejunum were perfused with solutions of caffeine and theophylline in vivo. There was a decrease in net fluid absorption in both neonatal and mature animals exposed to theophylline. Mature animals exposed to caffeine developed a prompt secretory response, comparable to thax induced by cholera toxin. The data indicate that methylxanthines are potent intestinal secretagogues when administered intraluminally and suggest that secretory stimulation could be important in the gastrointestinal symptomatology elicited in man by these compounds.
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PMID:Methylxanthine induced small intestinal secretion. 16 15

Ethanol and other alcohols stimulate adenylate cyclase activity in various tissues and potentiate its stimulation by some hormones. This effect, however, usually requires a high alcohol concentration. In some cases, an unknown substance, different from cyclic AMP, was formed from ATP in the presence of an alcohol and mimicked stimulation of adenylate cyclase. Ethanol inhibits phosphodiesterase activity in some tissues. In the brain, only the low affinity enzyme of pons-medulla region is inhibited. ATP levels and ATPase activities are affected by ethanol treatment and this can lead to secondary changes of the cyclic AMP levels. Cyclic AMP levels in the brain and liver are decreased by acute ethanol administration while levels in other organs are unchanged. High doses of ethanol inhibit the postdecapitation-induced rise of cyclic AMP level in the brain while low ethanol doses potentiate the postdecapitation rise of cyclic AMP in the lower brain stem. Chronic ethanol administration increases basal adenylate cyclase activity and cyclic AMP levels, and decreases stimulation of adenylate cyclase by norepinephrine in the brain. In contrast, the stimulation of cyclic AMP formation by norepinephrine and other biogenic amines is increased in the brain of ethanol-withdrawn animals. Chronic administration of ethanol affects also cyclic AMP levels and cyclic AMP formation in some peripheral organs. Cyclic AMP might be involved in ethanol-induced fatty liver, since it activates hepatic lipase and might also participate in the fatty acid oxidation.
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PMID:Interactions of ethanol with cyclic AMP. 16 56

In potassium depletion, a possible alteration of the proximal tubular response to parathyroid hormone (PTH) was evaluated in rat kidney. 1) There were impairments of both phosphaturic and urinary cyclic AMP responses to PTH. The site of the impairment was further investigated by studying the PTH-dependent cycle AMP system in renal cortex. 2) There was a lesser increase of cyclic AMP concentration by PTH in potassium-depleted slices, indicating the lesser urinary cyclic AMP was due to the specific impairment of PTH-dependent cyclic AMP in the kidney. 3). The activation of adenylate cyclase by PTH was impaired , but phosphodiesterase activity was not affected by potassium depletion, indicating the impairment of cyclic AMP generation was due to inhibition of adenylate cyclase. 4) The phosphaturic response to dibutyryl cyclic AMP infusion was also significantly less in the potassium-depleted animals, indicating the step subsquent to the cyclic AMP generation is also impaired. All above results indicate that, in potassium depletion, the renal response to PTH is impaired, and the impairment is both within the step of cyclic AMP generation and after the cyclic AMP generation.
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PMID:Impaired renal response to parathyroid hormone in potassium depletion. 16 90

The c-AMP phosphodiesterase inhibiting properties of flavoxate and of its main metabolite i.e. 3-methylflavone-8-carboxylic acid (MFCA), were assayed in vitro and compared to those of theophylline. Flavoxate and MFCA are competitive phosphodiesterase inhibitors, and are 21 and respectively 5 times more potent than theophylline. The smooth muscle relaxing activity of flavoxate possibly relies on this enzymatic mechanism.
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PMID:Flavoxate, a potent phosphodiesterase inhibitor. 16 67

1. Supernatant fluids from rat cerebral cortex, cerebellum, kidney, heart and liver contained more phosphodiesterase activity hydrolysing cyclic GMP than that hydrolysing cyclic AMP when assayed with sub-saturating concentrations of substrate. 2. These activities were resolved into several fractions by Sephadex G-200 gel filtration; no two tissues had similar activity profiles. 3. With every tissue examined, a fraction (fraction II) with a molecular weight of about 150,000 was obtained which hydrolysed cyclic GMP preferentially at sub-saturating substrate concentrations in the presence of micromolar concentration of Ca2+, millimolar concentration of Mg2+ and a protein activator. 4. The activity of fraction II accounted for about 60 percent in liver, more than 80 percent in heart and cerebellum, and almost 100 percent in cerebral cortex of the total activity for cyclic GMP hydrolysis, calculated from the activity profiles. 5. Km values of fraction II samples from kidney, heart and liver for cyclic GMP were 1.3, 1.7 and 5 muM respectively. 6. 3-Isobutyl-1-methylxanthine inhibited hydrolysis of cyclic GMP by fraction II with an I50 value of 3muM for heart and liver and 50 muM for cerebrum. 7. The activator protein, with an estimated molecular weight of about 30,000 was isolated from all the tissues listed in 1.8. The concentrations of activator protein and of the isolated enzyme, fraction II, did not correspond exactly.
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PMID:Multiple cyclic nucleotide phosphodiesterase activities from rat tissues and occurrence of a calcium-plus-magnesium-ion-dependent phosphodiesterase and its protein activator. 16 10

An isoelectric focusing technique was used to isolate multiple forms of cyclic nucleotide phosphodiesterase from a 105 000 times g soluble supernatant fraction of sonicated rat cerebrum. These separated peaks of activity had iso-electric points of 5.1, 5.6, 6.0, 6.6, 8.0, and 9.0. The activities were not stimulated by an endogenous activator of the enzyme but were inhibited by EGTA treatment. However, activator-sensitive forms of the enzyme could be separated from brain if the preparation of rat cerebrum was dialyzed against an EGTA containing buffer prior to electrofocusing. The procedure was also used to isolate a column fraction that stimulated maximum velocities of cyclic AMP and cyclic GMP hydrolysis. This fraction was itself devoid of phosphodiesterase activity and had an isoelectric point of 4.7.
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PMID:Isolation of an activator of multiple forms of cyclic nucleotides phosphodiesterase of rat cerebrum by isoelectric focusing. 16 32

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