Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UMLS:C0023418 (leukemia)
 93,477 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The purpose of this investigation was to examine factors which regulate the reprogramming of gene expression in tumors responsible for resistance to tiazofurin. To study the resistance phenomenon drug-induced tumor lines were selected and examined for the mechanism of resistance. A comparison of the biochemical expression of resistance to tiazofurin in drug-induced resistant lines of hepatoma 3924A, leukemias L1210 and P388 revealed that the 3 lines expressed similar genetic alterations related to reduced TAD content, decreased NAD pyrophosphorylase activity and increased synthesis of guanylates from salvaging preformed guanine indicating that these 3 factors play an important role in the resistance to tiazofurin. Resistance was stable in the leukemia lines and did not require drug to maintain resistance. Hepatoma 3924A resistant line reverted to sensitive state in the absence of drug selection pressure. NAD pyrophosphorylase activity was substantially deleted in the tiazofurin resistant leukemia lines, but was only significantly decreased in the hepatoma resistant line. Extensive biochemical alterations including enhanced activity of IMP dehydrogenase, increased inosinate and guanylate pools, and reduced uptake of tiazofurin were found in the hepatoma line resistant to tiazofurin. To examine the applicability of these results to naturally sensitive and spontaneously resistant tumors, murine tumors were examined. In murine tumors, TAD accumulation, ratios of enzyme activities responsible for the synthesis and degradation of TAD, and the ratios of perturbation of inosinate and guanylate pools following tiazofurin challenge demonstrated significant correlation with the sensitive or resistant nature of the tumors. To extrapolate these observations to human tumor systems, cytotoxicity of tiazofurin and its metabolic effects were compared in 6 human lung cancer cell lines derived from cancer patients with small cell lung cancer (4 lines) and lung adenocarcinoma (2 lines). Cell lines exhibiting greater sensitivity to tiazofurin accumulated significantly larger amounts of TAD and showed significant reduction of guanylate pools following tiazofurin incubation. The activity of the enzyme responsible for the formation of TAD, NAD pyrophosphorylase, did not correlate with responsiveness to tiazofurin but the enzyme which hydrolyzes TAD, TADase, correlated positively with the status of resistance.(ABSTRACT TRUNCATED AT 400 WORDS)
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PMID:Biochemical mechanisms of resistance to tiazofurin. 383 25

K562 cells are human leukemia cells inducible for hemoglobin synthesis by a variety of agents. This report demonstrates that hypoxanthine, which alone has no inductive effect, enhances induction by thymidine, resulting in a greater absolute, as well as relative, percentage of benzidine positive cells. This effect is seen over a 20-fold concentration range for both thymidine and hypoxanthine. This enhancement involves commitment, i.e., a process in which the induction of hemoglobin synthesis is coupled to a limitation in the number of subsequent cell divisions. Although thymidine alone increases the percentage of cells in S phase, hypoxanthine does not augment this. Purines other than hypoxanthine also enhance induction by thymidine. This enhancement by hypoxanthine of thymidine induction is inhibited by pyrimidine nucleosides. Mycophenolic acid, an inhibitor of IMP dehydrogenase, itself an effective K562 inducer, is not additive to thymidine and hypoxanthine, suggesting that hypoxanthine may act by reducing the supply of guanosine nucleosides.
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PMID:Erythroid induction of K562 human leukemia cells: enhancement by purines. 400 76

Administration of the novel thiazole C-nucleoside, 2-beta-D-ribofuranosylthiazole-4-carboxamide (NSC 286193), to BDF1 mice bearing subcutaneous implants of P388 leukemia provoked a sharp depression in the concentration of intratumoral guanine nucleotides and a correspondingly large expansion of the IMP pools. Measurements of IMP dehydrogenase in the tumors of treated mice revealed that this enzyme was inhibited in a dose-responsive way, with approximately 50% inhibition engendered by the administration of the drug at a dose of 25 mg/kg and greater than 90% inhibition by all doses greater than 100 mg/kg. The inhibition of enzyme activity, seen after a dose of 250 mg/kg, reached a maximum 120 min after treatment and had subsided substantially 8 hr after dosing; by 24 hr. enzyme activity was fully restored. These results, coupled with the observation that the antitumor activity of the drug could be prevented in large part by the simultaneous administration of guanosine, support the conclusion that 2-beta-D-ribofuranosylthiazole-4-carboxamide, after anabolism, exerts its antineoplastic effects via a state of guanine nucleotide depletion. In extracts of the tumors of mice given parenteral injections of the thiazole nucleoside, a potent dialyzable inhibitor of IMP dehydrogenase was demonstrable: its concentration fluctuated in parallel with enzyme inhibition. Although the chemical identity of the proximate inhibitory species has yet to be established, it is concluded on kinetic grounds that it is neither the native nucleoside nor its 5'-monophosphate.
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PMID:Studies on the mechanism of action of 2-beta-D-ribofuranosylthiazole-4-carboxamide (NSC 286193)--II. Relationship between dose level and biochemical effects in P388 leukemia in vivo. 613 Jul 68

