EC:5.99.1.2 - FACTA Search

Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: EC:5.99.1.2 (topoisomerase)
9,166 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Recent data suggest that expression of the membrane P170-glycoprotein (P-gp) may confer resistance to the topoisomerase-I-interactive agent topotecan. The present study describes the cellular effects of a new dihydropyridine analogue, PAK-200S, on P-gp-mediated resistance to topotecan in human breast and ovarian tumour cells. PAK-200S at a non-cytotoxic concentration of 2.0 microM completely reversed resistance to topotecan in P-gp-expressing MCF-7/adr (breast) and A2780/Dx5 (ovarian) tumour cells, respectively, with no effects on parental cells. Cellular pharmacokinetic studies by reversed-phase high-performance liquid chromatography analysis showed significantly lower cellular drug concentrations of the pharmacologically active closed-ring lactone of topotecan in multidrug-resistant cells than in parental cells. PAK-200S was effective in restoring the cellular lactone concentrations of topotecan in resistant MCF-7/adr cells to levels comparable to those obtained in parental cells. Furthermore, exposure of MCF-7/adr cells to topotecan in the presence of PAK-200S significantly increased the induction of protein-linked DNA breaks. PAK-200S did not alter nuclear topoisomerase I-mediated ex vivo pBR322 DNA plasmid unwinding activity and topoisomerase-I protein expression. These results suggest that reversal of P-gp-mediated resistance to topotecan by PAK-200S was related to the restoration of cellular drug concentrations of the active lactone form of topotecan rather than a direct effect on topoisomerase-I function.
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PMID:Reversal of MDR1-associated resistance to topotecan by PAK-200S, a new dihydropyridine analogue, in human cancer cell lines. 1060 26

We have tested the sensitivity of human MCF-10A mammary epithelial cells and of their transformed derivatives overexpressing an activated c-Ha-ras gene (MCF-10A Ha-ras cells), the c-erbB-2 gene (MCF-10A c-erbB-2 cells) or both genes (MCF-10A HE cells) to different cytotoxic drugs. As compared with parental MCF-10A cells, the transformed cells exhibited an increased sensitivity to topoisomerase I- and topoisomerase II-inhibitors, and to platinum-derivatives with a 2- to 10-fold reduction in IC(50) values. A remarkable difference in sensitivity was observed following treatment with taxanes. While MCF-10A Ha-ras cells showed an increased sensitivity, MCF-10A c-erbB-2 and MCF-10A HE cells exhibited a relative resistance to taxol and taxotere, with an approximately 3.5- to 6.5-fold higher IC(50) as compared with MCF-10A cells suggesting that c-erbB-2 overexpression has a dominant effect compared with an activated c-Ha-ras gene. The type I cAMP-dependent protein kinase (PKAI) is overexpressed in cancer cells. Inhibition of PKAI by antisense oligonucleotides targeting its RIalpha regulatory subunit results in cancer cell growth inhibition. To evaluate the effect of blocking PKAI on MCF-10A cell sensitivity to taxanes, we treated these cells with taxol or taxotere in combination with a PKAI antisense oligonucleotide. Treatment with this agent, but not with a control scramble sequence, was able to overcome the effect of c-erbB-2 overexpression on MCF-10A cell sensitivity to taxol and taxotere, with a 20- to 40-fold shift in the IC(50) values for the 2 drugs.
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PMID:Resistance to taxanes is induced by c-erbB-2 overexpression in human MCF-10A mammary epithelial cells and is blocked by combined treatment with an antisense oligonucleotide targeting type I protein kinase A. 1069 53

