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)

The antitumor activity of the antineoplastic agent, tiazofurin (2-beta-D-ribofuranosylthiazole-4-carboxamide), has previously been shown to require intracellular anabolism of the drug to a nicotinamide adenine dinucleotide (NAD) analog (2-beta-D-ribofuranosylthiazole-4-carboxamide adenine dinucleotide or "tiazofurin adenine dinucleotide"), which then acts as a potent inhibitor of the target enzyme inosine monophosphate (IMP) dehydrogenase. Inhibition of the latter enzyme in turn brings about a profound depletion of intracellular guanosine nucleotides essential for tumor cell growth and replication. In the present study, the cytotoxicity and metabolism of tiazofurin have been examined in six human lung cancer cell lines. At the pharmacologically attainable drug concentration of 100 microM, colony survival was less than 1.5% in three cell lines ("sensitive"), while survival in the remaining three was greater than 50% ("resistant"). The metabolism of tritiated tiazofurin was examined at concentrations ranging from 0.5 to 100 microM following both brief (6 h) and protracted (14 d) exposures. The sensitive lines accumulated concentrations of tiazofurin adenine dinucleotide that were approximately 10 times those achieved by the resistant lines at both time points. We also observed tendencies for the sensitive cell lines to exhibit: (a) higher specific activities of NAD pyrophosphorylase, the enzyme required for the synthesis of tiazofurin adenine dinucleotide, (b) significantly lower levels of a phosphodiesterase which degrades the latter dinucleotide, (c) greater inhibition of the target enzyme IMP dehydrogenase, and (d) greater depressions of guanosine nucleotide pools after drug treatment. By contrast, the basal levels of IMP dehydrogenase and purine nucleotides in these six lines did not correlate in any obvious way with their responsiveness or resistance. The accumulation and monophosphorylation of parent drug were also not prognostic variables. These studies thus suggest that the extent of accumulation of tiazofurin adenine dinucleotide, as regulated by its synthetic and degradative enzyme activities, is the single most predictive determinant of the responsiveness of cultured human lung tumor cells to tiazofurin.
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PMID:Relationships between the cytotoxicity of tiazofurin and its metabolism by cultured human lung cancer cells. 285 24

Adenyl-32P-Labeled 3'-deoxy-NAD+ was utilized as a substrate by pure DNA-dependent poly(ADP-ribose)polymerase (EC 2.4.2.30) from calf thymus in the automodification reaction with an apparent Km of 20 microM and a Vmax of 80 nmol/min/mg of protein. Analysis by lithium lauryl sulfate-polyacrylamide gel electrophoresis revealed a single 32P-labeled protein of 116-kDa which comigrated with automodified enzyme. Addition of increasing amounts of histone H1 up to a concentration of 15 micrograms/ml stimulated the synthesis of protein-bound polymers of 3'-deoxy-ADP-ribose. However, the average polymer size was equal to 2 in the presence and 4 in the absence of histone H1, respectively. The synthesis of protein-bound oligomers of 3'-deoxy-ADP-ribose was inhibited by the polymerase inhibitors benzamide, nicotinamide, thymidine, and NaCl. A pulse labeling of polymer synthesis with 40 microM [32P]3'-deoxy-NAD+ either in the presence or absence of 15 micrograms/ml of histone H1, followed by a chase with 1 mM [3H]NAD+, was used to determine the mechanism of poly(ADP-ribose) elongation. Following enzyme digestion of these polymers with phosphodiesterase, it was found that 52 and 24% of the total 32P radiolabel was associated with the 3'-deoxy-AMP termini of the polymers synthesized in the pulse reactions, in the presence or absence of histone H1, respectively. In contrast, less than 10% of the total radioactivity was associated with 3'-deoxy-AMP in the product of the chase reactions. These results are consistent with the conclusion that the initially attached residue of 3'-deoxy-ADP-ribose to either the polymerase or histone H1, is elongated by the "protein-distal" addition of ADP-ribose residues to the AMP terminus of the growing polymer chain.
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PMID:3'-Deoxy-NAD+ as a substrate for poly(ADP-ribose)polymerase and the reaction mechanism of poly(ADP-ribose) elongation. 314 24

