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)

1. 3'-Guanylyl-ethanol, 3'-guanylyl-propanol, and 3'-guanylyl-alpha-glycerol were synthesized by ribonuclease N1 [EC 3.1.4.8] using guanosine 2',3'-cyclic phosphate as a phosphate donor and various alcohols as phosphate acceptors. The yields of these phosphodiesters were 15%, 13.5%, 38.2%, respectively, with respect to phosphate donor under the optimum conditions. No phosphodiester was synthesized when 2-propanol was used as a phosphate acceptor. Thus, primary alcoholic hydroxyl groups may be regarded as the preferred phosphate acceptor. 2. 3'-Guanylyl-glucose and 3'-guanylyl-ribose were synthesized using glucose and ribose as phosphate acceptors. Under the optimum conditions, the yields of guanylyl-glucose amounted to 52.0%, while that of guanylyl-ribose was much lower. The guanylyl-glucose can be regarded as 3'-guanylyl-6-glucopyranose, based on the results of periodate oxidation. 3. Neither hydroxyamino acids (serine and threonine) nor N-acetylserinamide could be phosphorylated under the conditions used for the above phosphorylations. 4. 3'-Guanylyl-glycerol obtained as above was hydrolyzed by snake venon phosphodiesterase to produce glycerol 3-phosphate. The latter consisted of L-glycerol 3-phosphate (ca 17%) and the D-isomer (ca. 83%). Ribonuclease N1 thus catalyzes an asymmetric synthesis.
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PMID:Synthesis of various phosphodiesters and phosphomonoesters with ribonuclease N. 18 80

1. Lipolysis by isolated white adipocytes from hamsters, as measured by glycerol production, was stimulated by corticotropin, isopropylnorepinephrine (INE), norepinephrine, or epinephrine (EPI), in a dose-dependent fashion. 2. Lipolysis was stimulated by five inhibitors of cyclic 3',5'-adenosine monophosphate phosphodiesterase: caffeine, theophylline, 1-methyl-3-isobutyl xanthine, 1-ethyl-4-(isopropylidenehydrazine)-1H-pyrazolo-(3,4,-b)-pyridine-5-carboxylic acid ethyl ester (SQ 20009), and 4-(3,4-dimethoxybenzyl)-2-imidazolidinone (Ro 7-2956). Caffeine-stimulated lipolysis consistently attained higher rates than did hormone-stimulated lipolysis. However, when cells were stimulated by both caffeine and a hormone, lipolytic rates were consistently lower than those attained under the influence of caffeine alone. 3. Isolated white adipocytes from hamsters were sensitive to both alpha- and beta-adrenergic antagonists. The beta-adrenergic antagonist propranolol could completely inhibit norepinephrine-stimulated glycerol production. The alpha-adrenergic antagonist phentolamine, on the other hand, had a biphasic effect on the cells. At 5-10(-7) M or 5-10(-6) M, phentolamine enhanced norepinephrine-stimulated lipolysis, while concentrations higher than 5-10(-5) M caused inhibition. 4. The effects of two different concentrations of six antilipolytic agents, prostaglandin E1, nicotinic acid, phenylisopropyladenosine, 5-methylpyrazole-3-carboxylic acid, adenosine and insulin, were measured. With the exception of insulin, all of these agents showed much more potent inhibition of caffeine-stimulated lipolysis than of hormone-stimulated lipolysis. Insulin, in contrast, showed only modest inhibition of hormone-stimulated lipolysis and virtually no inhibition of caffeine-stimulated lipolysis.
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PMID:Characterization of lipolytic responses of isolated white adipocytes from hamsters. 18 45

1. A phosphodiesterase, active at an alkaline pH, is present in the outer cortex of rat kidney and hydrolyses glycerylphosphorylinositol into glycerol and phosphorylinositol. Some inositol cyclic phosphate can also be formed indicating that the enzyme can act as a cyclizing phosphotransferase. 2. The enzyme is stimulated by Ca2+(2-3mM) whereas Mg2+ is inhibitory. 3. The activity is markedly stimulated by low concentrations of thiol reagents (1-2mM) such as cysteine or dithiothreitol. 4. The properties of the enzyme have been compared with glycerylphosphinicocholine diesterase (EC 3.1.4.2), which is also present in the isolated enzyme complex, and it is concluded that the enzymes have separate identities.
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PMID:A phosphodiesterase in rat kidney cortex that hydrolyses glycerylphosphorylinositol. 19 16

