Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: KEGG:D01061 (CPT-11)
 1,899 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

CPT-11 and Topotecan are a new semisynthetic derivative of CPT, and have been shown to inhibit DNA topoisomerase I and to have a strong antitumor activity with low toxicity against murine tumor. On the other hard, the new antitumor compounds, NC-190 and IST-622 have been shown to inhibit DNA topoisomerase II, and the clinical study are currently under progress. A phase II study of CPT-11 demonstrated that CPT-11 was a very active agent which a acceptable toxicities against patient with advanced non-small cell lung cancer and small cell lung cancer.
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PMID:[DNA topoisomerase inhibitor]. 133 23

Topoisomerase I represents a unique new target that can be exploited for development of new antineoplastic agents. There are now two new topoisomerase I inhibitors that are in early clinical trials that have generated a tremendous amount of interest. Topotecan (SKF 104864-A) is a topoisomerase I inhibitor that has been explored in phase I trials using a variety of dosages and schedules. The dose-limiting toxicity of the agent is neutropenia. Other toxicities include alopecia, very mild nausea and vomiting, anemia, and occasional fever. Responses have already been noted in patients with advanced, refractory ovarian cancer and non--small-cell lung cancer. The drug is currently undergoing intense phase II testing. Irinotecan (CPT-11) is also a topoisomerase I inhibitor, which has already undergone extensive phase I and early phase II clinical testing in both Japan and the United States. Dose-limiting toxicities of the agent have included neutropenia and diarrhea. Responses have been noted in patients with refractory colorectal cancer, non--small-cell lung cancer, lymphoma, ovarian cancer, head and neck cancer, pancreatic cancer, and breast cancer. There is no doubt both of these agents will be important additions to our chemotherapy armamentarium.
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PMID:Clinical trials with the topoisomerase I inhibitors. 133 79

Topoisomerase I inhibitors are a new therapeutic class whose clinical evaluation began a few years ago; Irinotecan (CPT-11) gave interesting results in colon cancer; side effects were neutropenia, diarrhea, vomiting and a cholinergic syndrome. Topotecan was useful in lung and ovarian cancer; side effects were mostly hematologic. Undergoing studies concern dose optimization, mode of administration and therapeutic associations.
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PMID:[Topoisomerase I inhibitors. Review of phase II trials with irinotecan (CPT-11) and topotecan]. 749 18

CPT-11, a semisynthetic derivative of camptothecin, exhibited strong antitumor activity against lymphoma, lung cancer, colorectal cancer, gastric cancer, ovarian cancer, and cervical cancer. CPT-11 is a pro-drug that is converted to an active metabolite, SN-38, in vivo by enzymes such as carboxylesterase. We synthesized a water-soluble and non-pro-drug analog of camptothecin, DX-8951f. It showed both high in vitro potency against a series of 32 malignant cell lines and significant topoisomerase I inhibition. The anti-proliferative activity of DX-8951f, as indicated by the mean GI50 value, was about 6 and 28 times greater than that of SN-38 or SK&F 10486-A (Topotecan), respectively. These three derivatives of camptothecin showed similar patterns of differential response among 32 cell lines, that is, their spectra of in vitro cytotoxicity were almost the same. The antitumor activity of three doses of DX-8951f administered i.v. at 4-day intervals against human gastric adenocarcinoma SC-6 xenografts was greater than that of CPT-11 or SK&F 10486-A. Moreover, it overcame P-glycoprotein-mediated multi-drug resistance. These data suggest that DX-8951f has a high antitumor activity and is a potential therapeutic agent.
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PMID:A new water-soluble camptothecin derivative, DX-8951f, exhibits potent antitumor activity against human tumors in vitro and in vivo. 755 2

