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:5.99.1.2 (topoisomerase)
9,166 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Expression of v-ras(H) in NCI-H82 human small cell lung cancer (SCLC) cells results in a line (NCI-H82ras(H)) with a non-small cell phenotype (Mabry et al., Proc Natl Acad Sci USA 85: 6523-6527, 1988). This v-ras(H) -associated phenotypic change is prevented by treatment with trans-retinoic acid (tRA) (Kalemkarian et al., Cell Growth Differ 5: 55-60, 1994). The present studies were performed to examine changes in drug sensitivity that accompanied these phenotypic changes. v-ras(H) expression was associated with increased metallothionein-IIa (MT-IIa) mRNA and decreased levels of nonprotein sulfhydryls in NCI-H82ras(H) cells compared with -H82 cells. These changes were accompanied by the development of CdCl2 resistance without any change in cisplatin sensitivity. In contrast, growth of parental NCI-H82 cells in 1 microM tRa resulted in increased MT-IIa mRNA without any change in nonprotein sulfhydryls. In these cells, a 3.3-fold increase in cisplatin IC50 was observed. Examination of the action of topoisomerase (topo) poisons revealed that NCI-H82 and -H82ras(H) cells had indistinguishable levels of topo II polypeptides and indistinguishable sensitivities to etoposide, an agent that is often combined with cisplatin clinically. On the other hand, v-ras(H) expression was accompanied by a 2-fold increase in topo I activity and a 1.7-fold decrease in IC50 for the topo I-directed agent camptothecin. These changes resulted in 30-fold lower survival of NCI-H82ras(H) cells compared with -H82 cells at camptothecin concentrations as low as 10 nM. In summary, these studies demonstrate that chronic tRA treatment is accompanied by decreased cisplatin sensitivity in NCI-H82 human SCLC cells. In contrast, v-ras(H) expression is not associated with any change in cisplatin or etoposide sensitivity, but is accompanied by increased camptothecin sensitivity.
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PMID:Effect of v-rasH on sensitivity of NCI-H82 human small cell lung cancer cells to cisplatin, etoposide, and camptothecin. 884 24

We used human tumor cell lines from the National Cancer Institute's In Vitro Antineoplastic Drug Screen to assess whether sensitivity to any of the approximately 45,000 compounds tested previously correlated with the presence of a ras oncogene. Among these cell lines, the mutations in Ki-ras2 clustered in non-small cell lung and colon carcinoma subpanels, and five of the six leukemia lines contained mutations in either N-ras or Ki-ras2. These analyses revealed a striking correlation with 1-beta-D-arabinofuranosylcytosine (Ara-C) and 2,2'-O-cyclocytidine sensitivity in the cell lines harboring ras mutations compared to the tumor lines with wild-type ras alleles. Strong correlations were also found with topoisomerase (topo) II inhibitors, especially 3'-hydroxydaunorubicin and an olivacine derivative. These differential sensitivities persisted in an additional 22 non-small cell lung carcinoma lines (ras mutations, n = 12 and wild-type ras, n = 10). Thus, the association with Ara-C sensitivity was greatest while topo II inhibitors showed a lower, but significant, correlation. These results suggest that the ras oncogene may play a determinant role in rendering tumor cells sensitive to deoxycytidine analogues and topo II inhibitors.
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PMID:Enhanced sensitivity to 1-beta-D-arabinofuranosylcytosine and topoisomerase II inhibitors in tumor cell lines harboring activated ras oncogenes. 891 59

The exact mechanisms for the selective toxicity of chemotherapeutic drugs against tumor cells are not fully understood. We designed a series of experiments to test the possibility that the positive proliferative signal initiated by oncogenes might change the sensitivity for apoptosis induction by the anticancer drug etoposide (VP16), an inhibitor of topoisomerase II (Topo II). Treatment with VP16 induced significantly increased apoptosis in NIH3T3 cells transformed by oncogenic src, ras or raf, compared with the normal 3T3 cells. Apopototic changes involved nuclear DNA fragmentation, morphological alterations and decreased viability. Furthermore it was shown that stress-activated protein kinase (SAPK) was activated much more strongly in all three transformed lines compared to untransformed cells by VP16 treatment, while slight activation of extracellular signal-regulated kinase (ERK1) was observed in all four cell lines. In addition, the transformed cells displayed arrest in mid-S-phase following the treatment, whereas NIH3T3 cells were primarily arrested in late S and G2/M phase. Finally, the cyclin-dependent kinase inhibitor p21 WAF1 was induced in all four cell lines, although induction of p53 was not detected in any of these cell lines. Taken together our results demonstrated that oncogenic transformation can sensitize the cells to apoptosis induction, stress kinase activation and cell cycle arrest in response to VP16 treatment. These results may have important implications for understanding the selective toxicity of anti-cancer drugs in tumor cells.
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PMID:Oncogenic transformation potentiates apoptosis, S-phase arrest and stress-kinase activation by etoposide. 934 97