We have found evidence that transcription of the galactokinase (ATP:D-galactose 1-phosphotransferase; EC 2.7.1.6) gene is inhibited, in the animal-like protozoan Tetrahymena, by dibutyryl adenosine 3':5'-cyclic monophosphate, glucose, and epinephrine. The specific activities of galactokinase in Tetrahymena cells grown in defined media with galactose or glycerol as the principal carbon source are equivalent; the specific activity in glucose minimal medium is [unk] the value. Thus, while there seems to be no specific induction of the enzyme by the substrate, galactose, there is a strong "repression" by glucose. This repression by glucose is mimicked, in glycerol-grown cells, by the addition of millimolar amounts of dibutyryl adenosine 3':5'-cyclic monophosphate or phosphodiesterase inhibitors such as caffeine and theophylline. When glucose-grown cells are washed and resuspended in carbohydrate-free medium, the galactokinase specific activity increases by as much as 10-fold within 12 hr. This increase is blocked by dibutyryl adenosine 3':5'-cyclic monophosphate and by epinephrine (synthesized by Tetrahymena, and previously shown to activate a membrane-bound adenylate cyclase in extracts of this organism), as well as by inhibitors of mRNA synthesis, maturation, and translation. Our results suggest that glucose and epinephrine can regulate transcription of the galactokinase gene by modulation of cyclic nucleotide levels. The observation that the nonmetabolized sugars 2-deoxyglucose, 2-deoxygalactose, and alpha-methylglucoside are as effective as glucose suggests that the sugar itself, or an immediate metabolite such as the 1-phosphate derivative, may be the effector.
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PMID:Genetic regulation of galactokinase in Tetrahymena by cyclic AMP glucose, and epinephrine. 20 71

The relationship between mean fat cell size, maximal tissue cyclic AMP concentration, and glycerol release was investigated in human subcutaneous adipose tissue incubated in vitro with or without isoprenaline or noradrenaline added at maximal effective concentrations. Basal and stimulated glycerol release and cyclic AMP concentration were each related to the fat cell size. Whether or not the phosphodiesterase inhibitor theophylline was present in the incubation system, basal and noradrenaline-induced cyclic AMP levels were significantly correlated with the fat cell size. The noradrenaline-induced cyclic AMP levels resulted in twice as rapid glycerol release as could be expected from the basal ratio between glycerol release and cyclic AMP. Furthermore, both basal and noradrenaline-induced glycerol release in relation to the cyclic AMP levels were more rapid in enlarge fat cells. It is concluded that basal and catecholamine-induced production of cyclic AMP is related to the fat cell size and that a quantitative relationship exists between rate of lipolysis and maximal tissue levels of cyclic AMP in human adipose tissue. Basal and noradrenaline-induced lipolysis are probably regulated by different mechanisms and the lipolytic sensitivity to cyclic AMP seems increased in large fat cells.
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PMID:Relationship between the tissue level of cyclic AMP and the fat cell size of human adipose tissue. 20 14

The Ca2+-dependent regulator protein of cyclic nucleotide phosphodiesterase was labeled with 125I to the extent of 1 mol of monoiodotyrosine per mol. The iodinated protein showed a small decrease in affinity for phosphodiesterase but gave the same maximal level of activation of the enzyme as did the unmodified regulator protein. Iodinated regulator protein formed complexes with both highly purified cyclic nucleotide phosphodiesterase and phosphodiesterase inhibitory protein in the presence but not in the absence of Ca2+ as demonstrated by ultracentrifugation in glycerol gradients. Cross-linking experiments indicate that the Ca2+-dependent regulator protein interacts with the large subunit of the inhibitory protein.
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PMID:Interaction of 125I-labeled Ca2+-dependent regulator protein with cyclic nucleotide phosphodiesterase and its inhibitory protein. 21 Jan 77

1. A soluble phosphodiesterase is present in mammalian tissues which rapidly hydrolyses enantiomorphs of rac-glycerol 1:2-cyclic phosphate, producing rac-glycerol 1-phosphate. 2. The enzyme has been purified up to 1700-fold by a combination of acetone precipitation and chromatography on DEAE-Sephadex A-50, Sephadex G-150 and hydroxyapatite. 3. The Km with glycerol cyclic phosphate as substrate is 7.2 mM, and the pH optimum broad (6.9--7.5). The molecular weight (by gel filtration) of the enzyme is approx. 35500. 4. The phosphodiesterase has no requirement for Ca2+ or Mg2+, but is stimulated by reducing agents (cysteine, dithiothreitol) and Fe2+. 5. The purified phosphodiesterase preparation also hydrolysed 3':5'-cyclic AMP, producing 5'-AMP exclusively, and 2':3'-cyclic AMP, forming 3'-AMP and 2'-AMP in the ratio 7:3. Bis-(p-nitrophenyl) phosphate was slowly hydrolysed, but other phosphodiesters tested were not attacked. 6. The phosphodiesterase is inhibited by theophylline and o-phenanthroline. It is inhibited by Pi and by a variety of phosphomonoesters, of which certain aromatic primary phosphates are particularly effective.
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PMID:rac-Glycerol 1:2-cyclic phosphate 2-phosphodiesterase, a new soluble phosphodiesterase of mammalian tissues. 21 14