The efficacy of protracted schedules of therapy of the topoisomerase I inhibitors 9-dimethyl-aminomethyl-10-hydroxycamptothecin (topotecan) and 7-ethyl-10-[4-(1-piperidino)-1-piperidino]-carbonyloxycamptothecin (irinotecan; CPT-11) were evaluated against a panel of 21 human tumor xenografts derived from adult and pediatric malignancies. Tumors included eight colon adenocarcinomas, representing an intrinsically chemorefractory malignancy, six lines derived from childhood rhabdomyosarcoma (three embryonal, three alveolar) representing a chemoresponsive histiotype, sublines of rhabdomyosarcomas selected in vivo for resistance to vincristine and melphalan, and three pediatric brain tumors. All tumors were grown at the subcutaneous site. Topotecan was administered by oral gavage 5 days per week for 12 consecutive weeks. The maximum tolerated dose (MTD) was 1.5 mg/kg per dose. Irinotecan was given by i.v. administration daily for 5 days each week for 2 weeks [(d x 5)2](one cycle of therapy), repeated every 21 days. The MTD for three cycles was 10 mg/kg per dose. Treatment was started against advanced tumors. Topotecan caused a high frequency of objective regressions in one of eight colon tumor lines, whereas irinotecan caused complete regressions (CR) of all tumors in three colon lines and a high frequency of CRs in three additional lines. Both drugs demonstrated similar activity against rhabdomyosarcoma xenografts. Topotecan caused CR of all tumors in four of six lines, and irinotecan in five of six lines evaluated. Both agents retained full activity against tumors selected for primary resistance to vincristine, but only irinotecan retained activity against a tumor selected for primary resistance to melphalan. Both agents demonstrated good activity against brain tumor xenografts with irinotecan causing CR in two of three lines and topotecan inducing CR in one of three lines. Results indicate that low-dose protracted schedules of daily administration of these topoisomerase I inhibitors is either equi-effective or more efficacious than more intense shorter schedules of administration reported previously.
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PMID:Efficacy of topoisomerase I inhibitors, topotecan and irinotecan, administered at low dose levels in protracted schedules to mice bearing xenografts of human tumors. 763 81

We have previously described a mitoxantrone-resistant human breast carcinoma cell line, MCF7/MX, in which resistance was associated with a defect in the energy-dependent accumulation of mitoxantrone in the absence of P-glycoprotein overexpression (M. Nakagawa et al., Cancer Res. 52: 6175-6181, 1992). We now report that this cell line is highly cross-resistant to the camptothecin analogues topotecan (180-fold), 9-aminocamptothecin (120-fold), CPT-11 (56-fold), and SN38 (101-fold), but is only mildly cross-resistant to the parent compound camptothecin (3.2-fold) and 10,11-methylenedioxy-camptothecin (2.9-fold). Topotecan accumulation was decreased in MCF7/MX cells compared to parental MCF7/WT cells, and there was a corresponding reduction in topotecan-mediated stimulation of the enzyme/DNA complex formation in MCF7/MX cells compared to MCF7/WT cells. No overexpression of the multidrug resistance-associated protein was detected compared to parental MCF7/WT cells. Furthermore, both sensitive MCF7/WT and mitoxantrone-resistant MCF7/MX cells contain equal amounts of DNA topoisomerase I protein, and DNA relaxation activities were equal in both cell lines and inhibited to the same extent by topotecan and camptothecin. Thus, these results suggest a novel mechanism of resistance to topoisomerase I inhibitors in cancer cells.
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PMID:Cross-resistance to camptothecin analogues in a mitoxantrone-resistant human breast carcinoma cell line is not due to DNA topoisomerase I alterations. 766 72

