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)

Drug resistant cells often have an increased capacity to repair their DNA after damage by cytotoxic agents. Aphidicolin can inhibit this DNA repair. We describe a study of the effect of aphidicolin to modulate the sensitivity to cytotoxic drugs of blast cells from 13 patients with AML, 11 with de novo disease on presentation and 2 secondary to MDS. Three patients had relapsed following previous therapy and samples were received from 1 patient both on presentation and relapse. Blast cells were exposed to anthracyclines, antimetabolites or etoposide +/- aphidicolin (15 microM) for 48 hours. The MTT assay was used to measure cell survival and the LC50 (concentration of drug required for 50% cell kill) was calculated. Overall, there was a significant increase in sensitivity to ara-C on co-incubation with aphidicolin in 12/14 samples (p = 0.007). The median increase in sensitivity was 3.88-fold (range 1.26- to 80-fold). Interestingly, when patients were grouped according to in vitro sensitivity to ara-C, cells from resistant patients demonstrated the greatest increase in sensitivity (median 14-fold compared to 2-fold for the sensitive group, p = 0.02). Despite the documented evidence for altered DNA repair as a mechanism of resistance to the topoisomerase II inhibitors, we found no significant increase in sensitivity to daunorubicin, doxorubicin or etoposide on co-incubation with aphidicolin. Nevertheless, we believe the unparalleled modulation of ara-C warrants further investigation.
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PMID:Aphidicolin markedly increases the in vitro sensitivity to ara-C of blast cells from patients with AML. 1050 Aug 35

Preliminary clinical trials suggest that iodine-131 ((131)I)-labeled anti-CD20 monoclonal antibodies (MAbs) are effective single agents for the treatment of relapsed non-Hodgkin's B-cell lymphomas. However, despite high initial response rates, most patients treated in this manner will eventually relapse. We hypothesized that regimens combining (131)I-anti-CD20 antibodies with standard chemotherapeutic agents may provide synergistic anti-tumor effects, and may improve the durability of responses in patients with lymphoma. To identify promising agents for clinical testing, we assessed the in vitro cytotoxicity of combinations of (131)I-anti-B1 (anti-CD20) antibody and 8 chemotherapeutic agents using 2 human CD20-expressing lymphoma cell lines and 2 corroborative assays, the thiazolyl tetrazolium bromide (MTT) and the Trypan blue dye exclusion assays. ID(50) isobolographic and dose modification factor (DMF) analyses were used to classify interactions between the (131)I-anti-B1 antibody and the chemotherapeutic agents as supra-additive (synergistic), additive or sub-additive. Cytarabine and fludarabine were markedly supra-additive when combined with the radioimmunoconjugate, with the combination enhancing cytotoxicity 3. 5- to 5.2-fold over the level expected by simple addition of the 2 agents (DMFs 3.5-5.2). Etoposide, doxorubicin and SN-38 were moderately supra-additive (DMFs 2.0-2.8). Cisplatin and 4-hydroxycyclophosphamide exhibited merely additive cytotoxicity (DMFs 1.0-1.1). Thus, combination regimens containing (131)I-labeled anti-CD20 antibodies and nucleoside analogs or topoisomerase inhibitors appear particularly attractive for future clinical trials.
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PMID:Synergistic cytotoxicity of iodine-131-anti-CD20 monoclonal antibodies and chemotherapy for treatment of B-cell lymphomas. 1058 92

The resistance of several leukaemic and myeloma cell lines (CCRF, L1210, HL-60, KG-1a and RPMI 8226) to VP-16 was found to increase with cell density and to be maximal (3.5- to 39-fold) in plateau phase cell cultures, as measured by clonogenic and MTT assays. Non-transformed confluent Flow 2000 human fibroblasts and Chinese hamster ovary (CHO) cells were also five- and 15-fold resistant to VP-16 respectively. The transition from log to plateau phase was accompanied by a drastic decrease in topoisomerase (topo) IIalpha content in CHO cells and human fibroblasts, while the leukaemic cells maintained constant cellular levels of topo IIalpha and topo IIbeta. However, the nuclear topo IIalpha content was found to decrease as a result of translocation of the enzyme to the cytoplasmic compartment in the leukaemic cells. This was confirmed by subcellular fractionation experiments, Western blotting analyses and immunocytochemistry studies. The quantity of topo IIalpha in plateau phase cytoplasmic fractions ranged from 18% in L1210 cells to 50% in HL-60 and 8226 cells, as measured by both immunoblotting and quantification of the label in immunofluorescent images. The cytoplasmic fraction from plateau phase cells retained topo II catalytic activity, as measured by the decatenation of kinetoplast DNA. The nuclear-cytoplasmic ratio of topo IIalpha may be critical in determining the sensitivity of leukaemic cells to topo II inhibitors. Cytoplasmic trafficking of topo IIalpha was observed in plasma cells obtained from patients with multiple myeloma, and perhaps contributes to drug resistance in this disease.
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PMID:Cell density-dependent VP-16 sensitivity of leukaemic cells is accompanied by the translocation of topoisomerase IIalpha from the nucleus to the cytoplasm. 1069 64

