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)

It has been demonstrated previously that nontransformed C3H/10T1/2CL8 mouse embryo fibroblasts (10T1/2) can induce a state of reversible growth inhibition in cocultured malignantly transformed mouse fibroblasts and that this inhibition is modulated by serum concentration. The present study suggests that cyclic nucleotides may be implicated in this intercellular communication. The phosphodiesterase inhibitors theophylline, caffeine, and 3-isobutyl-1-methylxanthine (IBX) at concentrations of 10(-3) M, maintained continuously, were all found to inhibit the expression of 3-methylcholanthrene-induced malignant transformation when added 7 days after removal of carcinogen. IBX was the most potent, causing 100% inhibition at 10(-4) M and 70% inhibition at 10(-5) M. This inhibition was partially reversible in the former case and completely reversible in the latter case by removal of drug. Complete inhibition by 10(-4) M IBX was still observed when treatment was delayed 21 days postcarcinogen. In reconstruction experiments, utilizing confluent monolayers of 10T1/2 cells overlaid with transformed cells, IBX caused a dose-dependent inhibition of colony size of the transformed cells. Adenosine cyclic 2':3'-monophosphoric acid (cAMP) and N6,O2'-dibutyryladenosine cyclic 3':5'-monophophoric acid potentiated this response. The presence of non-transformed 10T1/2 cells was required for this effect, since a concentration of IBX (10(-4) M) inhibitory for the growth of transformed cells in mixed cultures was without effect on the growth rate, plating efficiency, or saturation density of pure cultures of 10T1/2 cells or of their transformed counterparts. Conditioned medium removed from IBX-treated 10T1/2 cells was not growth inhibitory for transformed cells, indicating a requirement for cell-cell contact. IBX caused a dose-dependent increase in intracellular cAMP in confluent 10T1/2 cells and a more pronounced increase in cAMP concentration in the culture medium of these cells. The dose-response effects of IBX on growth inhibition of malignant cells in mixed cultures appear to correlate well with its ability to elevate cAMP levels. Thus, IBX increased the capacity of 10T1/2 cells to cause reversible growth arrest of transformed cells and appears to act in a manner analogous to the previously reported effects of serum.
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PMID:Modulation of cellular interactions between C3H/10T1/2 cells and their transformed counterparts by phosphodiesterase inhibitors. 8 99

The effect of adenosine on the mouse thymocyte adenylate cyclase-adenosine 3':5'-monophosphate (cyclic AMP) system was examined. Adenosine, like prostaglandin E1, can cause 5-fold or greater increases in thymocyte cyclic AMP content in the presence but not in the absence of certain cyclic phosphodiesterase inhibitors. Two non-methylxanthine inhibitors potentiated the prostaglandin E1 and adenosine responses, while methylxanthines selectively inhibited the adenosine response. Adenosine increased cyclic AMP content significantly within 1 min and was maximal by 10 to 20 min with approx. 2 and 10 muM adenosine being minimal and half-maximal effective doses, respectively. Combinations of prostaglandin E1, isoproterenol and adenosine were near additive and not synergistic. Of the adenosine analogues tested, only 2-chloro- and 2-fluoroadenosine significantly increased cyclic AMP. Thymocytes prelabeled with [14C]adenine exhibited dramatic increases in cyclic [14C]AMP 10 min after addition of adenosine or prostaglandin E1 which corresponded to simultaneously determined increases in total cyclic AMP. Using [14C]adenosine, the percent of total cyclic AMP increase due to adenosine was only 16%. Adenosine was also shown to elicit a 40% increase in particulate thymocyte adenylate cyclase activity. Therefore, the increased content of cyclic AMP seen in mouse thymocytes after incubation with adenosine was due primarily to stimulation of adenylate cyclase and only partially to conversion of adenosine to cyclic AMP. The increased cellular content of cyclic AMP may be, in part, responsible for various immunosuppressive effects of adenosine.
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PMID:Formation of adenosine 3',5'-monophosphate from adenosine in mouse thymocytes. 17 Sep 74

