Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts:   Target Concepts:
Query: UMLS:C1140680 (ovarian cancer)
 28,141 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Over the last decade, platinum-based combination chemotherapy regimens have led to higher response rates and longer survival for advanced ovarian cancer patients than previous regimens based on alkylating agents. The advent of paclitaxel for salvage therapy and, more recently, as a component of first-line treatment in advanced disease has further improved response rates and prolonged survival. Nonetheless, even with current treatments, relapse rates remain high and most women with advanced ovarian cancer ultimately will die of their disease. For this reason, the development of new, effective second-line treatments, as well as better first-line agents, for advanced disease remains a high priority. To maximize the efficacy of second- or third-line drugs, new agents should be non-cross-resistant with platinum or paclitaxel. Chemotherapy drugs for advanced ovarian cancer with novel mechanisms of action include topotecan (Hycamtin; SmithKline Beecham Pharmaceuticals, Philadelphia, PA), a topoisomerase I inhibitor. Topotecan was recently shown to be effective in platinum-refractory or -resistant patients, with response rates ranging from 14% to 23%. Results from a phase III clinical study indicate that topotecan compares favorably with paclitaxel as a second-line treatment for stage III and IV patients who have failed platinum-based regimens. Moreover, a phase II study demonstrated clinical responses with topotecan in patients who had failed both paclitaxel- and platinum-based therapies. Other agents for advanced ovarian cancer are also under investigation, including docetaxel, oral etoposide, liposome encapsulated doxorubicin, gemcitabine, ifosfamide, and hexymethylmelamine.
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PMID:New options for the treatment of advanced ovarian cancer. 912 39

Camptothecin (CPT) and taxol are secondary metabolites found in the stembark of Camptotheca acuminata, a native of China, and Taxus brevifolia, found in the northwest Pacific coastal region of the USA, respectively. The compounds were isolated through bioassay-guided fractionation of various extracts and through chromatographic fractions. Their unique and hitherto unknown structures were elucidated by nuclear magnetic resonance, mass spectrometry and X-ray analysis. Both compounds have unique mechanisms of antitumor activity; CPT uniquely inhibits an enzyme, topoisomerase I, involved in DNA replication, while taxol binds to a protein, tubulin, thus inhibiting cell division. Taxol has been called the best new anticancer agent developed from natural products, showing particular efficacy against ovarian cancer. CPT and analogs singly or combined with cisplatinum show efficacy against solid tumors, breast, lung, and colorectal, which hitherto have been unaffected by most cancer chemotherapeutic agents.
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PMID:Camptothecin and taxol: from discovery to clinic. 921 22

Topoisomerase I inhibitors constitute a new class of anti-cancer agents. Recently, topotecan and irinotecan were registered for clinical use in ovarian cancer and colorectal cancer respectively. Cytotoxicity of topoisomerase I inhibitors is S-phase specific, and in vitro and in vivo studies have suggested that, for efficacy, prolonged exposure might be more important than short-term exposure to high concentration. Clinical development of those topoisomerase I inhibitors that have reached this stage is also focused on schedules aiming to achieve prolonged exposure. In this review, we summarize all published preclinical studies on this topic for topoisomerase I inhibitors in clinical development, namely 20-S-camptothecin, 9-nitro-camptothecin, 9-amino-camptothecin, topotecan, irinotecan and GI147211. In addition, preliminary data on clinical studies concerning this topic are also reviewed. The data suggest that prolonged exposure may indeed be relevant for anti-tumour activity. However, the optimal schedule is yet to be determined. Finally, clinical data are yet too immature to draw definitive conclusions.
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PMID:Topoisomerase I inhibitors: the relevance of prolonged exposure for present clinical development. 932 59

Topotecan (Hycamtin) is a promising new topoisomerase I-targeting anticancer agent that first entered clinical trials in 1989 under National Cancer Institute sponsorship in collaboration with SmithKline Beecham. In 1996, it was approved for use by the United States Food and Drug Administration (FDA) for previously treated patients with advanced ovarian cancer. For these patients, topotecan provides another therapeutic option upon disease progression after initial platinum-based chemotherapy. Topotecan also has activity in other tumor types, including small-cell lung cancer, hematologic malignancies and pediatric neuroblastoma and rhabdomyosarcoma. Topotecan combination regimens with paclitaxel (Taxol), etoposide (VePesid), cisplatin (Platinol), and cytarabine and with other treatment modalities, such as radiation therapy, are in development. Studies evaluating topotecan combinations as initial treatment in such diseases as ovarian and small-cell lung carcinoma are also underway. It is hoped that earlier use of topotecan, with its novel mechanism of action, will prolong survival and increase cure rates in patients with these chemoresponsive tumors. Whether or not such hopes are realized, these important studies will help define the role of topotecan in cancer chemotherapy.
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PMID:Clinical status and optimal use of topotecan. 939 64