Nicotinamide 1,N(6)-ethenoadenine dinucleotide, a fluorescent analog of the coenzyme nicotinamide adenine dinucleotide, has been synthesized by the reaction of chloroacetaldehyde with the coenzyme. The technical fluorescence emission maximum of the analog is 410 nm, upon excitation at 300 nm. Its fluorescence yield is about 8% of that of the 1,N(6)-ethenoadenine 5'-phosphate, and its fluorescence lifteime is shorter. Upon hydrolysis of the modified coenzyme analog with Neurospora crassa NADase or phosphodiesterase I at room temperature, the intensity of fluorescence was increased 10-fold, corresponding to separation of the nicotinamide and ethenoadenine rings. The spectroscopic results with nicotinamide 1,N(6)-ethenoadenine dinucleotide are consistent with the concept of an intramolecular interaction between the modified adenine and pyridine moieties of the dinucleotide that is disrupted by enzymatic hydrolysis. The fluorescent analog showed reasonable activity as a substitute for NAD(+) in four different dehydrogenase-catalyzed reactions.
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PMID:A fluorescent analog of nicotinamide adenine dinucleotide. 434 Jul 48

The chemical synthesis of adenosine(5') [alpha-thio]diphospho(5')ribofuranosyl-nicotinamide (NAD[S]) is described. The product occurs as a pair of diastereomers with different configuration at the sulfur-bearing phosphorus atom. The diastereomers were separated by high-performance liquid chromatography and their absolute configuration was determined after chemical degradation to the ADP[alpha S] diastereomers and chromatographic comparison with enzymically synthesized ADP[alpha S] diastereomers of known absolute configuration. Additional support for this assignment is based on different rates in the phosphodiesterase-catalyzed hydrolysis. Furthermore the synthesis of [14C]NAD[S] is described. The coenzyme activity of NAD[S] in the reaction with alcohol dehydrogenase from baker's yeast and lactate dehydrogenase from pig heart is very similar to that of beta-NAD. Also, NAD and NAD[S] serve equally well as substrates for NAD glycohydrolase from calf spleen. In contrast, no reaction was detected with NAD pyrophosphorylase, and hydrolysis of the separated NAD[S] diastereomers with snake venom phosphodiesterase showed a 26-fold and a 33-fold slower reaction rate than that of NAD. Nucleotide pyrophosphatase was less sensitive to the S substitution, hydrolyzing NAD[S] 14-times slower than NAD. Poly(ADP-ribose) polymerase from Ehrlich ascites tumor cell nuclei accepted NAD[S] as a substrate but the reaction was significantly slower and approached saturation at much lower values than with NAD. Alkaline hydrolysis of the products insoluble in trichloroacetic acid yielded AMP[S] as the main derivative. It is concluded that with NAD[S] as a substrate the nuclear acceptors were nearly exclusively mono(ADP-ribosyl) ated .
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PMID:NAD[S], an NAD analogue with reduced susceptibility to phosphodiesterase. Chemical synthesis and enzymic properties. 614 44

