Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound

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Query: UMLS:C0027651 (tumor)
685,946 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

In the MCF-7 human breast tumor cell line, the topoisomerase II inhibitor, VM-26, produces a concentration dependent reduction in expression of the oncogene c-myc which parallels growth inhibition. Down-regulation of c-myc expression was examined at transcriptional and post-transcriptional levels. VM-26, at 10 microM, produced a reduction in the transcription rate of both sense and antisense strands of c-myc as determined by nuclear run-off analysis. In contrast, in the presence of the RNA synthesis inhibitor, actinomycin D, VM-26 failed to alter the half-life of the c-myc message. The capacity of VM-26 to reduce c-myc expression was not abrogated in cells pretreated with the protein synthesis inhibitor, cycloheximide (despite superinduction of c-myc expression in both control and VM-26 treated cells); this observation suggests that de novo protein synthesis may not be required to mediate the effects of VM-26 on steady state c-myc transcript levels. An extended analysis of the time course of c-myc expression demonstrated that the decline of steady state c-myc mRNA levels induced by VM-26 was biphasic, 6 h after the initial reduction in c-myc expression to approx. 30% of control levels, c-myc levels rebounded to 70% of control; after 24 h, c-myc expression declined gradually and remained at depressed levels (40% of control) at 48 and 72 h. These observations suggest that the initial transient reduction in c-myc expression associated with inhibition of transcription may represent a component of an early signalling pathway leading to growth arrest in MCF-7 breast tumor cells exposed to VM-26.
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PMID:Transcriptional down-regulation of c-myc expression in the MCF-7 breast tumor cell line by the topoisomerase II inhibitor, VM-26. 759 88

The combination of cis-diamminedichloroplatinum(II) (CDDP) and 7-ethyl-10-[4-(1-piperidino)-1-piperidino]carbonyloxycamptothecin (CPT-11), a topoisomerase-I inhibitor, has been shown to be synergistic in vitro and clinically active against several human cancers refractory to chemotherapy. To elucidate the mechanism of the synergistic cytotoxicity of CDDP and 7-ethyl-10-hydroxycamptothecin (SN-38), an active metabolite of CPT-11, we studied the interaction of these agents using an HST-1 human squamous-carcinoma cell line. Cells were exposed to the IC50 concentration of SN-38 (5.0 ng/ml) for 1 hr and various concentrations of CDDP for 1 hr in several different treatment schedules. SN-38 augmented the anti-tumor activity of CDDP in all schedules, with maximal synergy observed with simultaneous administration. Evaluation of the kinetics of the removal of DNA interstrand cross-links, measured by alkaline elution, showed significant reduction of this removal in the cells exposed to SN-38 and CDDP, as compared with the cells exposed to CDDP alone. No differences, however, were found in the initially attained level of DNA interstrand cross-links induced by CDDP between these cells. Moreover, the intracellular accumulation of platinum measured by atomic-absorption spectrophotometry, was virtually identical between these cells. These results indicate that SN-38 can modulate the removal of platinum-DNA adducts, thereby potentiating the cytotoxicity of CDDP, suggesting a critical role for topoisomerase I in the repair of DNA interstrand cross-links.
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PMID:Inhibition of cis-diamminedichloroplatinum (II)-induced DNA interstrand cross-link removal by 7-ethyl-10-hydroxy-camptothecin in HST-1 human squamous-carcinoma cells. 760 70