Topotecan (Hycamtin; SmithKline Beecham Pharmaceuticals, Philadelphia, PA), a camptothecin analog, is a novel and specific inhibitor of the nuclear enzyme topoisomerase I. In preclinical studies, topotecan demonstrated significant in vitro activity in a variety of solid tumor explants derived from colorectal, breast, ovarian, renal cell, non-small cell lung cancer, and gastrointestinal sources. Notable activity was also demonstrated in vivo in a wide range of animal tumor models. A large number of phase I studies with topotecan have been conducted since 1992 in both adults and children with a broad range of refractory malignancies and as many as 14 different dosing schedules. Complete, partial, or minor responses were demonstrated in patients with recurrent or refractory neuroblastoma, non-small cell lung cancer, small cell lung cancer, ovarian cancer, breast cancer, colon cancer, esophageal cancer, renal cell carcinoma, and squamous cell carcinoma. The antitumor activity of topotecan in these phase I evaluations was associated more often with frequent or continuous dosing schedules compared with less frequent or short exposure schedules. Maximum tolerated doses were predominantly dependent on the dosing schedule used. Myelosuppression was the major dose-limiting toxicity across all schedules, and nonhematologic toxicities were generally mild. Data from phase I studies have provided valuable information about antitumor responses, maximum tolerated doses, and dose-limiting toxicities associated with different dosing schedules. Based on this information, there was substantial enthusiasm for further evaluating topotecan in a wide range of cancer patients in phase II studies.
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PMID:Review of phase I clinical studies with topotecan. 942 56

Topotecan (Hycamtin; SmithKline Beecham Pharmaceuticals, Philadelphia, PA), a derivative of the topoisomerase I inhibitor camptothecin, was approved by the Food and Drug Administration in May 1996 for the salvage treatment of ovarian cancer. It has shown promising clinical activity in a variety of solid tumors, including cervical cancer. Phase II and III trials in patients with cisplatin-resistant ovarian cancer have been conducted using a regimen of a single 30-minute intravenous topotecan infusion (1.5 mg/m2/d) for 5 days, repeated every 21 days. Significant responses, both partial and complete, have been observed in 14% to 21% of patients, with stable disease achieved in as many as 61%. In advanced or recurrent cervical cancer, partial response or stable disease was achieved in 59% of phase II trial patients. Myelosuppression is the major dose-limiting toxicity associated with topotecan. In general, the severity of myelosuppression shows a positive correlation to the magnitude of exposure to topotecan. Support with granulocyte colony-stimulating factor may partially ameliorate myelosuppressive effects.
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PMID:Topotecan in the treatment of gynecologic cancer. 942 62

The cytotoxicity of cisplatin alone and in combination with topotecan (TPT) or SN-38, two novel topoisomerase I (topo I) inhibitors, was determined in a panel of eight well-characterized human solid-tumor cell lines. Interactions between cisplatin and these topo I inhibitors were investigated using three different administration schedules: (1) simultaneous incubation (C + T and C + S), (2) cisplatin followed by TPT or SN-38 (C --> T and C --> S), and (3) TPT or SN-38 followed by cisplatin (T --> C and S --> C). Median-effect analysis revealed synergistic cytotoxicity in seven of the eight cell lines used. In addition, a significant schedule-dependent synergistic cytotoxicity was found in three of the cell lines used, with C --> T (or C --> S) being the most active schedule. The formation and repair of total cisplatin-DNA adducts in the IGROV-1 ovarian cancer cell line and its cisplatin-resistant subline IGROV(CDDP) was not significantly affected by TPT on simultaneous incubation. In contrast, the number of cisplatin-DNA interstrand cross-links detected in the IGROV-1 and IGROV(CDDP) lines at certain time points was significantly lower after coincubation of the cells with TPT. Assessment of the cell-cycle distribution revealed an accumulation of cells in the G2/M phase after exposure to cisplatin. After exposure to TPT a different pattern was observed that was cell-type-specific and dependent upon the TPT concentration. Although up to 4-fold differences in topo I activity were observed in this panel of cell lines, these differences did not appear to be related to the synergy observed between cisplatin and TPT or SN-38. The observed synergy may at least partly be explained by the increased retention of cisplatin-DNA interstrand cross-links in the presence of topo I inhibitors.
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PMID:Synergistic cytotoxicity of cisplatin and topotecan or SN-38 in a panel of eight solid-tumor cell lines in vitro. 948

