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: EC:5.99.1.3 (topoisomerase)
9,911 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

We have reported earlier that camptothecin (CPT) incorporated into multilamelar liposomes of appropriate lipid composition displayed effective anti-tumor activity with minimal host toxicity in a nude mouse model xenographed with the human breast carcinoma Clouser nut 1. To investigate this observation further, we have determined the differential effects of CPT on the Clouser tumor cells as well as normal vascular (BVEC) endothelial cells in culture. We report here that Clouser cells are approximately 200-fold more sensitive to CPT (IC50 = 4.0 nM) than the normal endothelial cells (IC50 approximately 1 microM) as assayed by MTT; however, CPT demonstrates a potent anti-proliferative activity on both cell lines at low drug concentrations as measured by [3H]thymidine uptake. At higher concentrations (> 25.0 nM), however, the Clouser cells maintained a higher percentage of cells capable of incorporating [3H]thymidine. No significant differences in the levels of topoisomerase 1 protein and in vitro enzymatic activity were seen; although, the Clouser cells showed a 2-fold greater incidence of cleavable complex formation by CPT in vivo. Based on the data presented here, we propose that the selective cytotoxic activity of CPT towards tumor cells may be a function of the tumor cells' reduced ability to prevent cleavable complex formation. We also propose that the antitumor effect of CPT may be enhanced in vivo by its anti-proliferative effect on vascular endothelial cells which are normally solicited to promote tumor growth.
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PMID:Camptothecin exhibits selective cytotoxicity towards human breast carcinoma as compared to normal bovine endothelial cells in vitro. 899 Nov 89

The mechanism of increased sensitivity to etoposide (VP-16) in a human bladder cancer cell line (J82/MMC-2), which is >9-fold more resistant to mitomycin C (MMC) compared with parental cells (J82/WT), was investigated. Colony formation assays, following 1 hr drug exposure, revealed that about a 2.2-fold higher concentration of VP-16 was required to kill 50% of the J82/WT cell line compared with J82/MMC-2. The MTT assays, following continuous drug exposure, also showed that the J82/MMC-2 cell line was significantly more sensitive to VP-16 compared with J82/WT. Accumulation of VP-16 was significantly higher in the J82/MMC-2 cell line compared with J82/WT at every drug concentration tested. Likewise, intracellular VP-16 retention was significantly higher in the J82/MMC-2 cell line compared with J82/WT when drug uptake was measured as a function of varying incubation time and at a fixed VP-16 concentration. The efflux of VP-16 from the J82/MMC-2 cell line was equivalent to that from J82/WT. In agreement with the results of drug uptake studies, the levels of VP-16-induced protein-DNA complexes were markedly higher in the J82/MMC-2 cell line compared with J82/WT. The catalytic activity of topoisomerase II (topo II) in 0.35 M NaCl nuclear extract of J82/WT cells was equivalent to that of J82/MMC-2. The levels of topo II mRNA were also comparable in these cells. Our results suggest that the mechanism responsible for the collateral sensitivity of the J82/MMC-2 cell line to VP-16 may be attributable to a relatively higher drug accumulation in this cell line compared with parental cells.
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PMID:Mechanism of increased sensitivity to etoposide in a mitomycin C-resistant human bladder cancer cell line. 905 63

