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)

beta-Cell-rich pancreatic islets were microdissected from ob/ob-mice and used for studies of 45Ca uptake and washout. Irrespective of whether the experiments were performed at 21 or 37 degrees C both glucose and phosphate stimulated the net uptake of lanthanum-nondisplaceable 45Ca. The stimulatory effect of phosphate was additive to that produced by glucose. 45Ca incorporated in response to phosphate differed from that taken up in the presence of 20 mM glucose in being easily washed out although it was not affected by the glucose concentration of the washing medium. The efflux of 45Ca was reduced after introducing phosphate into a medium used to perifuse islets which had accumulated 45Ca in response to 20 mM glucose. This suggests that the outward calcium transport can be influenced also by intracellular trapping of the cation. The glucose-stimulated insulin release was inhibited by phosphate; an effect reversed by the phosphodiesterase inhibitor 3-isobutyl-1-methylxanthine. It is concluded that a common effect of glucose and phosphate is to trap calcium in the pancreatic beta-cells but that there are fundamental differences between their effects on intracellular distribution of calcium and on insulin release.
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PMID:Calcium and pancreatic beta-cell function. 4. Evidence that glucose and phosphate stimulate calcium-45 incorporation into different intracellular pools. 35 7

Previous findings suggest that alkaline phosphatase (Alk Pase) may be involved in phosphate transport. Since phosphate reabsorption is enhanced in the kidney and duodenum of animals stabilized on a low-phosphorus diet (LPD), Alk Pase was measured in the kidney, small intestine, and other tissues in LPD rats. In particulate fractions from the renal cortex, intestine, renal medulla, liver, and heart ventricle from LPD rats the activity of Alk Pase was significantly increased but the activities of other plasma membrane enzymes were not different between control and LPD groups. The increased Alk Pase in the renal cortex was localized to the brush border of the proximal tubule histochemically and by measurement of Alk Pase in brush-border preparations. Also in the renal cortex, typical enzymes associated with mitochondria, lysosomes, and cytosol were unchanged with the exception of cytosolic adenosine 3',5' cyclic-monophosphate phosphodiesterase, which was increased in LPD rats. Alk Pase in the renal cortex and intestine may play a role in the enhanced phosphate reabsorption in LPD animals.
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PMID:Alkaline phosphatase in adaptation to low dietary phosphate intake. 49 49

An acetylcholine-mediated myopathy has been produced in the soleus muscle of the rat by the daily injection of imidazole, a compound that accelerates the metabolism of adenosine 3':5' cyclic phosphate by activating the enzyme phosphodiesterase. The imidazole-treated muscles were found to have a lowered resting membrane potential. This study suggests that a decrease in resting membrane potential may make skeletal muscle more vulnerable to necrosis by acetylcholine released during normal activity.
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PMID:Imidazole myopathy. Production of the myopathy and its dependence on acetylcholine. 55 55

A mouse lymphosarcoma (S49) cell line that is growth-inhibited by agents that elevate intracellular concentrations of adenosine 3':5'-cyclic phosphate was used in a sensitive and convenient colorimetric assay for cholera toxin. S49 cells suspended in Dulbecco's modified Eagle's minimal essential medium containing 10(-5)--10(-6) M RO 20-1724, an analogue of 4-(3,4-demethoxybenzyl)-2-imidazolidinone and a phosphodiesterase inhibitor, were growth-inhibited by subnanogram concentrations of cholera toxin. Effects of toxin were detected by the absence of a yellow pH change (phenol red indicator) which normally accompanies the production of acid metabolites by lymphoma cells. An assay using S49 cells grown in microtiter plates, which is capable of detecting 10 pg of cholera toxin or 0.01 units of cholera antitoxin, was used in screening for nontoxinogenic mutants of Vibrio cholerae strain 569B. The properties of two mutants of the Tox--phenotype, which lacked biologically and immunologically detectable toxin products, are described.
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PMID:Isolation of nontoxinogenic mutants of Vibrio cholerae in a colorimetric assay for cholera toxin using the S49 mouse lymphosarcoma cell line. 58 Jul 85