1DNA topoisomerase II (topo II) is a nuclear enzyme that modifies DNA topology and also serves as a target to mediate the cytotoxicity of several antineoplastic agents. Several reports have demonstrated that a reduction of topo II is associated with reduced sensitivity to these agents. Topo II exists as two isoforms in mammalian cells: topo IIalpha and topo IIbeta. In MCF-7 cells, the half-life (mean +/- SEM) values of topo IIalpha and topo IIbeta in situ were 6.6 +/- 0.3 and 17.6 +/- 2.3 hr, respectively, as determined by [(35)S]methionine/cysteine pulse-chase analysis. Degradation of topo IIalpha in situ was abrogated by the presence of proteasome inhibitors, and the relative activities were carbobenzoxy-leucyl-leucyl-leucinal (MG132) > carbobenzoxy-leucyl-leucyl-norvalinal (MG115) > ALLN congruent with lactacystin. ATP-dependent degradation of topo IIalpha, but not topo IIbeta, was observed in extracts of asynchronously dividing HeLa and MCF-7 cells. Furthermore, degradation of topo IIalpha was abrogated by the proteasome inhibitors MG132 and MG115, but not by lactacystin, in extracts of asynchronously dividing MCF-7 cells. Finally, degradation of topo IIalpha, but not topo IIbeta, was observed to occur in a cell cycle-dependent fashion, in extracts of synchronized HeLa cells, with maximal loss of the alpha isoform occurring 2 hr after release from mitotic arrest. This degradation of topo IIalpha appeared to be facilitated by an ATP-dependent activity. Furthermore, high molecular weight bands (>200 kDa), which may represent polyubiquitinated-topo IIalpha conjugates, were also detected in extracts of synchronized HeLa cells. This study provides evidence for a role of the ubiquitin-proteasome pathway in the cell cycle-dependent regulation of topo IIalpha expression.
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PMID:Role of proteasomal degradation in the cell cycle-dependent regulation of DNA topoisomerase IIalpha expression. 1127 64

Telomerase activity is necessary and sufficient for immortality in many cells and hence represents a prime target for antitumor strategies. Here, we show that a hammerhead ribozyme cleaves human telomerase (hTERT) mRNA in vitro. Stable transfection in clones of the human breast tumor line MCF-7 and the immortal breast cell line HBL-100 results in expression of the ribozyme, diminishes the abundance of hTERT mRNA, and inhibits telomerase activity. This led to shortened telomeres, inhibition of net growth, and induction of apoptosis. In HBL-100 mass cultures infected with a ribozyme-expressing adenovirus diminution of hTERT mRNA, attenuation of telomerase activity, inhibition of net growth, and induction of apoptosis was found as well. Attenuation of telomerase activity increased the sensitivity of HBL-100 and MCF-7 clones specifically to inhibitors of topoisomerase. Likewise, expression of exogenous telomerase in originally telomerase-negative human fibroblasts decreased their sensitivity to topoisomerase poisons but not to a number of other cytotoxic drugs. The data validate a ribozyme approach for telomerase inhibition therapy in cancer and suggest that it might be combined advantageously with topoisomerase-directed chemotherapy.
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PMID:Ribozyme cleavage of telomerase mRNA sensitizes breast epithelial cells to inhibitors of topoisomerase. 1130 87

The cell lines described in the present study were isolated as part of an effort to understand resistance to topoisomerase (topo) II inhibitors. To that end, 50 sublines were isolated from four human breast cancer cell lines, i.e., MCF-7, T47D, MDA-MB-231, and ZR-75B. As an initial step, a concentration that would be lethal to the majority of cells (IC99) was selected for both VP-16 and mAMSA, for each cell line. The identification of an increasing number of putative drug resistance-related proteins provided the opportunity to examine expression of the corresponding genes in the selected cell lines. Northern blot analysis revealed different responses to the selecting agents in the different cell lines. Previous studies examining expression of multidrug resistance (MDR)-1 in resistant cell lines had found undetectable levels in all cells. In the ZR-75B sublines, increased expression of MDR-associated protein (MRP) and canalicular multispecific organic anion transporter (cMOAT) was observed, and when the relative levels of overexpression were compared, a high correlation was found. In contrast, increased expression of MRP was observed in some of the MDA-MB-231 sublines, without a concomitant increase in cMOAT expression. Finally, in both T47D and MCF-7 sublines, increased expression of cMOAT or MRP was observed infrequently, and where it occurred, was of a much smaller magnitude. In the analysis of expression of MRP, the highest levels were found in the ZR-75B and MDA-MB-231 sublines, with lower levels in the MCF-7 and T47D clones. Similarly, differences in the expression of topo IIalpha were observed among the sublines. Although the differences in expression appear to depend on the parental cell line from which the resistant sublines were derived, a strong correlation was observed between the expression of MRP and the levels of topo IIalpha. Cell lines with low levels of MRP had lower levels of topo IIalpha, while those with high levels of MRP maintained higher levels of topo IIalpha. While a reduced topo IIalpha level was common, there did not appear to be a compensating increase in the expression of topo IIbeta or topo I or casein kinase (CK) IIalpha in any of the cell lines. While the possibility that such compensation could occur has been discussed and even reported in some cell lines, such an adaptation was not observed in the present study, suggesting that it is not common.
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PMID:Expression of drug resistance genes in VP-16 and mAMSA-selected human carcinoma cells. 1147 29