The mechanism of action of a group of anthracene-containing analogs of amonafide was studied in Chinese hamster ovary (CHO) cells. These agents differ structurally from amonafide by the replacement of the naphthalene chromophore with an anthracene chromophore, the lack of a primary amine moiety in the 5 position, and substitutions at the 6 and 7 positions on the anthracene nucleus. In this study, five analogs with potent growth inhibitory activity and with low cardiotoxicity were chosen. Cytotoxicity analyses with tetrazolium dye assays (MTT) in vitro and continuous drug exposure revealed IC50 values in CHO cells in the nanomolar range. Intracellular scanning laser confocal microscopy of these drug-treated CHO cells showed that all analogs are able to enter cell nuclei with varying nuclear/cytoplasmic distribution: the more potent dimethylaminoethyl substituted analogs, 47 and 104, were primarily localized in the nucleus. Three analogs, including the unsubstituted parent (1), and numbers 35 (6-amino substituted) and 53 (6-aminoethyl substituted) inhibited DNA and RNA synthesis when assayed immediately after a 1 h exposure. In contrast, analogs 47 and 104 required 24 h post-drug exposure for 1 h to inhibit DNA and RNA synthesis. Using alkaline elution techniques, each analog also produced DNA single- and double-stranded breaks, as well as DNA protein cross-links. Interestingly, the most cytotoxic analogs, 47 and 104, produced minimal DNA strand damage in CHO cells at their IC90 concentrations, whereas the three other compounds with lower growth inhibitory potency produced marked and roughly equivalent DNA damage at equitoxic concentrations. Gel shift analysis of SV40 DNA exposed to the compounds demonstrated that these agents do not directly induce DNA strand breaks. However, catalytic studies with purified human topoisomerase II (Topo II) and plasmid DNA demonstrated that these drugs inhibit this enzyme. These results suggest that the azonafides inhibit Topo II to cause protein-associated strand breaks and impaired DNA and RNA synthesis. However, other mechanisms may also be operant, especially with the more potent dimethylamino ethyl substituted analogs.
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PMID:In vitro cytotoxicity and DNA damage production in Chinese hamster ovary cells and topoisomerase II inhibition by 2-[2'-(dimethylamino)ethyl]-1, 2-dihydro-3H-dibenz[de,h]isoquinoline-1,3-diones with substitutions at the 6 and 7 positions (azonafides). 909 29

Multiple myeloma cell lines express functional receptors for insulin-like growth factors (IGFs) and several cell types that make up the bone marrow microenvironment produce these cytokines. This suggests that IGFs may play a role in survival and/or expansion of the malignant clone within the marrow in patients with multiple myeloma. We tested the effects of these growth factors on myeloma cells challenged with dexamethasone. Dye exclusion and MTT assays demonstrated that both IGF-I and IGF-II protected the 8226 and dox-40 myeloma cell lines and three primary myeloma cultures from dexamethasone-induced cytotoxicity in a dose-dependent fashion. Morphologic studies of target cells and their nuclei as well as DNA electrophoresis confirmed the IGFs afforded protection against dexamethasone-induced apoptosis. Insulin also protected but was less impressive and required much higher concentrations. IGFs also protected against cycloheximide-induced apoptosis but were ineffective against serum starvation, topoisomerase II inhibitors, or anti-fas antibodies. IGF-induced protection against dexamethasone was not associated with any alteration in quantitative or qualitative expression of BCL-2, BAX or BCL-X proteins. These data indicate that insulin-like growth factors may play a role in maintenance of the malignant clone in patients with myeloma by protecting tumour cells from apoptotic death.
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PMID:Multiple myeloma cells are protected against dexamethasone-induced apoptosis by insulin-like growth factors. 916 10

In the present study it was investigated whether and by which mechanisms the co-administration of interleukin-3 (IL-3) and the P-glycoprotein blocker PSC 833 can augment mitoxantrone (MX) and daunorubicin (DAU) cytotoxicity in two human growth factor dependent P-glycoprotein (P-gp) positive myeloid leukemic cell lines, Mo-7 and GF-D8. Cytotoxicity was determined in MTT assay. Increased cytotoxicity occurred in Mo-7 cells preincubated with 24h IL-3 followed by 1 h MX (cell survival: 85% +/- 6 vs 68% +/- 2, at 0.05 microM MX, P < 0.005) or DAU (79% +/- 8 vs 62% +/- 9 at 0.8 microg/ml DAU, P < 0.05). Similar results were obtained for the GF-D8 cell line. In this cell line, at 0.5 microM MX the cell survival decreased from 84% +/- 13 to 61% +/- 19 (P < 0.05) and at 5.0 microg/ml DAU from 102% +/- 8 to 69% +/- 5, (P < 0.002). The IL-3 administration did not affect the P-gp and bcl-2 protein expression, cellular MX concentration or MX efflux but coincided with an increased percentage of cells in S-phase and topoisomerase II (topo II)-alpha mRNA and topo II activity especially in the Mo-7 cell line. PSC 833 enhanced DAU cytotoxicity in both cell lines. The administration of IL-3 plus PSC 833 in the Mo-7 cell line resulted in an additive effect on DAU cytotoxicity. At 0.8 microg/ml DAU and 2 microg/ml PSC 833, the percentage surviving cells decreased from 62% +/- 9 in the absence of IL-3 to 37% +/- 3 in the presence of IL-3 (P < 0.01). The additive effect of combined treatment was most pronounced in GF-D8 cells which also had the highest P-gp expression. In contrast, PSC 833 did not modulate the MX effects, irrespective of the presence of IL-3. In summary, the results demonstrate that the combined administration of IL-3 and PSC 833 can enhance the cytotoxic effects of DAU but not MX in these P-gp positive cell lines whereas the effects of MX could be modulated by factors which influence topo II activity.
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PMID:The combined effects of IL-3 and PSC 833 on daunorubicin- and mitoxantrone cytotoxicity in two growth factor-dependent leukemic cell lines. 918 Feb 92