Topoisomerase II alpha is a critical gene involved in DNA replication and maintenance of genomic stability. Several chemotherapeutic agents target topoisomerase II and levels of expression are an important factor in chemosensitivity. Transcriptional regulation has been demonstrated to regulate topoisomerase II alpha levels under several circumstances, including cellular confluence, heat shock, and expression of oncogenes including ras and myb. Expression of topoisomerase II alpha is regulated by cellular proliferation; transcriptional down-regulation in confluent cells is modulated through sequences within the promoter. In this study, we examined DNA-protein interactions within the topoisomerase II alpha promoter in exponential and confluent phase NIH3T3 cells. Using electrophoretic mobility shift assay and in vitro DNase I footprint experiments, the involvement of NF-Y in transcriptional regulation was established. Incubation of the DNA minor groove-binding agents Hoechst 33342 and Hoechst 33258 with nuclear extracts revealed drug binding to regions surrounding the inverted CCAAT boxes within the topoisomerase II alpha promoter and displacement of proteins binding to these elements. Addition of both Hoechst 33342 and Hoechst 33258 to NIH3T3 cells at confluence resulted in increased expression of topoisomerase II alpha. In addition, MTT cytotoxicity assays in confluent cells showed an additive effect of incubation with Hoechst 33342 and the topoisomerase II alpha poison etoposide. Therefore, DNA binding drugs which block transcription factor activation of the promoter may deregulate topoisomerase II alpha and this strategy may be of value in modifying gene expression and modulating chemosensitivity.
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PMID:Transcriptional regulation of topoisomerase II alpha at confluence and pharmacological modulation of expression by bis-benzimidazole drugs. 1125 13

Howiinol A (GHM-10) is a kind of phenylethylene pyrone compounds isolated from Goniothalamus howii. By using the techniques of cell growth curve determination, MTT test, soft agar colony assay and experimental therapy of transplantable tumors in mice, it is found that GHM-10 exerts potent inhibitory effect on cancer cells but its influence on normal cells is relatively slight; the sensitivity of a drug-resistant cell line, KB/VCR 2000, to GHM-10 is similar to its parent cell line KB. Remarkable therapeutic effect can be seen in mice bearing H22 hepatoma and Lewis lung cancer and in mice with ascetic sarcoma 180 when GHM-10 is orally or intraperitoneally administered. The IC50s of L1210 cells treated with GHM-10 for 1 and 24 h are 6.85 and 3.32 micrograms.ml-1 respectively. The ratio of IC50 1 h and IC50 24 h is only 2.06, indicating that the action of GHM-10 is conformed to a cell cycle non-specific cytotoxic agent. By using trypan blue exclusive test and morphological examination, it is demonstrated that the main effect of GHM-10 is to inhibit the cell proliferation. Flow cytometery technique is used to analyze the cell cycle of L1210 cells. The results show that to some extent, GHM-10 blocks the cell cycle transition from G1 phase to S phase. By using [3H] labeled precursor incorporation technique, it is shown that GHM-10 significantly suppresses the biosynthesis of DNA, RNA and protein in L1210 cells, and the DNA synthesis is mostly affected. At 1 h after the cells were treated with GHM-10, these inhibitory effects have already been irreversible, suggesting that GHM-10 may cause structural damage on DNA molecules. However, GHM-10 is unable to intercalate into DNA molecules or to destroy its structure directly. By using single cell gel electrophoresis and alkaline elution technology, it is confirmed that GHM-10 causes DNA molecule damage and single strand breakage in L1210 cells. Further studies show that GHM-10 markedly inhibits DNA dehelix induced by DNA topoisomerase II both inside and outside the cells, indicating that GHM-10 is acting as an inhibitor of DNA topoisomerase II.
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PMID:Anticancer effect of Howiinol A and its mechanism of action. 1126 Dec 1