(S)-10-(2,6-Dimethyl-4-pyridinyl)-9-fluoro-3-methyl-7-oxo-2,3-dihydro-7H - pyrido[1,2,3-de][1,4]benzothiazine-6-carboxylic acid (WIN 58161) is an enantiomerically pure quinolone with outstanding bacterial topoisomerase II (DNA gyrase, EC 5.99.1.3) inhibitory and antibacterial activity. Unlike most quinolones, WIN 58161 also exhibits significant inhibitory activity against mammalian topoisomerase II (EC 5.99.1.3). DNA gyrase and topoisomerase II inhibitory activities are enantioselective. Consequently, WIN 58161 and its enantiomer (WIN 58161-2) provide useful tools to probe the contribution of topoisomerase II inhibition to the mechanism of cytotoxicity of quinolones and the potential utility of quinolone-topoisomerase II inhibitors as antitumor agents. WIN 58161 inhibited both highly purified Escherichia coli DNA gyrase and HeLa cell topoisomerase II by the promotion of enzyme-DNA covalent complexes. WIN 58161 did not bind stably to DNA via intercalation and did not enhance the formation of topoisomerase I (EC 5.99.1.2)-DNA covalent complexes. At drug concentrations that are cytotoxic to P388 murine leukemia cells, WIN 58161 promoted intracellular DNA single-strand breaks (SSBs) that exhibited the hallmarks of being mediated by topoisomerase. DNA fragments were complexed with protein, and SSBs were readily resealed at 37 degrees following drug removal. WIN 58161-2 was neither cytotoxic nor did it promote intracellular SSBs in P388. These observations suggest that the mechanism of cytotoxicity of WIN 58161 is predominantly, if not exclusively, a result of topoisomerase II inhibition. When studied in tumor-bearing mice, WIN 58161 exhibited a significant antitumor effect against each of five tumors tested, whereas neither toxicity nor antitumor activity was observed with WIN 58161-2. We conclude from these studies that WIN 58161 represents the prototype of a novel chemical class of topoisomerase II inhibitor with potential clinical utility in treating cancer.
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PMID:Mechanism of action and antitumor activity of (S)-10-(2,6-dimethyl-4-pyridinyl)-9-fluoro-3-methyl-7-oxo-2,3-dihydro-7 H- pyridol[1,2,3-de]-[1,4]benzothiazine-6-carboxylic acid (WIN 58161). 760 36

A series of DNA-intercalating 9-anilinoacridines, namely 9-phenoxyacridines, 9-(phenylthio)acridines, and 9-(3',5'-disubstituted anilino)acridines, were synthesized as potential antitumor agents with inhibitory effects on DNA topoisomerase II. Unlike amsacrine (m-AMSA), these agents were designed to avoid the oxidative metabolic pathway. These acridine derivatives were, therefore, expected to have long half-life in plasma. Both 9-phenoxyacridines and 9-(phenylthio)acridines were found to have moderate cytotoxicity against mouse leukemia L1210 and human leukemic HL-60 cell growth in culture. Among 9-(3',5'-disubstituted anilino)acridines, 3-(9-acridinylamino)-5-(hydroxymethyl)aniline (AHMA) was found to be a potent topoisomerase II inhibitor and exhibited significant antitumor efficacy both in vitro and in vivo. Chemotherapy of solid-tumor-bearing mice with 10, 10, and 5 mg/kg (QD x 4, ip) AHMA, VP-16, and m-AMSA, respectively, resulted in more tumor volume reduction by AHMA than by VP-16 or m-AMSA for E0771 mammary adenocarcinoma and B-16 melanoma. For Lewis lung carcinoma, AHMA was as potent as VP-16 but more active than m-AMSA. Structure-activity relationships of AHMA derivatives are discussed.
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PMID:9-substituted acridine derivatives with long half-life and potent antitumor activity: synthesis and structure-activity relationships. 765 Jun 75

The aim of the study was to prove whether or not an association exists between the heat shock protein 70 (hsp70) and drug resistance. Tumor samples of 90 patients with previously untreated non-small lung carcinomas were investigated immunohistochemically for expression of resistance related proteins. Additionally, resistance to doxorubicin was determined using a short term test. No association between resistance related proteins. Additionally, resistance to doxorubicin was determined using a short term test. No association between resistance to doxorubicin and hsp70 was found. Of 63 resistant tumors, 33 showed low and 30 high hsp70 expression. Of the 26 sensitive tumors, 11 had low and 16 had high hsp70 expression. No relationship could be found between P-glycoprotein which is related to multidrug resistance and hsp70 expression or between hsp70 expression and expression of topoisomerase II, thymidylate synthase and metallothionein. On the other hand, a trend was noted for tumors with high glutathione S-transferase-pi expression to show high hsp70 expression. In addition, there was a significant relationship between hsp70 and catalase positivity. These data indicate that heat shock and stress promote intracellular oxidative damage and catalase is necessary for protection.
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PMID:Heat shock (hsp70) and resistance proteins in non-small cell lung carcinomas. 765 30