Germline mutations in the breast cancer susceptibility genes BRCA1 and BRCA2 have been linked to the development of breast cancer, ovarian cancer, and other malignancies. Recent studies suggest that the BRCA1 and BRCA2 gene products may function in the sensing and/or repair of DNA damage. To investigate this possibility, we determined the effects of various DNA-damaging agents and other cytotoxic agents on the mRNA levels of BRCA1 and BRCA2 in the MCF-7 and other human breast cancer cell lines. We found that several agents, including adriamycin (a DNA intercalator and inhibitor of topoisomerase II), camptothecin (a topoisomerase I inhibitor), and ultraviolet radiation induced significant decreases in BRCA1 and BRCA2 mRNA levels. Decreased levels of BRCA1 and BRCA2 mRNAs were observed within 6-12 h after treatment with adriamycin and persisted for at least 72 h. Adriamycin also induced decreases in BRCA1 protein levels; but these decreases required several days. U.V. radiation induced dose-dependent down-regulation of BRCA1 and BRCA2 mRNAs, with significant decreases in both mRNAs at doses as low as 2.5 J/m2, a dose that yielded very little cytotoxicity. Adriamycin-induced down-regulation of BRCA1 and BRCA2 mRNAs was first observed at doses that yielded relatively little cytotoxicity and little or no apoptotic DNA fragmentation. Adriamycin and U.V. radiation induced distinct dose- and time-dependent alterations in the cell cycle distribution; but these alterations did not correlate well with corresponding changes in BRCA1 and BRCA2 mRNA levels. However, the adriamycin-induced reduction in BRCA1 and BRCA2 mRNA levels was correlated with p53 functional status. MCF-7 cells transfected with a dominant negative mutant p53 (143 val-->ala) required at least tenfold higher doses of adriamycin to down-regulate BRCA1 and BRCA2 mRNAs than did parental MCF-7 cells or control-transfected MCF-7 clones. These results suggest that BRCA1 and BRCA2 may play roles in the cellular response to DNA-damaging agents and that there may be a p53-sensitive component to the regulation of BRCA1 and BRCA2 mRNA expression.
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PMID:Regulation of BRCA1 and BRCA2 expression in human breast cancer cells by DNA-damaging agents. 961 32

In order to unravel possible mechanisms of clinical resistance to topoisomerase I inhibitors, we developed a topotecan-resistant human IGROV-1 ovarian cancer cell line, denoted IGROV(T100r), by stepwise increased exposure to topotecan (TPT). The IGROV(T100r) cell line was 29-fold resistant to TPT and strongly cross-resistant to SN-38 (51-fold). However, the IGROV(T100r) showed only threefold resistance to camptothecin (CPT). Remarkably, this cell line was 32-fold resistant to mitoxantrone, whereas no significant cross-resistance against other cytostatic drugs was observed. No differences in topoisomerase I protein levels and catalytic activity as well as topoisomerase I cleavable complex stabilization by CPT in the IGROV-1 and IGROV(T100r) cell lines were observed, indicating that resistance in the IGROV(T100r) cell line was not related to topoisomerase I-related changes. However, resistance in the resistant IGROV(T100r) cell line to TPT and SN-38 was accompanied by decreased accumulation of the drugs to approximately 15% and 36% of that obtained in IGROV-1 respectively. No reduced accumulation was observed for CPT. Notably, accumulation of TPT in the IGROV-1 cell line decreased under energy-deprived conditions, whereas the accumulation in the IGROV(T100r) cell line increased under these energy-deprived conditions. The efflux of TPT at 37 degrees C was very rapid in the IGROV-1 as well as the IGROV(T100r) cell line, resulting in 90% efflux within 20 min. Importantly, the efflux rates of TPT in the IGROV-1 and IGROV(T100r) cell lines were not significantly different and were shown to be independent on P-glycoprotein (P-gp) or multidrug resistance-associated protein (MRP). These results strongly suggest that the resistance of the IGROV(T100r) cell line to TPT and SN-38 is mainly caused by reduced accumulation. The reduced accumulation appears to be mediated by a novel mechanism, probably related to impaired energy-dependent uptake of these topoisomerase I drugs.
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PMID:Reduced cellular accumulation of topotecan: a novel mechanism of resistance in a human ovarian cancer cell line. 963 42

Camptothecin (CPT) is a pentacyclic alkaloid isolated from wood and bark of Camptotheca acuminata. Initially it was found to be highly active in a number of mouse in vivo cancer assays. Subsequently, CPT was found to uniquely inhibit an enzyme, topoisomerase I, which is involved in DNA replication. A number of CPT analogs are in advanced clinical trial, and two, Topotecan and CPT-11, have been approved for marketing by the FDA. taxol, a taxane alkaloid, was isolated from Taxus brevifolia. Taxol is a highly cytotoxic compound active in several mouse antitumor assays. It was subsequently found to uniquely inhibit tubulin, a protein involved in mitosis. After clinical evaluation, it has become the drug of choice for treatment of ovarian cancer.
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PMID:Camptothecin and taxol: discovery to clinic. 973 71


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