The activity of topotecan was evaluated in patients with myelodysplastic syndrome (MDS) and chronic myelomonocytic leukemia (CMML). Sixty patients with a diagnosis of MDS (n = 30) or CMML (n = 30) were treated. Their median age was 66 years, with 50 patients (83%) being over 60 years of age at time of study entry. Chromosomal abnormalities were present in 50% of patients and thrombocytopenia of less than 50 x 10(9)/L in 50%. Topotecan was administered as 2 mg/m2 by continuous infusion over 24 hours daily for five days (10 mg/m2 per course) every 4 to 6 weeks for two courses, then at maximum tolerated dose level (1-2 mg/m2 by continuous infusion over 24 hours daily for five days) once every 4-8 weeks for a maximum of 12 courses. Evaluation of outcome and of differences among subgroups was performed according to standard methods; the criteria for response were those used for acute leukemia. Nineteen patients (31%) achieved a complete response (CR). A CR was achieved in 11 of 30 patients with MDS (37%) and in eight of 30 with CMML (27%). A CR was achieved in 10 of 23 patients with previously untreated MDS (43%). Eight of 11 patients who presented with cytogenetic abnormalities (five of which involved chromosome 5 and/or 7 abnormalities) and achieved CR, were evaluated cytogenetically in CR: all were cytogenetically normal in CR. Characteristics associated with a higher CR rate were lack of previous chemotherapy, absence of ras oncogene mutations, and presence of less than 10% monocytes in either peripheral blood or bone marrow. In contrast, CR rates were similar by different agent groups, by different karyotype abnormalities, and by other pre-therapy peripheral blood counts. Non-myelosuppressive side effects were mucositis in 67% of patients (severe [grade 3-4] 23%), diarrhea in 38% (severe 17%), and nausea and vomiting in 28% (severe 5%). Febrile episodes during neutropenia occurred in 85% of patients and documented infections in 47 %. Mortality in the first four weeks was 20%. With a median follow-up duration of 31 months, the 12 month survival rate was 38%, median survival time 10.5 months, and median remission duration 7.5 months. In summary, topotecan has significant single-agent activity in MDS and CMML. Complete responses associated with topotecan therapy often involve the disappearance of abnormal, poor-prognosis karyotypes, which is particularly encouraging. Future strategies to optimize topotecan's role include combination regimens with topoisomerase II reactive agents, cytarabine, or hypomethylating agents (azacytidine and decitabine).
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PMID:Results of topotecan single-agent therapy in patients with myelodysplastic syndromes and chronic myelomonocytic leukemia. 992 42

Activation of Src, which has an intrinsic protein tyrosine kinase (PTK) activity, has been demonstrated in human solid tumors, such as colorectal and breast cancers. To investigate the role of activated Src in drug resistance, we evaluated the effect of v-src on the resistance to various anti-cancer drugs using v-src-transfected HAG-1 human gallbladder adenocarcinoma cells. Compared with parental or mock-transfected HAG-1 cells, v-src-transfected HAG/src3-1 cells showed a 3.5-fold resistance to cis-diamminedichloroplatinum (II) (CDDP) but not to doxorubicin, etoposide or 5-fluorouracil. By contrast, activated H-ras, which acts downstream of src, failed to induce resistance to either of these drugs. Furthermore, wortmannin, a phosphatidylinositol (PI) 3-kinase inhibitor, and H7, a protein kinase C (PKC) inhibitor, did not alter CDDP resistance. Evaluation of the kinetics of the removal of DNA interstrand cross-links (ICLs), measured by alkaline elution, showed a significant increase in this removal in HAG/src3-1 cells as compared with mock-transfected cells, though no differences were found in the formation of DNA ICLs between these cell lines. CDDP resistance in v-src-transfected cells was reversed, if not completely, by either herbimycin A or radicicol, specific inhibitors of Src-family PTKs, suggesting that Src tyrosine kinase activity induces CDDP resistance. Moreover, significant reduction in the repair of CDDP-induced DNA ICLs was observed upon treatment with radicicol. The intracellular glutathione content and mRNA expression of topoisomerase II and metallothionein were virtually identical between these cell lines, except for topoisomerase I mRNA. Our data strongly suggest that the ability of activated src, but not ras, to induce CDDP resistance is mediated by augmentation of DNA repair through Src to downstream signal-transduction pathways distinct from either the Ras, PI 3-kinase or PKC pathway.
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PMID:v-src induces cisplatin resistance by increasing the repair of cisplatin-DNA interstrand cross-links in human gallbladder adenocarcinoma cells. 1004 75