Cytogenetic analysis of tumor cells has revealed that recurring chromosome abnormalities are present in many tumors. In the leukemias, lymphomas, sarcomas, these abnormalities are frequently translocations or less often inversions which are closely associated with particular morphologic subtypes of these tumors. Rearrangements involving chromosome band 11q23 are common in acute leukemia, both lymphoblastic and myeloid (monoblastic), and are less common in lymphoma. Although several different genes have been cloned from 11q23 translocation breakpoints, the great majority involve the MLL (myeloid-lymphoid leukemia) gene. The MLL gene has several different names, ALL1, Htrx, HRX; the central part of the gene codes for multiple zinc fingers which show homology to the Drosophila trithorax gene. About 70% of infants with acute leukemia will have MLL rearrangements. MLL is involved in five common translocations as well as in 25 uncommon or rare translocations, insertions and deletions. The translocation breakpoints occur within an 8.3 kb region which can be detected with a 0.74 kb cDNA probe. Twenty-five percent of patients have a deletion 3' of the breakpoint which includes the zinc finger region. Patients who previously received drugs that inhibit topoisomerase II often develop acute leukemia with translocations involving 11q23. These translocations break MLL in the same 8.3 kb region. In the breakpoints cloned to date, the translocation leads to a fusion gene on the derivative 11 chromosome with a chimeric transcript, consisting of 5' MLL and the 3' segment of the other gene. The molecular dissection of these arrangements will provide insights into the biology of MLL and into the interaction of MLL with topoisomerase II inhibitors.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Chromosome translocations: good genes gone wrong. 767 46

A series of analogs based on a novel template, 11-aza-(20S)-camptothecin, were obtained from total synthesis and tested as potential anticancer drugs in the topoisomerase I enzyme cleavable complex assay. The parent compound 11-aza-(20S)-camptothecin (8) was derived from a Friedlander condensation between the known aminopyridine derivative 3-(3-amino-4-picolylidene)-p-toluidine and optically active tricyclic ketone 7. Compound 8 had activity approximately twice that of (20S)-camptothecin in the calf thymus topoisomerase I cleavable complex assay. Compounds were prepared wherein the 11-aza nitrogen atom was quaternized as either the corresponding N-oxide or methyl iodide. Compounds with quaternized N-11 showed improved water solubility and were equipotent to the clinically investigated camptothecin analog topotecan in the cleavable complex assay. These compounds were evaluated in vivo in nude mice bearing HT-29 human colon carcinoma xenografts. The analog 11-aza-(20S)-camptothecin 11-N-oxide was found to significantly retard tumor growth when compared to untreated controls. Finally, 7,10-disubstituted 11-azacamptothecin analogs were synthesized using Pd(0) coupling reactions of 10-bromo-7-alkyl-11-aza-(20S)-camptothecins 19 and 20, which in turn were available from a Friedlander condensation of the novel bromopyridine derivatives 17a and 17b with 7. Among the 10-substituted series, a number of analogs displayed extremely high in vitro potency against topoisomerase I and improved aqueous solubility. A significant number of the compounds were found to be active in whole cell cytotoxicity assays and several were evaluated in nude mice bearing the HT-29 tumor xenografts. The most effective of these proved to be (S)-11-aza-7-ethyl-10-(aminohydroximinomethyl)camptothecin trifluoracetic acid salt (27), a potent topoisomerase I inhibitor which demonstrated excellent efficacy in both short term and in extended in vivo assays. A comparison between in vitro enzyme data and in vivo data from nude mouse studies in other compounds in this series revealed a poor overall correlation between topoisomerase inhibition in vitro and antitumor efficacy in vivo.
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PMID:Synthesis, topoisomerase I inhibitory activity, and in vivo evaluation of 11-azacamptothecin analogs. 770 14