The chemical synthesis of thiazole-4-carboxamide adenine dinucleotide (TAD), previously identified as the active anabolite of the oncolytic 2-beta-D-ribofuranosylthiazole-4-carboxamide (TR), has been achieved by three different approaches: (1) incubation of adenosine 5'-monophosphate (AMP) and 2-beta-D-ribofuranosylthiazole-4-carboxamide 5'-monophosphate (TRMP) with excess DCC in aqueous pyridine, (2) reaction of adenosine 5'-phosphoromorpholidate with TRMP in pyridine, and (3) reaction of adenosine-5'-phosphoric di-n-butylphosphinothioic anhydride with TRMP in the presence of AgNO3. While the first approach produced only traces of TAD, the last two afforded 31 and 16% yields, respectively, of isolated TAD. The synthetic material was indistinguishable from biosynthesized TAD as judged by its HPLC behavior, NMR, UV and mass spectra, enzymatic resistance to alkaline phosphatase and susceptibility to venom phosphodiesterase, IMP dehydrogenase inhibitory activity, and cytotoxicity. TAD and TR were equally effective against murine P388 leukemia when employed at equimolar doses.
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PMID:Synthesis of thiazole-4-carboxamide adenine dinucleotide. A powerful inhibitor of IMP dehydrogenase. 613 56

The pharmacological effects and metabolism of tiazofurin have been compared in the six transplantable tumors comprising the NCI rodent tumor panel, viz. the P388 leukemia (S); the L1210 leukemia (S); the Lewis lung carcinoma (S); the B16 melanoma (R); the colon 38 carcinoma (R); and the M5076 sarcoma (R), where (S) denotes sensitivity and (R) resistance to tiazofurin. In addition, a variant of the P388 leukemia rendered resistant to the drug in vitro, and maintaining stable resistance in vivo, P388/TR, was also studied. Intraperitoneal administration of tiazofurin (100 mg/kg) resulted in a 3- to 30-fold greater accumulation of thiazole-4-carboxamide adenine dinucleotide (TAD), the proposed active metabolite of the drug in S versus R lines. In general, levels of TAD, percent inhibition of IMP dehydrogenase (mean 40% in S versus 10% in R), depression in the concentration of guanosine nucleotides, (50% in S versus 20% in R) and percent elevation of levels of IMP (500% in S versus 60% in R) correlated well with sensitivity or resistance. However, the B16 melanoma, although resistant to tiazofurin treatment, showed certain biochemical features characteristic of an S line. The sensitive and resistant tumors displayed comparable abilities to phosphorylate tiazofurin, but there was significant depression only in the R lines of the pyrophosphorylase which converts tiazofurin-5'-monophosphate to TAD (mean 78 nmoles/mg protein/hr in S versus 22 nmoles/mg protein/hr in R). The naturally resistant tumors were also found to exhibit a greater ability to degrade synthetic TAD than the sensitive lines (mean 102 nmoles/mg protein/hr in R versus 29 nmoles/mg protein/hr in S lines). The state of sensitivity or resistance could not be attributed to the basal levels of IMP dehydrogenase, to the specific activities of the enzymes of purine salvage, or to the basal concentration of purine and pyrimidine nucleotides. Moreover, treatment with tiazofurin did not influence the enzymes of TAD synthesis or of purine salvage.
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PMID:Studies on the mechanism of action of 2-beta-D-ribofuranosylthiazole-4-carboxamide--V. Factors governing the response of murine tumors to tiazofurin. 614 62

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

The p210 bcr-abl fusion protein tyrosine kinase oncogene has been implicated in the pathogenesis of chronic granulocytic leukemia (CGL). Specific intracellular functions performed by p210 bcr-abl have recently been delineated. We considered the possibility that p210 bcr-abl may also regulate the abundance of inosine 5'-monophosphate dehydrogenase (IMPDH) which is a rate-limiting enzyme for de novo guanylate synthesis. We performed studies of the inhibition of IMPDH by tiazofurin, which acts as a competitive inhibitor through its active species that mimics nicotinamide adenine dinucleotide (NAD), i.e. thiazole-4-carboxamide adenine dinucleotide (TAD). The mean inhibitory concentration (IC50) of tiazofurin for cellular proliferation inhibition was 2.3-2.8-fold greater in cells expressing p210 bcr-abl than in their corresponding parent cells proliferating under the influence of growth factors or in growth factor-independent derivative cells not expressing detectable p210 bcr-abl. IMPDH activity was 1.5-2.3-fold greater within cells expressing p210 bcr-abl than in their parent cells. This increase in enzyme activity was a result of 2-fold increased IMPDH protein as determined by immunoblotting. In addition, an increase in the Km value for NAD utilization by IMPDH was observed in p210 bcr-abl transformed cells, but this increase was within the range of resident NAD concentrations observed in the cells. Increased IMPDH protein in p210 bcr-abl transformed cells was traced to an increased level of IMP dehydrogenase II messenger RNA. Thus, regulation of IMPDH gene expression is mediated at least in part by the bcr-abl gene product and may therefore be indicative of a specific mechanism of intrinsic resistance to tiazofurin.
Leukemia 1994 Aug
PMID:p210 bcr-abl confers overexpression of inosine monophosphate dehydrogenase: an intrinsic pathway to drug resistance mediated by oncogene. 752 Jan