Combination of selecting agents that act on different cellular mechanisms is a common strategy in cancer chemotherapy. GL331 is a new potent topoisomerase II (Topo II) poison; distinctly, paclitaxel is a microtubule-interfering cancer chemotherapeutic agent. In this study, we intended to evaluate the efficacy of combining GL331 with paclitaxel in cell killing and apoptotic induction in nasopharyngeal carcinoma NPC-TW01 cells. By MTT and internucleosomal DNA cleavage assays, we found that pretreatment or simultaneous treatment of NPC-TW01 cells with GL331 could significantly interfere with paclitaxel's cell killing and apoptosis-inducing activity. When the administration schedule was reversed, the cytotoxicity of GL331 was attenuated by paclitaxel pretreatment. The anti-cancer activity produced by combining GL331 with paclitaxel was obviously lower than the addition of the activities of two individual agents. NPC-TW01 cells were treated with GL331 and 3H-labeled paclitaxel simultaneously or with GL331 before 3H-labeled paclitaxel. In both conditions, GL331 did not reduce the [3H]paclitaxel level in the cells, suggesting that GL331's interference with paclitaxel's cell-killing and apoptosis-inducing efficacy did not result from any inhibition of cellular uptake or retention of paclitaxel. In addition, we found that GL331-induced perturbation of cell cycle progression dramatically over-rode the patterns of mitotic arrest induced by paclitaxel, and the mechanism could be the inhibition of cyclin B1/CDC2 kinase and MAD2 checkprotein activities.
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PMID:Evaluation of GL331 in combination with paclitaxel: GL331's interference with paclitaxel-induced cell cycle perturbation and apoptosis. 1129 Aug 73

The relationship between expression and function of the epidermal growth factor (EGF) family of receptors and chemosensitivity remains controversial. We studied the chemosensitivity to various anticancer agents of human cervical squamous carcinoma ME180 cells, and two resistant subclones, ME180/TNF and ME180/Pt, which also differ in their EGF receptor (EGFR) expression. Compared with ME180 cells, EGFR is overexpressed sixfold in ME180/TNF cells and is barely detectable in ME 180/Pt cells. Cell cycle analysis by flow cytometry and BrdU incorporation into DNA showed a correlation between EGFR expression and percentage of cells in S phase and active DNA replication (35% in high EGFR-expressing ME180/TNF cells, 19% in non-EGFR-expressing ME180/Pt cells and 23% in parental, intermediate-level EGFR-expressing ME 180 cells). By MTT assay and compared with parental, intermediate-level EGFR-expressing ME180 cells, high EGFR-expressing ME180/TNF cells had a three- to fourfold increased sensitivity to cisplatin, camptothecin (CPT), and topotecan, and low EGFR-expressing ME180/Pt cells had a five- to ninefold reduced sensitivity to the same agents. In contrast, the degree of cross-resistance with the topoisomerase II inhibitors doxorubicin and etoposide was minimal and the pattern of sensitivity to the anti-microtubulin agents vinblastine and paclitaxel was different, with a two- to fourfold decreased sensitivity in the high EGFR-expressing ME180/TNF cells and only a 1.5-fold decreased sensitivity in the low EGFR-expressing ME180/Pt cells. Neither alterations in intracellular CPT levels nor changes in topoisomerase I expression or activity, measured as ability to form DNA-protein complexes, were found to explain the differences in sensitivity to CPT among the three cell lines. Co-treatment with CP358774, a specific EGFR tyrosine kinase inhibitor, reduced the enhanced sensitivity of high EGFR-expressing ME180/TNF cells to the values observed in intermediate EGFR-expressing ME180 cells, but only reduced modestly the sensitivity of intermediate expressing ME180 cells. As a result, the resistance index of low EGFR-expressing ME180/Pt cells compared with intermediate EGFR-expressing ME180 cells was reduced only from five- to fourfold for cisplatin and from seven- to fourfold for CPT when ME180 cells were exposed to CP358774. CP358774 did not affect the sensitivity to either agent in low EGFR-expressing ME180/Pt cells. These results provide evidence that changes in EGFR expression or function may play a role in determining chemosensitivity to platinum and topoisomerase I poisons in some human tumor systems, and that the EGFR-related changes in chemosensitivity may vary depending on the level of EGFR expression and/or function.
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PMID:Sensitivity to topoisomerase I inhibitors and cisplatin is associated with epidermal growth factor receptor expression in human cervical squamous carcinoma ME180 sublines. 1145 99