Adenosine rapidly stimulated adenylate cyclase activity but did not modify cyclic AMP degradation when added to a particulate fraction prepared from isolated bone cells. The effect of adenosine was one-half maximal at 5-10 micronM, and was not mimicked by 5' AMP, inosine, guanosine, uridine, adenine, or ribose. Basal and adenosine-stimulated adenylate cyclase activites were directly proportional to the concentration of particulate protein in the assay system. Theophylline decreased the degree to which adenosine stimulated adenylate cyclase activity, whereas another phosphodiesterase inhibitor, RO-20-1724, failed to iiinfluence the effect of adenosine. Adenosine itself, and not a metabolite of adenosine is the stimulator of adenylate cyclase, since it was neither phosphorylated nor deaminated appreciably by the particulate fraction. The particulate fraction did not convert substrate ATP to adenosine in amounts sufficient to enhance adenylate cyclase. The stimulatory effect of adenosine was maximal at 1.2 mM Mg2+, declined with increases in the Mg2+ concentration, and was replaced by inhibition at 20 mM Mg2+. At 2.4 mM Mg2+, basal adenylate cyclase activity peaked at 1.1 mM ATP, and was inhibited by higher ATP concentrations. The magnitude of adenosine stimulation was greater at inhibitory concentrations of ATP than at concentrations which yielded maximum activity. The results suggest that the previously demonstrated ability of adenosine to increase cyclic 3'5' AMP levels in intact bone cells stems from its effect on adenylate cyclase. Adenosine may act by modifying the regulatory nfluence of free Mg2+, uncomplexed ATP, (or both), on adenylate cyclase. Theophylline appears to interfere with the action of adenosine by a mechanism which is distinct from its capacity to inhibit cyclic AMP phosphodiesterase activity. (Endocrinology 99:901,1976)
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PMID:Adenosine-mediated stimulation of bone cell adenylate cyclase activity. 18 72

When glucagon release from monolayer cultures of newborn rat pancreas was measured over four hours in media containing 2.5 mM Ca++, a significant cyclic AMP-related inhibition of release was observed. This was noted whether intracellular cyclic AMP levels were raised by the addition of exogenous cyclic AMP or dibutyryl cyclic AMP, by phosphodiesterase inhibition with theophylline, or by the stimulation of adenylate cyclase with cholera toxin. The inhibition was concentration dependent for cyclic AMP and could not be reproduced by the addition of AMP, ADP or ATP. Adenosine also inhibited glucagon release while ATP was stimulatory. From time course studies it appeared that the inhibitory effects of cyclic AMP and cholera toxin were progressive after two hours of incubation. With cholera toxin an early stimulation of glucagon release was observed. The effects of cyclic AMP and cholera toxin on arginine-stimulated glucagon release were to stimulate further the glucagon release during the first hour of the incubation. Thus, the effects of raising intracellular cyclic AMP levels were biphasic in that both an early stimulation and a late inhibition of glucagon release were observed. In examining the nature of these responses a remarkable controlling role for Ca++ was uncovered: at Ca concentrations of 0.3 mM and lower no effect of cyclic AMP on glucagon release was found. With 1 mM Ca++ in the medium cyclic AMP stimulated glucagon release early (30 min) and thereafter had no further effect. In the presence of 2.5 mM Ca++ cyclic AMP did not stimulate early but did cause the delayed inhibition of release. It is concluded that the effect of cyclic AMP on glucagon release can be either stimulatory or inhibitory depending upon the Ca++ concentration of the medium and the duration of exposure to raised cyclic AMP levels.
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PMID:Stimulatory and inhibitory effects of cyclic AMP on pancreatic glucagon release from monolayer cultures and the controlling role of calcium. 18 8

Adenosine 3':5'-monophosphate (cyclic AMP) phosphodiesterase activity of normal human peripheral blood leukocyte suspensions containing 90% lymphocytes and 10% monocytes showed anomalous kinetic behavior indicative of multiple enzyme forms. Kinetic analyses of purified lymphocyte (99%) or monocyte preparations (95%) indicated that only one type of phosphodiesterase was present in each cell type. None of the preparations contained any detectable guanosine 3':5'-monophosphate (cyclic GMP) hydrolytic activity. The lymphocyte enzyme had an apparent Km congruent to 0.4 muM for cyclic AMP and Vmax congruent to 0.5 picomoles/min/10(6) cells. These kinetic parameters were confirmed by several cell purification techniques used alone and sequentially. Sedimentation velocity analyses indicated that the higher Km monocyte enzyme had a molecular weight near 45,000 and that the lower Km lymphocyte enzyme most likely had a molecular weight near 98,000. A variety of procedures led to a loss of the higher molecular weight, high affinity enzyme leaving only the enzyme of 45,000 daltons with a much lower substrate affinity. A long term, stable human lymphoblastoid cell line had cyclic AMP phosphodiesterase activity that was similar to the lymphocyte enzyme by both physical and kinetic criteria. Lymphocyte cyclic AMP phosphodiesterase appears to be a soluble enzyme whose pH and temperature optima and cationic requirements are similar to those of other mammalian phosphodiesterases. The distinct cyclic AMP phosphodiesterase forms of these cells may possibly represent the basic, active subunit of mammalian cyclic nucleotide phosphodiesterases. We hypothesize that the extremely high affinity cyclic AMP phosphodiesterase of normal lymphocytes plays an important role in the regulation of normal function in these cells, and also in the rapid proliferative responses characteristic of the stimulated lymphocyte.
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PMID:Cyclic adenosine 3':5'-monophosphate phosphodiesterase. Distinct forms in human lymphocytes and monocytes. 18 85