Following the parenteral administration of tiazofurin, 2-beta D-ribofuranosylthiazole-4-carboxamide (thiazole nucleoside, TR), a potent but reversible inhibitor of IMP dehydrogenase is generated in subcutaneous nodules of the P388 leukemia. The compound responsible for this effect has been isolated from homogenates of the tumor by ion-exchange HPLC, and its presence monitored by enzyme-inhibition assay. The inhibitor has also been prepared by incubation of tiazofurin with P388 cells in culture. Chromatographically, the inhibitory principle exhibits a moderately strong set negative charge at pH 3, and elutes in the general vicinity of the nucleoside-5'-diphosphates; its absorption maximum in aqueous solution (pH 7) lies at 252 nm. Exposure of the molecule to snake-venom phosphodiesterase or to nucleotide pyrophosphatase destroys its inhibitory potency, whereas other phosphodiesterases are either less effective or inert. Since these results suggested that the anabolite might be a dinucleotide with a phosphodiester linkage of the kind found in NAD, attempts were made to synthesize such an analogue from the 5'-monophosphate of thiazole nucleoside and ATP-Mg2+, using a purified preparation of NAD pyrophosphorylase; modest yields were obtained of a compound with chromatographic, spectral and enzyme-inhibitory properties identical to those of the material isolated from P388 tumor nodules. This enzyme-synthesized material was radioactive when [3H]ATP was used as cosubstrate, and yielded both AMP and thiazole nucleoside-5'-monophosphate on treatment with phosphodiesterase. It resisted attack by NAD glycohydrolase. An apparently identical dinucleotide was also synthesized chemically by means of the Khorana condensation. Mass spectral analysis and nuclear magnetic resonance studies with homogeneous preparations of both the enzymically and chemically synthesized compound were compatible with its being a dinucleotide in which the nicotinamide of NAD has been replaced by thiazole-4-carboxamide. Versus IMP dehydrogenase, the dinucleotide exhibited a K1 of approximately 2 X 10(-7) M and was non-competitive with NAD as the variable substrate. Other NAD utilizing enzymes, including representative dehydrogenases and poly ADP ribose polymerase, were, by comparison to mammalian IMPD, resistant to inhibition by TAD. The properties of this novel dinucleotide are compared and contrasted with those of analogs of NAD containing modifications in the pyridine, adenine or ribofuranose rings, as well as in the pyrophosphate bridge.
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PMID:Studies on the mechanism of action of tiazofurin metabolism to an analog of NAD with potent IMP dehydrogenase-inhibitory activity. 615 29

Purified rat liver nuclei were incubated in vitro in the presence of [adenylate-32P]nicotinamide adenine dinucleotide. The label was rapidly incorporated into trichloroacetic acid-insoluble material and also detected in particles carrying heterogeneous nuclear RNA. The particles were isolated by density gradient centrifugation, and their size determined to be 30-40 S from parallel experiments using nuclei labelled with [3H]uridine 5'-triphosphate under similar conditions. Treatment of the 30-40 S-particles with enzymes of different specificities showed that the label was tightly bound to proteins, not incorporated into nuclei acids and not utilized in phosphorylation of proteins. The label was detached by phosphodiesterase I from snake venom and identified as ADP-ribose and adenosine 5'-phosphate present at a ratio of 7.5 to 1 using thin layer chromatography on poly(ethyleneimine)-cellulose. Radioactively labelled (ADP-ribosylated) proteins were visualized by autoradiography following SDS-polyacrylamide gel electrophoresis. They included several major species of the ribonucleoprotein with molecular weights of 36000, 39000 and 42000, and a limited number of high molecular weight polypeptides.
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PMID:ADP-ribosylation of proteins associated with heterogeneous nuclear RNA in rat liver nuclei. 617 54

Nicotinamide injected in a high dose (100 mg/100 g body weight) into rats induces several variations both of enzymatic activities and of metabolites levels. We have tested the effect of NAm on liver cAMP content; it increases reaching a peak at the second hour after treatment. Liver adenylate cyclase and 3',5'-cyclic AMP phosphodiesterase activities have been tested; the former increases reaching a peak after 1 hour, while the latter decreases consistently one hour after treatment. This variation of cAMP phosphodiesterase activity could be related to the change of the pyridine coenzymes redox state observed after NAm injection. The increase of the liver cAMP concentration could explain the mobilization of glucose after treatment with NAm, and the alteration of several enzymatic activities, as serine dehydratase, observed after treatment.
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PMID:Metabolism of adenosine-3', 5'-cyclic monophosphate in the liver of rats treated with nicotinamide. 631 8