B-chronic lymphocytic leukaemia (B-CLL) is characterized by the accumulation of long-lived CD5+ B lymphocytes. The effect of mitoxantrone, a topoisomerase II inhibitor, on B-CLL cells was studied. Treatment of B-CLL cells for 48 h with mitoxantrone (0.5 microg/ml) induced a decrease in cell viability as determined by MTT assay. The IC50 calculated for the cells of three patients was 0.7 microg/ml for two of them and 1.4 microg/ml for the third. In all three patients the maximum effect was observed with 2 microg/ml. An additive cytotoxic effect was observed when mitoxantrone (0.5 microg/ml) was combined with fludarabine (5 microg/ml). Mitoxantrone induced DNA fragmentation and the proteolytic cleavage of poly(ADP-ribose) polymerase (PARP), a marker of the activation of caspases, in all the patients studied, demonstrating that the cytotoxic effect of mitoxantrone was due to induction of apoptosis. These results suggest that mitoxantrone, and possibly other topoisomerase II inhibitors, may be used in the chemotherapy of B-CLL, and that combination of mitoxantrone with fludarabine or other drugs could improve the effectiveness of the treatment.
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PMID:Mitoxantrone, a topoisomerase II inhibitor, induces apoptosis of B-chronic lymphocytic leukaemia cells. 945 Aug 3

The dose-response relationships for DNA fragmentation (assessed by pulsed-field gel electrophoresis, PFGE) and for viability (evaluated by measuring the reduction of MTT dye which can be accomplished by viable cells only) were investigated in order to discriminate between genotoxicity and cytotoxicity in the pathogenesis of DNA double-strand breaks (DSB). Cultured human lung epithelial cells (A549) were treated with the DNA-intrastrand crosslinker cisplatin, the DNA-interstrand crosslinker melphalan and the topoisomerase II inhibitor etoposide. The cytotoxic mode of DSB induction was investigated by using the mitochondrial respiratory chain toxin potassium cyanide (KCN) and the detergent Triton X-100. gamma-Irradiation induced a linear dose response for DSB which were efficiently repaired and did not cause reduction in cell survival over a period of 72 h. With etoposide and melphalan a significant increase in DSB was seen 8 h after treatment initiation with concentrations that did not affect cell survival, implicating genotoxicity as the causal event. In contrast, induction of DSB by KCN and Triton X-100, and also by cisplatin, was seen only after cell viability was reduced to less than about 60%, indicating that DSB were the consequence of extragenomic damage. This mechanistic distinction of the two classes was supported by DNA fragment length analysis. In line with a genotoxic mechanism and absence of additional cytotoxic effects, the DNA fragments generated by gamma-irradiation as well as by etoposide and melphalan displayed a distribution between 1 and 4 Mbp with a peak around 2 Mbp. In contrast, DNA fragments induced by Triton X-100 and KCN peaked below 0.5 Mbp, implicating activation of DNA-degrading enzymes. This type of investigation is suggested for the study of chemicals for potential DNA interstrand crosslinking, an important promutagenic type of DNA damage. To avoid false positive results in genetic toxicity testing it is suggested that all assays include a dose-response relationship for both genotoxicity and viability.
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PMID:Discrimination between genotoxicity and cytotoxicity in the induction of DNA double-strand breaks in cells treated with etoposide, melphalan, cisplatin, potassium cyanide, Triton X-100, and gamma-irradiation. 960 61