Topoisomerase IIalpha is a target for many chemotherapeutic agents in clinical use. To define mechanisms of resistance and regions crucial for the function of topoisomerase IIalpha, drug-resistant cell lines have been isolated following exposure to topoisomerase II poisons. Two resistant sublines, T47D-VP and MCF-7-VP, were isolated from human carcinoma cell lines following exposure to 300 or 500 ng / ml etoposide (VP-16). Cytotoxicity studies confirmed resistance to etoposide and other topoisomerase II poisons. KCl-sodium dodecyl sulfate (K-SDS) precipitation assays using intact cells showed reduced DNA-topoisomerase II complex formation following VP-16 or amsacrine (m-AMSA). RNAse protection analysis identified a deletion of 200 base pairs in the topoisomerase IIalpha cDNA of T47D-VP and rising dbl quote, left (low)AA insertion" in the topoisomerase IIalpha cDNA of MCF-7-VP. Reduced topoisomerase IIalpha mRNA and protein levels were observed in both cell lines. It was somewhat surprising to find that nuclear extracts from T47D-VP and MCF-7-VP cells had comparable topoisomerase II activity to that of parental cells. Analysis of the extent of phosphorylation demonstrated that topoisomerase IIalpha from the resistant cells was relatively hypophosphorylated compared to that of parental cells. In these cell lines, hypophosphorylation secondary to loss of a portion of the C-terminal domain of topoisomerase IIalpha mediated the restored activity, despite a fall in topoisomerase IIalpha mRNA and protein, and this resulted in cross resistance to topoisomerase II poisons.
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PMID:Hypophosphorylation of topoisomerase IIalpha in etoposide (VP-16)-resistant human carcinoma cell lines associated with carboxy-terminal truncation. 1147 32

A series of four aromatic extended bisamidines (12-15) differing in the nature of their terminal basic side chains were synthesized and evaluated for cytotoxic activity in MCF-7 cultured breast cancer cells. The concentrations of 12, 13, 14, and 15 needed to inhibit [3H]thymidine incorporation into DNA by 50% (IC50) were found to be 63 microM, 85 microM, 77 microM, and 97 microM, respectively. To test whether cytotoxic properties were related to DNA-binding and topoisomerase action, the bisamidines 12-15 were evaluated in a cell-free system. Data from the ethidium displacement assay showed that bisamidines 12-15 have significant affinity for DNA and show moderate specificity for AT base pairs. In the topoisomerase II assay, the relaxation of DNA was inhibited with all four drugs and the extent of inhibition was directly proportional to the drug concentration. This suggests that DNA binding may be implicated in the cytotoxicity of these bisamidines, possibly by inhibiting interactions between topoisomerase II and their DNA targets.
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PMID:Aromatic extended bisamidines: synthesis, inhibition of topoisomerases, and anticancer cytotoxicity in vitro. 1151 74