Antifolates have been shown to increase the DNA strand breaks produced by the topoisomerase inhibitor etoposide. PT523 is a potent new antifolate that cannot be polyglutamated. Human SCC-25 squamous carcinoma cells were exposed to methotrexate, trimetrexate or PT523 at a concentration of 5 microM for 24 h along with various concentrations of etoposide or novobiocin during the final 2 h. Isobologram analysis of the treatment combinations indicated that exposure of the cells to PT523/etoposide, methotrexate/etoposide, PT523/novobiocin, methotrexate/novobiocin and trimetrexate/novobiocin resulted in greater than additive cytotoxicity. DNA alkaline elution studies with the same drug combinations indicated that there were three- to four-fold increases in the radiation equivalent (rad equivalent) strand breaks in the cellular DNA with etoposide or novobiocin along with the antifolate compared with the topoisomerase II inhibitors alone. Tumor growth delay studies were carried out in the murine SCC VII squamous carcinoma. PT523 (0.5 mg/kg) and methotrexate (2 mg/kg) were administered by 7-day continuous infusion while trimetrexate (3.75 mg/kg) was administered intraperitoneally daily on days 7-9. Etoposide (10 mg/kg) and novobiocin (100 mg/kg) were administered intraperitoneally on alternate days (7, 9, 11). The combinations of PT523 with etoposide or novobiocin were significantly more effective than methotrexate and etoposide or novobiocin, producing tumor growth delays of 8.4 days and 6.9 days, respectively. Overall, the antifolate/topoisomerase II inhibitor treatment combinations produced tumor growth delays that were apparently additive to greater than additive.
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PMID:Antifolates can potentiate topoisomerase II inhibitors in vitro and in vivo. 776 54

Polyomavirus (Py) large tumor antigen (LT) was produced in mammalian or insect cells infected with a suitable viral expression vector, and purified by a procedure combining immunoprecipitation with ion-exchange chromatography. Fractions containing the bulk of LT displayed a DNA-relaxing activity (LT-topo) which could be attributed neither to topoisomerase II (topo II) nor to topoisomerase I (topo I) encoded by the cell or the viral vector. On the one hand, LT-topo relaxed pBR322 DNA in a reaction which, unlike that characteristic of topo II, was ATP-independent and inhibited by camptothecin. On the other hand, serum from scleroderma patients which strongly inhibited calf thymus topo I had no effect on LT-topo, which absolutely required Mg2+ ions to relax DNA. Thus, LT-topo is either inherent to LT or belongs to a LT-bound enzyme similar to, but distinct from, topo I.
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PMID:Topoisomerase activity associated with polyoma virus large tumor antigen. 777

Over the past ten years several laboratories have explored the use of perfluorochemical emulsions (PFCE) and carbogen (95% O2/5% CO2; C) or oxygen breathing as an adjuvant to radiation therapy and/or chemotherapy in solid tumor model systems. The rationale for the use of PFCE and C or oxygen breathing in this therapeutic setting is that solid tumor masses contain areas of hypoxia which are therapeutically resistant. Since x-rays and many chemotherapeutic agents require oxygen to be maximally cytotoxic and most normal tissues are well-oxygenated, the additional oxygen put in circulation by the PFCE/C should not increase the normal tissue toxicities produced by the various therapies. Several anticancer agents are dependent on oxygen to be cytotoxic, these drugs such as the iron-chelating peptide bleomycin are enhanced in antitumor activity by the co-administration of a PFCE/C. The antitumor alkylating agents especially cyclophosphamide, BCNU and melphalan show increased tumor cell killing without a concomitant increase in bone marrow toxicity when administered with PFCE/C. Enhanced activity was also observed when topoisomerase II inhibitors such as adriamycin and etoposide were co-administered with PFCE/C. Positive effects, although smaller, were observed when antimetabolites such as 5-fluorouracil and methotrexate were co-administered with PFCE/C.
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PMID:Combination of perfluorochemical emulsions and carbogen breathing with cancer chemotherapy. 784 13


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