The current treatment concept of ovarian cancer consists of radical surgery with subsequent chemotherapy. We have shown that adenovirus (ADV) mediated thymidine kinase (TK) gene transduction of cisplatin-resistant human ovarian cancer xenotransplanted into nude mice followed by ganciclovir (GCV) administration leads to prolongation of survival or cure. In this study the interaction of ADV-TK gene therapy and selected chemotherapeutic agents commonly used for the treatment of ovarian cancer was investigated in three ovarian cancer cell lines with different growth patterns. Toxicity and cell killing efficacy of gene therapy, chemotherapy and their combinations with different concentrations and time intervals were measured by a 3-(4,5- dimethylthiazol)-2,5-diphenyl tetrazolium bromide (MTT) based assay. A slightly increased resistance to gene therapy was observed in cells pretreated with chemotherapy. Removal of the drugs restored the previous susceptibility of the cells to gene therapy. No antagonism was observed with gene therapy followed by chemotherapy. The concomitant application of gene therapy and chemotherapy resulted in a higher rate of cell death than the interval therapy. A dose dependent synergistic interaction was observed only for the combination of gene therapy and the topoisomerase 1 inhibitor topotecan. This synergistic effect was still seen even if the chemotherapeutic agent was added 72 hours later. Our data demonstrate that in addition to its own therapeutic efficacy, ADV-TK based gene therapy may enhance the effect of subsequent chemotherapy while up-front chemotherapy was disadvantageous.
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PMID:Adenovirus mediated thymidine kinase gene therapy may enhance sensitivity of ovarian cancer cells to chemotherapeutic agents. 985 18

The effect of different temperatures (37-42.5 degrees C) on SN-38 (the active metabolite of CPT-11) cytotoxicity was examined in the human lung carcinoma cell lines H460 and Calu-6 as well as the murine fibrosarcoma cell line L929. The cytotoxicity of SN-38, determined by MTT cell survival assay, was significantly increased in each cell line in combination with 41.8 degrees C hyperthermia (x60-120 min); the combination of SN-38 with 40.5 degrees C and 42.5 degrees C, however, was unchanged compared to 37 degrees C. Determination of topoisomerase (Topo) I DNA cross-linking in Calu-6 cells and L929 cells after treatment with SN-38 showed the same temperature profile as seen in the cell-survival assays with increased Topo I DNA cross-linking after treatment with the combination of SN-38 and 41.8 degrees C hyperthermia and unchanged Topo I DNA cross-linking at 40.5 degrees C and 42.5 degrees C. To test the hypothesis that increased Topo I DNA cross-linking and SN-38 cytotoxicity at 41.8 degrees C is caused by hyperthermia-modulated changes in Topo I activity, catalytic activity of Topo I extracted from each cell line and of purified human Topo I was determined at 20-42.5 degrees C. Topo I activity was found to be gradually increased with rising temperatures, resulting in significantly higher activity at 41.8 degrees C compared to 37 degrees C; further increase of temperature past 41.8 degrees C decreased Topo I activity back to levels found at 37 degrees C. Our data are used to explain a series of events resulting in hyperthermic enhancement of Topo I DNA cross-linking and SN-38 cytotoxicity in combination with 41.8 degrees C hyperthermia via increased Topo I activity.
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PMID:Hyperthermic modulation of SN-38-induced topoisomerase I DNA cross-linking and SN-38 cytotoxicity through altered topoisomerase I activity. 993 39

The aim of this study was to obtain insight into the role of the multidrug resistance (MDR) phenomenon in hormone-independent progressive prostate cancer. Using immunocytochemistry and Western blotting we determined the expression of P-glycoprotein (Pgp), multidrug resistance-associated protein (MRP), glutathione-S-transferase-pi (GST-pi), Bcl-2, Bax, topoisomerase (Topo) I, II alpha and II beta in the human prostate cancer cell lines PC3, TSU-Pr1, DU145 and LNCaP derivatives LNCaP-R, LNCaP-LNO and LNCaP-FGC. Proliferative activity was assessed by immunocytochemistry. MTT assays were used to determine the sensitivity to etoposide, doxorubicin and vinblastin. Pgp was not expressed in any of the cell lines. MRP was variably expressed. GST-pi was expressed in TSU-Pr1, PC3 and DU145. The expression of Bcl-2 was restricted to TSU-Pr1, whereas Bax was found in all cell lines. Topo II alpha was expressed at the highest level in the rapidly proliferating cell lines TSU-Pr1 and DU145. Topo I and II beta were equally expressed. Resistance profiles varied among the cell lines, with TSU-Pr1 being the most sensitive and LNCaP-LNO relatively resistant. Multiple MDR proteins were expressed in prostate cancer cell lines and may well influence response to chemotherapy. Future functional studies, using chemo-selected MDR models, may further help to determine the mechanism or combination of mechanisms underlying the resistance of prostate cancer to chemotherapy.
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PMID:Chemosensitivity of prostate cancer cell lines and expression of multidrug resistance-related proteins. 1049 44


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