To understand resistance to topoisomerase II inhibitors, we used four cancer cell lines (ZR-75B, MDA-MB-231, T47D, and MCF-7) and performed a single-step selection process to isolate 50 clones resistant to topoisomerase II inhibitors. Of these, 26 were isolated with VP-16 and 24 with mAMSA. Sixteen of these isolates (four from each cell line; two selected with VP-16 and two with mAMSA) were further exposed to higher drug concentrations. Characterization of the resistant sublines revealed the adaptation that occurs with increasing drug concentration during in-vitro selections. Reduced topoisomerase IIalpha mRNA level was observed in the majority of the initial isolates. This reduction was accompanied by a decrease in topoisomerase II activity. Other isolates showed increased levels of multidrug resistance-associated protein (MRP). With advancing resistance, MRP expression was increased further, concomitantly with some recovery in topoisomerase IIalpha expression and topoisomerase II activity. In these sublines, high levels of resistance were attained as a result of synergism between the reduced topoisomerase IIalpha levels and MRP overexpression. These results extend previous studies demonstrating how cellular adaptation to increasing drug pressure utilizes more than one mechanism. Reduced expression of topoisomerase IIalpha occurs early in the selection process. MRP overexpression can occur early or can help to confer high levels of resistance. In the latter case, MRP overexpression allows some recovery of topoisomerase II activity without loss of high drug resistance.
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PMID:Altered topoisomerase IIalpha and multidrug resistance-associated protein levels during drug selection: adaptations to increasing drug pressure. 1157 65

Antineoplastic bis(dioxopiperazine)s, such as meso-2,3-bis(2,6-dioxopiperazin-4-yl)butane (ICRF-193), are widely believed to be only catalytic inhibitors of topoisomerase II. However, topoisomerase inhibitors have little or no antineoplastic activity unless they are topoisomerase poisons, a special subclass of topoisomerase-targeting drugs that stabilize topoisomerase-DNA strand passing intermediates and thus cause the topoisomerase to become a cytotoxic DNA-damaging agent. Here we report that ICRF-193 is a very significant topoisomerase II poison. Detection of topoisomerase II poisoning by ICRF-193 required the use of a chaotropic protein denaturant in the topoisomerase poisoning assays. ICRF-193 caused dose-dependent cross-linking of human topoisomerase IIbeta to DNA and stimulated topoisomerase IIbeta-mediated DNA cleavage at specific sites on (32)P-end-labeled DNA. Human topoisomerase IIalpha-mediated DNA cleavage was stimulated to a lesser extent by ICRF-193. In vivo experiments with MCF-7 cells also showed the requirement of a chaotropic protein denaturant in the assays and selectivity for the beta-isozyme of human topoisomerase II. Studies with two topoisomerase IIbeta-negative cell model systems confirmed significant topoisomerase II poisoning by ICRF-193 in the wild type cells and were consistent with beta-isozyme selectivity. Common use of only the detergent, SDS, in assays may have led to failure to detect topoisomerase II poisoning by ICRF-193 in earlier studies.
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PMID:Topoisomerase II poisoning by ICRF-193. 1157 77

The topoisomerase II inhibitors teniposide (VM-26), doxorubicin, and amsacrine (m-AMSA), as well as ionizing radiation, induce a transient suppression of c-myc mRNA, which correlates with growth inhibition of MCF-7 breast tumor cells. To further assess the involvement of c-mvc in the DNA damage-induced signal transduction pathways of the breast tumor cell, we determined the influence of sustained DNA damage on c-myc expression, c-Myc protein levels and c-Myc function. Continuous exposure of MCF-7 breast tumor cells to VM-26 induced DNA strand breaks that were sustained for at least 9 hr. DNA strand breakage was accompanied by a decline in c-myc transcripts and c-Myc protein levels by >90% after VM-26 exposure for 24 hr. The activity of a transcriptional target of the c-Myc protein, ornithine decarboxylase, was reduced by approximately 75% within 9 hr of DNA damage, in parallel to the declines in c-myc mRNA and protein levels. Extended exposure to VM-26 resulted in an initial loss of approximately 35% of the cell population followed by the death of additional cells such that by 72 hr only 50% of the cells were viable. Although apoptosis was evident 72 hr after initiating drug exposure [based on cell cycle analysis, terminal deoxynucleotidyl transferase-mediated dUTP nick end-labeling (TUNEL) assays, and an assessment of cell morphology], the primary phase of cell killing, which occurred during the first 24 hr was non-apoptotic. These studies indicate that non-apoptotic pathways can also mediate cell death in the breast tumor cell and support the role of c-myc expression, c-Myc protein, and c-Myc function as elements of the DNA damage response pathway in the breast tumor cell.
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PMID:Suppression of c-myc expression and c-Myc function in response to sustained DNA damage in MCF-7 breast tumor cells. 1158 56

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