1. An endonuclease has been isolated from the nuclei of rye (Secale cereale L) germ and partially purified. The enzyme shows optimum activity over the pH range 5.4-7.4 towards both DNA and RNA, and has no phosphomonoesterase or phosphodiesterase activity. 2. DNA is degraded by the rye germ nuclease to oligonucleotides of similar size, and RNA to oligonucleotides and mononucleotides containing a C-terminal 5'-phosphate group. 3. The rate of hydrolysis of nuclear acids by the enzyme decreases in the following order: native DNA greater than denatured DNA greater than RNA. Synthetic polynucleotides are hydrolysed at a rate decreasing in the order: poly(A) greater than poly(U) greater than poly(C) greater than poly(G).
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PMID:Purification and some properties of a nuclease from rye germ nuclei. 61 Feb 81

A deoxyribonuclease purified Chlamydomonas reinhardii has been shown to be specific for single-stranded DNA. The enzyme is most active on thermally denatured DNA, but also degrades single-stranded termini from double-stranded DNA. The enzyme has no effect on single-stranded or double-stranded intact circular phiX174DNA, suggesting that it requires DNA termini for activity. DNA is digested progressively to oligonucleotides and then mononucleotides. The product of the reaction is nucleoside 5'-monophosphates. The enzyme has no effect on RNA, nor does it possess phosphatase or phosphodiesterase activity. No specificity was demonstrated for phosphate or hydroxyl groups at either the 5' or 3' termini of DNA. The enzyme may be able to initiate hydrolysis at either the 3' or the 5' termini, since radioactivity was released more rapidly from 5' and 3' termini than from bulk DNA. The enzyme has been tentatively named Chlamydomonas reinhardii exonuclease 1.
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PMID:A deoxyribonuclease from Chlamydomonas reinhardii. 2. Substrate specificity, mode of action and products. 88 35

Ethyl carbamate, labelled at C1 with 14C, bound in vivo to liver DNA of intact and partially hepatectomised mice. Isotope (18O) enrichment was not detected in the oxygen of liver DNA of mice injected with [18O] ethyl carbamate, C2H5--18O--CO--NH2. This suggests that it was the ethyl group and not the ethoxy group which bound to DNA. Chromatographic analysis of acid hydrolysates of liver DNA from mice treated with [1-14C] ethyl carbamate provided no evidence of alkylation or other form of binding to purine or pyrimidine bases. On relatively mild acid hydrolysis the alkyl group remained bound to the "apurinic acid" fraction, while more vigorous hydrolysis lead progressively first to its separation as highly ionisable hydrophilic non-volatile compounds and then to its loss as a volatile compound. DNAase I followed by phosphodiesterase hydrolysis also split off the 14C-containing group as a volatile compound. The volatile compound was identified as ethanol. These results suggest that the alkyl group was bound as an ester to a phosphate group in the DNA chain. Results with DNA from partially hepatectomised mice did not differ from those with DNA from intact mice.
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PMID:The binding of ethyl carbamate to DNA of mouse liver in vivo: the nature of the bound molecule and the site of binding. 95 35

The effect of introducing methyl groups into DNA substrates was studied by using the spleen exonuclease (EC 3.1.4.1), an enzyme which hydrolyses oligonucleotides in a sequential manner by splitting off 3'-phosphomononucleotides starting from the 5'-hydroxyl terminus. Analyses of oligodeoxyribonucleotide 3'-phosphate substrates after reaction in vitro with dimethyl sulphate demonstrated that the resultant methylation pattern differed from the previously found for native DNA, particularly with respect to the relative amounts of 1- and 3-methyladenine produced. Although after treatment with increasing amounts of dimethyl sulphate the substrate became progressively resistant to degradation by the exonuclease, the methylation products themselves were only partially responsible for the observed inhibition of enzyme activity. The incomplete degradation encountered was apparently due to the presence of apurinic sites, which arose as secondary lesions after the spontaneous release of the labile alkyl purines from the methylated substrate. Inhibition of enzyme activity appeared to be competitive, being characterized by constant values for apparent Vmax, and increased values for apparent Km. the interpretation of this, however, is complicated by the complex nature of the substrate, and these aspects are considered in some detail.
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PMID:Role of apurinic sites in the resistance of methylated oligodeoxyribonucleotides to degradation by spleen exonuclease. 121 80

