Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UMLS:C0684249 (lung carcinoma)
 23,830 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

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

Tiazofurin is an interesting drug now entering Phase I trials, with marked preclinical antitumor activity against P388 and L1210 leukemias, and the Lewis lung carcinoma. Schedule dependency favoring frequent administration has been noted. The drug has a novel mechanism of action, being metabolized to an inhibitory cofactor of inosine monophosphate dehydrogenase. Tiazofurin is widely distributed after i.v. administration exhibiting a triphasic pattern of plasma decay, with a terminal half-life of 3-16 h in the three species studied. Approximately 90% of the drug was excreted unchanged in the urine within 24 h. A significant potential for the slower release of intracellularly retained drug exists. Anticipated organ toxicities based on the studies described include myelotoxicity, hepatotoxicity and nephrotoxicity. These were mild and reversible at lower doses, and were not seen at levels corresponding to the starting doses in man. A potential for hyperuricemia exists; this should be easily controllable by the use of allopurinol, without compromising the drug's antitumor effect. Phase I trials under the sponsorship of the NCI are underway in a number of institutions.
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PMID:Tiazofurin: a new antitumor agent. 638 81

A detailed study of the inhibition of DR and TR in the SkLu-1 line of human lung adenocarcinoma has shown that TR significantly inhibits this tumor line, probably via inhibition of IMP dehydrogenase by the corresponding TAD analog of NAD. DR exhibited a similar degree of inhibition in this cell line. In a system devised to detect the inhibition of cloning efficiency of the SkLu cells, DR showed a 50% inhibition at 4 X 10(-3) M and TR at 1 X 10(-4) M. When DR and TR were used in combination, the ID50 was decreased to 3 X 10(-5) M. The study of DR in a number of human carcinoma cell lines revealed that de novo purine biosynthesis was significantly inhibited; however, in the SkLu-1 lung carcinoma cells this inhibition was not observed. The synergism observed in this cell line is presently viewed as potentially due to both agents acting on IMP dehydrogenase at different sites.
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PMID:Novel nucleoside inhibitors of guanosine metabolism as antitumor agents. 647 42

The 3,5-pyrazolidinediones proved to be potent cytotoxic agents against the growth of a number of murine and human tumor cell lines, e.g. human THP-I monocytic leukemia, Hut-78 lymphoma, MCF-7 breast effusion, A549 lung carcinoma, U87MG glioma, Hela uterine and A431 epidermoid skin cancer. In human Tmolt4 cell leukemia, the agents substantially suppressed DNA and RNA syntheses after 60 min at 100 microM. The de novo purine biosynthetic pathway appeared to be the major target of the agents with the inhibition of both PRPP-amido transferase and IMP dehydrogenase (IMPDH) activities. Suppression of IMPDH activity was due to the inhibition of both the Type I and II isoforms through an uncompetitive mechanism; however, the Type II isoform was preferentially inhibited at lower concentrations of compounds tested (>50-150 microM). Therefore IMPDH Type II activity, which predominates in cancer cells, was selectively inhibited over the Type I isoform (208-312 microM). The activities of other enzymes examined were inhibited which added to the overall suppression of DNA synthesis, i.e., ribonucleotide reductase, dihydrofolate reductase and nucleoside kinases. The agents caused Tmolt4 DNA strand scission but the DNA molecule itself did not appear to be a target of the compounds since there was no induced cross-linking of the DNA, intercalation between base pairs or alkylation of the DNA bases.
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PMID:Cytotoxicity and mode of action of 1-(1-cyclohexenyl) and 1-unsubstituted 3,5-pyrazolidinediones in human Molt4 T cell leukemia. 1149 69