Poly(ADP-ribose) polymerase and poly(ADP-ribose) glycohydrolase have been detected in chromatin extracts from the dinoflagellate Crypthecodinium cohnii. Poly(ADP-ribose) glycohydrolase was detected by the liberation of ADP-ribose from poly(ADP-ribose). Poly(ADP-ribose) polymerase was proved by (a) demonstration of phosphoribosyl-AMP in the phosphodiesterase digest of the reaction product, (b) demonstration of ADP-ribose oligomers by fractionation of the reaction product on DEAE-Sephadex. The (ADP-ribose)-protein transfer is dependent on DNA; it is inhibited by nicotinamide, thymidine, theophylline and benzamide. The protein-(ADP-ribose bond is susceptible to 0.1 M NaOH (70%) and 0.4 M NH2OH (33%). Dinoflagellates, nucleated protists, are unique in that their chromatin lacks histones and shows a conformation like bacterial chromatin [Loeblich, A. R., III (1976) J. Protozool. 23, 13--28]; poly(ADP-ribose) polymerase, however, has been found only in eucaryotes. Thus our results suggest that histones were not relevant to the establishment of poly(ADP-ribose) during evolution.
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PMID:Presence of poly (ADP-ribose) polymerase and poly (ADP-ribose) glycohydrolase in the dinoflagellate Crypthecodinium cohnii. 632 Nov 75

A 60- to 70-fold purification of an NAD+ glycohydrolase from the inner membrane of rat liver mitochondria to apparent homogeneity on sodium dodecyl sulfate (SDS)-polyacrylamide slab gel is described. The minimum molecular weight of the enzyme on polyacrylamide gels in the presence of SDS is around 62,000. The enzyme splits NAD+ to ADP-ribose and, presumably, nicotinamide. No phosphatase or phosphodiesterase activity is detected in the purified enzyme preparation. The enzyme shows high activity with NAD+ and moderate activity with NADP+ as substrates NAD(P)Hs are poor substrates. ATP and nicotinamide inhibit the enzyme. A possible participation of the enzyme in the mechanism of calcium release from rat liver mitochondria is discussed.
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PMID:Purification and properties of a mitochondrial NAD+ glycohydrolase. 687 Feb 60

Reactive coenzyme analogues omega-(3-diazoniumpyridinium)alkyl adenosine diphosphate were prepared by reaction of omega-(3-aminopyridinium)alkyl adenosine diphosphate with nitrous acid. In these compounds the nicotinamide ribose is substituted by hydrocarbon chains of varied lengths (n-ethyl to n-pentyl). The diazonium compounds are very unstable and decompose rapidly at room temperature. They show a better stability to 0 degree C. Lactate and alcohol dehydrogenase do not react with any of the analogues. Glyceraldehyde-3-phosphate dehydrogenase reacts rapidly with the diazoniumpentyl compound. Decreasing the length of the alkyl chain significantly decreases the inactivation velocity. 3 alpha, 20 beta-Hydroxysteroid dehydrogenase reacts at 0 degree C with the ethyl homologue and slowly with the propyl compound. The butyl- and pentyl analogues do not inactivate at 0 degree C. Tests with 14C-labeled 2-(3-diazoniumpyridinium)ethyl adenosine diphosphate show that complete loss of enzyme activity results after incorporation of 2 moles of inactivator into 1 mole of tetrameric enzyme. 4-(3-Acetylpyridinium)butyl 2'-phospho-adenosine diphosphate, a structural analogue of NADP+, was prepared by condensation of adenosine-2,3-cyclophospho-5'-phosphomorpholidate with (3-acetylpyridinium)butyl phosphate, followed by hydrolysis of the cyclic phosphoric acid with 2':3'-cyclonucleotide-3'-phosphodiesterase. Because of the redox potential (-315 mV) and the distance between the pyridinium and phosphate groups, this analogue is a hydrogen acceptor and its reduced form a hydrogen donor in tests with alcohol dehydrogenase from Thermoanaerobium brockii. The reduced form of the coenzyme analogue also is a hydrogen donor with glutathione reductase. With other NADP+-dependent dehydrogenases the compound has been shown to be a competitive inhibitor against the natural coenzyme. The acetyl group reacts with bromine to form the bromoacetyl group. This reactive bromoacetyl analogue is a specific active-site directed irreversible inhibitor of isocitrate dehydrogenase.
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PMID:New reactive coenzyme analogues for affinity labeling of NAD+ and NADP+ dependent dehydrogenases. 754 38


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