A novel phosphodiesterase has been found in commercially available extracts of Aspergillus niger and has been partially purified by fractionation with acetone and chromatography on carboxymethylcellulose. The enzyme attacks glycerophosphodiester bonds with the liberation of free glycerol only. The synthetic substrate glucose 6-phospho-sn-1'(3')-glycerol is hydrolyzed with production of equivalent amounts of free glycerol and glucose 6-phosphate. Similarly, the enzymic hydrolysis of sn-glycero-3-phosphocholine liberates glycerol and phosphocholine. The hydrophilic head groups of membrane phospholipids of Escherichia coli are continuously transferred to a closely related family of oligosaccharides ("membrane-derived oligosaccharides") containing glucose as the sole sugar (van Golde, L. M. G., Schulman, H., and Kennedy, E. P. (1973) Proc. Natl. Acad. Sci. U. S. A. 70, 1368--1372). Oligosaccharide A-2 contains sn-1-glycerophosphate residues (derived from phosphatidylglycerol) in phosphodiester linkage. Treatment of this oligosaccharide with the phosphodiesterase led to the liberation of nearly all of the glycerol as free glycerol. Subsequent partial acid hydrolysis of the enzyme-treated oligosaccharide led to the recovery of glucose 6-phosphate in almost quantitative yield. The sn-1-glycerophosphate residues are therefore linked to position 6 of glucose units of the oligosaccharide. The activity of the enzyme is not restricted to glycerophosphodiesterases since it will hydrolyze phosphodiesters containing other polyols such as the synthetically prepared glucose 6-phospho-DL-1'(2'-hydroxy-3'-ethoxy)propane.
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PMID:A novel phosphodiesterase from Aspergillus niger and its application to the study of membrane-derived oligosaccharides and other glycerol-containing biopolymers. 21 32

Adipocytes isolated from normal, hypothyroid, and hyperthyroid rats were characterized with respect to their lipolytic activity (assessed by glycerol release) and beta-adrenergic receptors (assessed by binding of (--) [3H]alprenolol). Fat cells from hypo- and hyperthyroid rats showed the same affinity (K = 1.4 X 10(10) M(-1) and binding capacity (N = 1.21 X 10(-13) mol/microgram DNA) toward alprenolol as those from normal animals. Adipocytes from hypothyroid rats were unresponsive to epinephrine in a concentration range of 0.1-10 micron, with moderate responses at higher concentrations; injection of T3 in hypothyroid rats restored lipolytic responsiveness of the adipocytes to normal levels. Quabain (1 mM) inhibited lipolytic responses to epinephrine by 40--45% in normal and hyperthyroid rats; the lipolytic increment due to the hyperthyroid state was uninfluenced by ouabain. The lipolytic refractoriness to epinephrine of hypothyroid adipocytes was restored to normal levels by theophylline (1 mM) or EGTA (1 mM); the theophylline and EGTA effects were not additive, suggesting that they stimulated lipolysis via a common mechanism. Epinephrine-induced lipolysis in all groups was progressively inhibited by increasing concentrations of Ca2+ in the medium. The Ca ionophore, A23187, showed a concentration-dependent inhibitory action. Theophylline (1mM) almost completely overcame the inhibitory action of the ionophore; in the presence of lower concentrations of theophylline, the inhibitory effect of the ionophore was least in hypothyroid and greatest in hyperthyroid fat cells. The findings suggest that the differences in the lipolytic response to epinephrine observed in hyperthyroid, euthyroid, and hypothyroid adipocytes are not due to alterations in the number or affinity of beta-adrenergic receptors nor to a membrane mechanism that might show differential ouabain sensitivity, but may be related to altered cellular Ca2+ concentrations which may indirectly alter cellular phosphodiesterase activity.
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PMID:Thyroid hormone modulation of epinephrine-induced lipolysis in rat adipocytes: a possible role of calcium. 21 6

The effects of noradrenaline (NA) and isopropyl-noradrenaline (ISNA) on glycerol release and cAMP levels in sc adipose tissue were studied in vitro in 27 patients with hyperthyroidism. In 11 patients, the studies were repeated after 6--12 months of treatment for hyperthyroidism. A third group comprised 21 euthyroid patients otherwise healthy except for morbid obesity. The lipolytic response to ISNA, observed in untreated thyrotoxic patients, was found to be reduced by 30% when the patients were reexamined after treatment for thyrotoxicosis. This reduction was attributable to a decrease in the cAMP level. This was observed whether adipose tissue was incubated in the presence or absence of a phosphodiesterase inhibitor, theophylline. Both NA and ISNA induced 50% more rapid glycerol release and 4 times higher cAMP levels in adipose tissue of the thyrotoxic subjects than in the obese euthyroid patients. A positive correlation between tissue cAMP and glycerol release, on one hand, and mean fat cell size, on the other hand, was observed in treated thyrotoxic patients and obese euthyroid patients but was not recorded in the untreated hyperthyroid patients. The basal rate of lipolysis was not altered in thyrotoxicosis. The results suggest that the enhanced lipolytic response to catecholamines in adipose tissue of hyperthyroid patients is due to increased beta-adrenergic responsiveness. In addition, a disruption in subsequent stages of the regulatory pathway at the level of protein kinase or hormone-sensitive lipase also seems possible.
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PMID:Regulation of lipolysis by human adipose tissue in hyperthyroidism. 21 92


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