Renal Cell Carcinomas (RCCs) exhibit strong resistance to the most chemotherapeutic treatments probably due to the expression of various multidrug resistance (MDR) genes. Overexpression of P-glycoprotein (Pgp) is established as one such factor, but other mechanisms such as at-MDR, characterized by attenuated DNA-topoisomerase II (topoII) activity, may be functional as well. In addition, regulating proteins involved in apoptosis can exhibit multidrug resistant features. However, prevention of apoptosis as a mechanism of MDR has not yet been assessed in RCC, nor has the cytotoxicity of a variety of chemotherapeutic agents known to trigger apoptotic or necrotic cell death been tested in RCC in a systematic fashion. Using immunohistochemistry and Western blotting, Bcl-2 and Bax expression was determined in a panel of multidrug resistant RCC lines featuring Pgp and/or at-MDR. The results were related to apoptotic activity and kind of cell death in these cell lines, demonstrated by incubation with Hoechst 33342 and propidium iodide after treatment with various cytotoxic agents and quantitated by MTT. In the drug resistant sublines, some decreased Bax and strongly increased Bcl-2 expression was seen by immunohistochemistry indicating prevention of apoptosis as a distinct feature of MDR in RCC. This was confirmed by Western blotting. Sublines revealed significant resistance for all drugs, except for CC-313 and DiMIQ. However, these drugs induced necrotic cell death, in contrast to all other drugs tested, which induced apoptotic cell death. We conclude that, in chemoselected RCC sublines, multidrug resistance appears to be functional due to inhibition of apoptosis, apart from the MDR1 and at-MDR resistance mechanisms. CC-313 and DiMIQ are very potent cytotoxic agents in RCC, probably because they do not kill by induction of apoptosis.
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PMID:Inhibition of apoptotic proteins causes multidrug resistance in renal carcinoma cells. 1184 68

The aim of the study was to investigate the antitumor and/or preventive effect of BC-4, an isomeric compound isolated from the plant Boswellia carteri Birdw. containing alpha- and beta-boswellic acid acetate in 1:1, MW 498.3. We used the MTT (3-(4,5-dimethylthiazol-2-yl) 2,5-diphenyltetrazolium bromide) assay to study the growth inhibition activity of BC-4. Tumor cells migration within a three-dimensional collagen matrix was recorded by time-lapse videomicroscopy and computer-assisted cell tracking. Topoisomerase II was isolated from mouse melanoma B16F10 cells and its activity was determined by its ability to cut plasmid pBR322 DNA. The secretion and activity of matrix metalloproteinases (MMPs) from human fibrosarcoma HT-1080 cells were determined by gelatin zymography. BC-4 was a cytostatic compound and could induce the differentiation of B16F10 mouse melanoma cells, blocked the cell population in G1 phase and inhibited topoisomerase II activity. The G1 phase population of B16F10 cells was increased from 57.4 to 87.7%, while S phase population was reduced from 33.3 to 5.9% after treatment with BC-4 at 25 microM concentration for 48 h. BC-4 also inhibited the migration activity of B16F10. BC-4 could induce apoptosis of HT-1080 cells, as proved by acridine orange fluorescence staining, Wright-Giemsa staining, electromicroscopy, DNA fragmentation and flow cytometry. BC-4 inhibited the secretion of MMPs from HT-1080 cells, too. In conclusion, if it turns out that BC-4 is a well tolerated substance, exhibiting no significant toxicity or side effects, being evaluated currently in China, BC-4 is a good candidate for the prevention of primary tumor, invasion and metastasis.
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PMID:Boswellic acid acetate induces differentiation and apoptosis in highly metastatic melanoma and fibrosarcoma cells. 1260 Apr 19

Tafluposide (F 11782), a novel epipodophylloid with a unique mechanism of interaction with both topoisomerase I and II, has shown outstanding antitumor activity in vivo against a panel of experimental human tumor xenografts. The aim of this study was to evaluate its cytotoxicity against fresh tumor cells taken from patients. Cells derived from bone marrow, peripheral blood, malignant effusions or solid biopsies from 84 patients with either hematological or solid tumors were exposed continuously to 0.8-100 nuM tafluposide for 48 h, 96 h or 7 days. Cell survival was measured using an MTT assay or the ATP assay and LC(50) values (drug concentration required for 50% cell kill) were calculated. Tafluposide showed significant cytotoxicity against cells derived from either hematological or solid tumors, with a marked inter-patient variation. There was no significant difference between the effect of tafluposide in samples from untreated or previously treated patients (p>0.05 for all cancer types). Whilst tafluposide appeared to show weak (p<0.05) cross-resistance with the topoisomerase II inhibitor etoposide in acute myeloid leukemia (AML), there did not appear to be any correlation with the effect of the topoisomerase I inhibitor topotecan (p>0.05) in either hematological or solid malignancies. True synergism was identified when combining tafluposide with cisplatin in ovarian cancer [combination index (CI)=0.14, 0.79] and with etoposide in AML (CI=0.49, 0.63 and 0.78). Our results suggest that tafluposide is a strong candidate for inclusion in clinical trials, particularly in hematological malignancies.
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PMID:Ex vivo effects of the dual topoisomerase inhibitor tafluposide (F 11782) on cells isolated from fresh tumor samples taken from patients with cancer. 1285 90


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