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

The management of advanced non-small cell lung cancer (NSCLC) is rapidly evolving. Advances in combined chemo-radiation therapy have led to improvements in patient survival which are statistically significant, but most patients still succumb to their disease. New chemotherapeutic agents, such as taxanes (paclitaxel, docetaxel), topoisomerase inhibitors (topotecan, irinotecan), and novel analogs (gemcitabine, vinorelbine), may offer the promise of improved outcome, but have not yet been tested in phase III trials. Molecular therapeutics, such as gene therapy, drugs that target specific oncogene activation (such as Ki-ras inactivation by farnesyl transferase inhibitors), and hypoxic cell toxins (such as tirapazamine), are in clinical trials. The optimum use of these agents awaits more rapid and widespread molecular diagnostics. Finally, technological advances in radiotherapy will allow higher tumor doses, while minimizing doses to dose-limiting normal structures, such as the esophagus, normal lung and heart. We describe a move towards molecular strategies, both for therapy and diagnostics, that may result in more effective treatment. While the outcome for patients with advanced non-small cell lung carcinoma is still poor, new agents are being developed rapidly and offer the hope of improved survival.
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PMID:Novel approaches to locally advanced unresectable non-small cell lung cancer. 1078 83

Standard antileukemic chemotherapy induces complete remission in approximately half of patients with high-risk (HR) myelodysplastic syndrome (MDS). Intensification of induction therapy by the use of intermediate- or high-dose cytosine arabinoside in combination with fludarabine, idarubicin, or topotecan seemingly improved complete response (CR) rates, particularly in patients with poor prognosis karyotypes. The various high-intensity regimens appear to be comparable in inducing CR, although some are better tolerated with low mortality even in advanced-age populations with MDS. The encouraging early results with new agents, eg, topoisomerase inhibitors (topotecan) and hypomethylating agents (5-azacytidine), have been disappointing because long-term follow-up has shown continuous relapses. Regardless of the intensity of chemotherapy, remissions are short, even with continuation of intensive postremission therapy. Long-term disease-free survival remains dismal. In a large population with HR MDS treated with high-dose chemotherapy, only 5% of patients were alive at 3 years, and a majority of survivors were the younger patients with diploid karyotype refractory anemia with excess blasts in transformation. Further intensification of either induction chemotherapy or postremission therapy is unlikely to improve results with current drug combinations. With these results at hand, the role of intensive chemotherapy in the management of MDS remains controversial. Because CR status is associated with clinical benefits and possibly better survival, induction of CR should remain an important aim for HR MDS. The intensive combination chemotherapy may be integrated as an initial part of the management of HR MDS, as an alternative for patients not eligible for allogeneic bone marrow transplantation (BMT). Regimens with low early mortality, eg, topotecan plus intermediate dose Ara-C, could also be used to reduce tumor load prior to allogeneic BMT. Induction of CR should be attempted with the most effective and best tolerated regimens, particularly, but not only, in younger patients with good performance status regardless of karyotype. Postremission therapy remains a major challenge. It should involve either allogeneic BMT or investigational approaches to eliminate or control the minimal residual disease with different mechanisms In elderly patients, allogeneic "minitransplant" is an investigational alternative seeking to exploit graft-versus-tumor reaction. New agents, such as farnesyl transferase inhibitors (ras inhibitors), drug-antibody conjugates (Myelotarg), thalidomide, arsenic trioxide, maintenance chemotherapy with hypomethylating agents, or oral topoisomerase inhibitors along with agents modulating factors affecting growth and differentiation, should be explored to maintain remission with minimal compromise of quality of life. Although prognostic scoring systems such as the new International Prognostic Scoring System (IPSS) do not predict for initial response, IPSS continues to predict survival in patients treated with high-dose chemotherapy. Although activity of new agents could be rapidly assessed in single-arm pilot studies, the final merit of high-dose chemotherapy could be assessed only in well-designed randomized trials with patients assigned according to risk-based classification and evaluated for response by generally accepted and standardized criteria.
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PMID:Intensive chemotherapy for patients with high-risk myelodysplastic syndrome. 1103 61

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

Trivalent chromium is a metal required for proper sugar and fat metabolism. However, it has been suggested that it causes DNA damage in in vitro test systems, although in vivo toxicity has not yet been proved. In the present study, the effect of Cr3+ on bacterial cells was tested with the Pro-Tox (C) assay, and its cellular uptake was measured with flame atomic absorption spectroscopy. The potential genotoxicity of Cr3+ was further examined by the study of its influence on a bacterial type II topoisomerase. Cr3+ was shown to cause DNA damage and inhibit topoisomerase DNA relaxation activity, probably by preventing the formation of the covalent link between enzyme and double helix. In addition, Cr3+ decreases the viability and/or proliferation rate of eukaryotic cells such as murine B16 melanoma cells and human MCF-10A neoT ras-transformed human epithelial cells. The possible implication for Cr3+ intake by humans is discussed.
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PMID:Genotoxicity of trivalent chromium in bacterial cells. Possible effects on DNA topology. 1211 5


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