Adenosine, AMP, ADP and ATP activated adenylate cyclase in pig skin (epidermis) slices resulting in the accumulation of cyclic AMP. This effect was highly potentiated by the addition of the cyclic AMP-phosphodiesterase inhibitor, papaverine. But another inhibitor, theophylline, strongly blocked the activation of adenylate cyclase by adenosine and adenine nucleotides. Theophylline apparently competed with adenosine for the cell surface receptor. Like theophylline, the addition of adenine alone caused no accumulation of cyclic AMP, but it significantly inhibited the stimulatory effect of adenosine. Guanosine, or guanine, cytidine, uridine, or thymidine nucleotides had no effect on the accumulation of cyclic AMP. Among other adenine nucleotides we tested, adenosine 5'-monophosphoramidate, but not adenosine 5'-monosulfate significantly increased cyclic AMP especially with the addition of papaverine. Neither 2'- nor 3'-adenylic acid were effective. Our data indicate that pig epidermis has four specific and independent adenylate cyclase systems for adenosine (and adenine nucleotides), histamine, epinephrine and prostaglandin E.
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PMID:Adenosine and adenine nucleotides stimulation of skin (epidermal) adenylate cyclase. 18 2

This research explored the possibility that cyclic nucleotides are part of the excitation-secretion sequence in mammalian motor nerve terminals. A series of reagents known to react with the enzymes that synthesize and degrade cyclic nucleotides or that are effectors of cyclic nucleotide actions were administered to in vivo cat soleus nerve-muscle preparations. The reagents were administered by rapid close intra-arterial injection while electrical activity in single motor axons and contractile activity of the muscle were monitored. NaF, an activator of adenylate cyclase, evoked bursts of action potentials in unstimulated axons and caused stimulus-bound repetitive activity in stimulated axons. It evoked vigorous asynchronous activity in the muscle and potentiated the force of muscle contraction. These effects are identical with those of cyclic N6-2'-O-dibutyryl adenosine 3':5'-monophosphate (dibutyryl cAMP). Prostaglandin E1 produced similar effects. Dithiobisnitrobenzoic acid and alloxan, inhibitors of adenylate cyclase, impaired neuromuscular transmission and prevented the effects of NaF, but they did not change the responses to dibutyryl cAMP. Theophylline, an inhibitor of phosphodiesterase, caused axons to respond repetitively to stimulation, but this activity had a different pattern from that produced by dibutyryl cAMP or NaF. Pretreatment with theophylline enhanced the responses to dibutyryl cAMP and NaF. Imidazole, an activator of phosphodiesterase, impaired neuromuscular transmission and prevented the effects of dibutyryl cAMP and NaF. Adenosine, an inhibitor of protein kinase, or verapamil, which inhibits calcium flux, impaired neuromuscular transmission and prevented the responses to dibutyryl cAMP, NaF and theophylline. These results are compatible with the hypothesis that cAMP is involved in the regulation of calcium flux and transmitter secretion in mammalian motor nerve terminals.
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PMID:A role of cyclic nucleotides in neuromuscular transmission. 18 85