1. A mixed membrane fraction prepared from pig platelets was subfractionated, using the "B 14" zonal rotor, into two distinct subpopulations of membrane vesicles, each associated with a different phosphodiesterase activity. 2. The lighter subfraction (MI) was enriched 7-8 fold with bis-(p-nitrophenyl) phosphate phosphodiesterase activity and the denser subfraction (MII) showed a similar degree of enrichment of 5'dTMP-p-nitrophenyl ester phosphodiesterase activity. 3. Assays for other enzyme activities revealed slight enrichement (approx. 2 fold) of acid phosphatase, 3'-dTMP-p-nitrophenyl ester phosphodiesterase and beta-glucuronidase activities in MI, and beta-galactosidase in MII. Cyclic AMP phosphodiesterase, lactate dehydrogenase and N-acetyl-beta-glucosaminidase showed negligible activity in both MI and MII, and succinate dehydrogenase activity could not be detected in either subfraction. 4. Chemical analyses of the membrane subfractions demonstrated that MI contained approx. twice as much cholesterol, phospholipid, sialic acid and hexosamine per unit weight of protein than MII. These results are consistent with our previously reported observations from surface-labelling experiments, which indicated that MI was derived principally from the platelet surface-exposed membranes and that MII was probably intracellular in origin. 5. Analysis of the membrane polypeptides by sodium dodecyl sulphate-polyacrylamide gel electrophoresis revealed the presence of 12-15 components, in each subfraction, in the mol. wt. range 12000-200000, including a prominent band of approx. mol. wt. 46000, which has beeen identified to be actin. Qualitative as well as possible quantitative differences were apparent in that MII contained three components in addition to those present in MI. 6. Analysis of the periodate-Schiff staining components by sodium dodecyl sulphate-polyacrylamide gel electrophoresis demonstrated the presence of 4 major glycoproteins in both subfractions with apparent mol. wt. ranging from approx. 95000 to 150000; in addition two minor components were also present. Further, a very fast-migrating band, which did not stain with Coomassie blue, was observed in both MI and MII and probably represents lipid material.
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PMID:Enzymatic and chemical analyses of pig platelet membrane subfractions isolated by zonal centrifugation. 127 16

In cultured rat hepatocytes, transcription of the glucokinase gene is turned on by insulin and turned off by glucagon/cAMP, the latter being the dominant effector system. It is thus possible that in the absence of hormones the gene is maintained in a repressed state by the basal level of cAMP and that insulin turns on transcription by relieving cAMP repression, for instance via activation of a cyclic-nucleotide phosphodiesterase. Three inhibitors of this class of enzymes were tested for their effect on the insulin-dependent induction of the glucokinase gene in hepatocytes. Isobutyl methylxanthine, the prototype inhibitor, abrogated the gene response to insulin, as shown by run-on transcription assay. Among the drugs investigated, Ly186126, a preferential inhibitor of type-III phosphodiesterase, proved the most potent in inhibiting insulin-induced accumulation of glucokinase mRNA. Type-III phosphodiesterase is inhibited by cGMP. Induction of glucokinase mRNA was prevented in hepatocytes challenged with insulin in presence of 8-bromoguanosine-3',5'-phosphate. These results are consistent with the involvement of type-III phosphodiesterase in transduction of the insulin signal to the glucokinase gene. However, we were unable to detect significant decreases in total cellular cAMP level or cAMP-dependent-protein-kinase ratio after the addition of insulin to hepatocytes. Many effects of glucagon are mediated via cAMP-dependent protein-kinase phosphorylation of regulatory proteins and, conversely, insulin effects are often accompanied by protein dephosphorylation. A specific inhibitor of protein phosphatases PP1 and PP2A, okadaic acid, was shown to abolish the transcriptional response of the glucokinase gene to insulin. Thus, interference of insulin with the cAMP signal transduction pathway at several steps may be a critical aspect of insulin action on hepatic glucokinase gene expression. In addition, insulin induction of glucokinase mRNA was suppressed by inhibitors of protein synthesis. The underlying mechanism was a severe inhibition of the transcriptional effect of insulin, rather than mRNA destabilization, as demonstrated by run-on transcription assays with nuclei from cycloheximide-treated or pactamycin-treated cells. Transcription of the glucokinase gene may therefore depend on de novo synthesis of the product of an early-response gene induced by insulin, or may require a short-lived trans-acting or accessory factor of transcription. Alternatively, insulin signalling may be compromised in hepatocytes by a mechanism indirectly related to the arrest of protein synthesis.
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PMID:Insulin signalling and regulation of glucokinase gene expression in cultured hepatocytes. 128 Feb 18


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