Mycophenolic acid, an inhibitor of the enzyme IMP dehydrogenase, antagonizes the CTP synthetase inhibitor 3-deazauridine in its anti-proliferative effects on MOLT-3 human T leukemia cells. No depletion of CTP occurred, and decreased amounts of 3-deazuridine-triphosphate were measured in cells incubated with mycophenolic acid and 3-deazuridine. Most probably, these phenomena are related to the increased amounts of PRPP observed, which can result in an increased pyrimidine biosynthesis de novo and, as a consequence, a decreased metabolism of 3-deazauridine via the salvage pathway.
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PMID:The IMP dehydrogenase inhibitor mycophenolic acid antagonizes the CTP synthetase inhibitor 3-deazauridine in MOLT-3 human leukemia cells: a central role for phosphoribosyl pyrophosphate. 757 66

3'-Aminocyanoborane-2', 3'-dideoxythymidine (VIIa) and 3'-aminocyanoborane-2', 3'-dideoxyuridine (VIIIb) were successfully synthesized. The thymidine derivative (VIIIa) was shown to be a potent cytotoxic agent in murine and selected human suspended and solid tumor cell lines. Compound VIIIa inhibited L-1210 leukemia DNA and RNA synthesis with the protein synthesis requiring a higher concentration of drug for inhibition within 60 min. The purine pathway appeared to be the major target of Compound VIIIa with inhibition of IMP dehydrogenase and dihydrofolate reductase activities. The compound affected metabolic enzyme activities in the pyrimidine pathway as well as the nucleoside kinase activities. The DNA molecule did not appear to be target of the 3'-aminocyanoborane-2', 3'-dideoxythymidine (VIIIa), in that there was no change in ct-DNA viscosity, thermal denaturation or absorption of nucleosides of DNA nor was there any L-1210 DNA strand scission or inhibition of L-1210 DNA topoisomerase II activity when compound VIIIa was incubated at 100 microM.
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PMID:The cytotoxicity of 3'-aminocyanoborane-2', 3'-dideoxypyrimidines in murine and human tissue cultured cell lines. 764 85

Inhibitors of IMP dehydrogenase (EC 1.2.1.14), including mizoribine (Bredinin) and mycophenolic acid, have significant antitumor and immunosuppressive activities. Studies were aimed at determining the mechanism by which intracellular GTP depletion induced by these agents results in inhibition of DNA synthesis. Incubation of human CEM leukemia cells for 2 hr with IC50 concentrations of either mizoribine (4 microM) or mycophenolic acid (0.5 microM) reduced cellular GTP levels an average of 68% or 58%, respectively, compared with the levels in control cells. Under similar conditions, mizoribine and mycophenolic acid decreased the amount of [3H]adenosine incorporated into primer RNA by 75% and 70%, respectively, relative to the untreated controls, but had no significant effect on total RNA synthesis. Repletion of the guanine nucleotide pools by coincubation of CEM cells with guanosine plus 8-aminoguanosine prevented both the inhibition of primer RNA synthesis and the inhibition of tumor cell growth induced by these agents. Additional studies demonstrated that GTP depletion alone was capable of directly inducing inhibition of primer RNA synthesis. Primer RNA synthesis was inhibited an average of 84% in whole-cell lysates that lacked GTP but contained all remaining ribo- and deoxyribonucleoside triphosphates. On an M13 DNA template, RNA-primed DNA synthesis catalyzed by the purified complex of DNA primase (EC 2.7.7.6) and DNA polymerase alpha (EC 2.7.7.7) was decreased an average of 70% in the absence of GTP, compared with synthesis in the presence of 0.5 mM GTP. These results provide evidence that mizoribine and mycophenolic acid inhibit DNA replication by inducing GTP depletion, which suppresses the synthesis of RNA-primed DNA intermediates.
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PMID:GTP depletion induced by IMP dehydrogenase inhibitors blocks RNA-primed DNA synthesis. 774 81


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