Adenosine 3':5'-monophosphate (cyclic AMP), a mediator of hormone action in a variety of tissues, has been measured in its free and bound forms in intact cardiac tissue. We have used a rapid high dilution technique which involves tissue homogenization, subcellular fractionation, and separation of bound from free cyclic AMP by Millopore filtration. The precision of this method is dependent upon minimization of binding and dissociation of cyclic AMP that occur during the preparation and handling of tissue homogenates. In each experiment, a tracer of cyclic [3H]AMP prebound to isolated cardiac binding protein was freed of unbound cyclic [3H]AMP by Sephadex gel filtration and added to the tissue just prior to homogenization in cold EDTA buffer. This tracer was therefore treated identically to the sample through all subsequent dilution, fractionation, and filtration procedures, and provided an acurate internal monitor for total cyclic AMP dissociation during the course of the free-bound determination. Each tissue sample was then individually corrected for dissociation. Rapid dilution to produce a 1:1000 homogenate was found to lower endogenous cyclic AMP levels sufficiently to make binding (or rebinding) during the procedure negligible (less than 5%). Spontaneously beating rat right atria (controls) contained 5.96 +/- 0.28 pmol of cyclic AMP/mg of protein (n = 19) of which 41 and 14% were bound to soluble and particulate proteins, respectively. The remaining cyclic AMP was free. Pretreatment of the tissue with 1 muM isoproterenol (30 s at 30 degrees) increased both the bound and free forms of cyclic AMP (n = 8). While free cyclic AMP increased 420% with the catecholamine, the bound forms increased 240% (soluble) and 60% (particulate). Similar results were obtained when atria (n = 6) were treated with the phosphodiesterase inhibitor, methylisobutylxanthine (0.5 mM, 10 min at 30 degrees). When both agents were used together, cyclic AMP bound to soluble proteins was elevated 4-fold over control while free cyclic AMP increased 27-fold (n = 7), indicating saturation of the soluble sites. It could be calculated that less than one-third of these sites are occupied in the unstimulated cell. These sites may represent the R subunit of cyclic AMP-dependent protein kinase. The data suggest that half-maximal binding in vivo occurs at an intracellular free cyclic AMP concentration of about 1 muM.
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PMID:Cardiac adenosine 3':5'-monophosphate. Free and bound forms in the isolated rat atrium. 19 Feb 16

The influence of various cyclic nucleotides on in vitro haemoglobin synthesis has been examined in suspension cultures of mammalian marrow cells. Over a wide range of concentrations, dibutyryl cyclic AMP (db-cAMP) was either ineffective or inhibited haemoglobin synthesis by marrow cells from rat, mouse and guinea-pig. However, 10(-3) M db-cAMP consistently stimulated haemoglobin synthesis in cultures of human, sheep, rabbit and canine cells, with the latter being most responsive. This effect, which approached in magnitude that of erythropoietin (ESF) itself, was specific for cAMP and its mono- and dibutyryl derivatives and was not inhibited by anti-ESF. Adenosine, AMP, ADP, ATP, cGMP, db-cGMP, cCMP, cIMP and sodium butyrate were either inactive or inhibitory at similar concentrations. Enhancement of haemoglobin synthesis was also observed with the phosphodiesterase inhibitor, RO-20-1724. The susceptibility to ionizing radiation of the response to ESF and db-cAMP was marked, indicating that the increased haemoglobin synthesis in this system was proliferation dependent, although the response to db-cAMP was less radiosensitive. Studies with tritiated thymidine showed that about 50% of the cells which were responding to either db-cAMP or ESF were actively engaged in DNA synthesis. However, the physical characteristics of db-cAMP-and ESF-responsive cells were dissimilar as analysed by their velocity sedimentation properties. These studies demonstrate that cAMP has a major stimulatory effect on haemoglobin synthesis with cells from selected mammalian species with activity approaching that of ESF, but the target cells most responsive to these agents appear different. The results suggest that cyclic nucleotide-related mechanisms may modulate in vitro erythropoiesis.
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PMID:Studies of the influence of cyclic nucleotides on in vitro haemoglobin synthesis. 19 63

Mammalian erythropoiesis, as assayed by erythroid colony formation in vitro, is enhanced by cyclic adenosine nucleotides and agents which are capable of raising intracellular cyclic AMP (cAMP) levels. With canine marrow cells as target, this enhancement was shown to be specific for cAMP and its mono- and dibutyryl derivatives. Adenosine and its derivatives, such as AMP, ADP and ATP, and other cyclic nucleotides, such as cGMP, dibutyryl-cGMP, cCMP and cIMP and sodium butyrate were inactive. The phosphodiesterase inhibitor, RO-20-1724, and the adenyl cyclase stimulator, cholera enterotoxin, both markedly increased colony numbers. Studies with tritiated thymidine showed that about 50% of the cells responding to either erythropoietin (ESF) or dibutyryl cAMP (db-cAMP) were in DNA synthesis. However, by unit gravity sedimentation velocity analysis, the peak of ESF-responsive colony forming cells sedimented more rapidly (8-7 +/- 0-2 mm/hr) than the peak of db-cAMP-responsive cells (7-5 +/- 0 mm/hr). These results demonstrate that adenyl cyclase-linked mechanisms influence in vitro erythropoietic proliferation and suggest that other hormones and simple molecules might interact with surface receptors and thus modulate the action of ESF at the cellular level.
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PMID:Modulation of in vitro erythropoiesis: enhancement of erythroid colony growth by cyclic nucleotides. 19 98

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