Topotecan is a promising anticancer agent presently undergoing clinical evaluation worldwide. Topotecan, camptothecin, 9-aminocamptothecin, and CPT-11 have aroused considerable interest in recent years for their ability to halt the growth of a wide range of human tumors. For each analogue an important structural requirement for biological activity is a closed alpha-hydroxy lactone ring moiety. Unfortunately, this functionality hydrolyses rapidly in aqueous solution under physiological conditions (i.e. pH 7 or above), resulting in an inactive carboxylate form of the drug. In this report, we demonstrate that topotecan's half-life in human plasma (pH 7.6) can be enhanced dramatically by packaging the drug within the aqueous, pH 5-adjusted confines of lipid vesicles composed of diasteroylphosphatidylcholine. We have also demonstrated that drug sequestration within the liposomal particles can be efficiently accomplished. Thus, our preliminary experiments suggest that liposomes may be of potential utility for markedly improving the stability of topotecan in circulation.
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PMID:Stabilization of topotecan in low pH liposomes composed of distearoylphosphatidylcholine. 796 76

This article deals with new antitumor agents currently in Phase I or II evaluation in various European centers. Drugs reviewed in this article include Taxotere, Camptothecin analogues, CPT-11, and Topotecan. Rhizoxin, D1694, and Bryostatin are among other agents reviewed in this article.
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PMID:New drugs in clinical development in Europe. 804 Jan 42

Over the past decade, DNA topoisomerase I and II appeared to be the targets of some antitumor agents: CPT-11 and Topotecan derived from Camptothecin which interact with topoisomerase I; Actinomycin D, Adriamycin and Daunorubicin, Elliptinium Acetate, Mitoxantrone, Etoposide and Teniposide, Amsacrine which interact with topoisomerase II. The multiple functions of these enzymes are important as they play a role during replication, transcription, recombination, repair and chromatine organisation. Particularly, they relax torsional constraints which appear when intertwined DNA strands are separated while replication fork or RNA polymerases are moving. To some extent, topoisomerase I and II are structurally and functionally different. Moreover, topoisomerase I is not indispensable for a living cell whereas topoisomerase II is. Drug-topoisomerase interaction which probably leads to antitumoral effect of the compounds studied in this review is not a trivial inhibition of the enzyme but rather a poisoning due to stabilization of cleavable complexes between the enzyme and DNA. These stabilized complexes are likely to induce apoptosis-like programmed cell death, which is characterised by DNA fragmentation. However, it appears that it is the collision of the replication fork with the drug-stabilized cleavable complex that is responsible for the cytotoxicity of the drug: poisoning of topoisomerases by antitumor agents leads to a new concept of "dynamic toxicity". Although they interact with a common target, topoisomerase II poisons have differential effects on macromolecules syntheses, cell cycle and chromosome fragmentation; a few compounds may produce free radicals. Because of these differential effects in addition to quantitative and qualitative variations of stabilized cleavable complexes, in particular DNA sequences on which topoisomerase II is stabilized, these antitumor agents do not resemble each other. Cellular resistance to topoisomerases poisons results of two principal types of alteration: target and/or drug transport modification. Decreased ability to form the cleavable complex in resistant cells may be the consequence of both decreased amount of topoisomerase or altered enzyme. On the other hand, overexpression of membrane P-glycoprotein, which pumps drugs out of the cell by an energy dependent process provokes a decreased accumulation of these drugs. Cross resistances to other drugs are mainly under control of these two different mechanisms of resistance. A complete knowledge of their individual effects and mechanisms of resistance would allow a better clinical use of topoisomerases poisons, especially when administered in combination chemotherapy.
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PMID:[Poisons of DNA topoisomerases I and II]. 808 Oct 34

Irinotecan hydrochloride (CPT-11), topotecan, sobuzoxane, NC-190, and IST-622 are unique topoisomerase inhibitors and are investigational in Japan. CPT-11 is a water-soluble, semisynthetic derivative of camtothecin. CPT-11 shows its anticancer activity by inhibiting topoisomerase I activity, now a target of anticancer agents with major interest. Recent clinical trials reveal that CPT-11 is very effective in the treatment of cancer including lung cancer, cervical cancer, ovary cancer, stomach cancer, colon cancer, and non-Hodgkin's lymphoma. Major dose limiting toxicities are leukopenia and diarrhea, and are dose related. Topotecan is an another semisynthetic derivative of camtothecin and is also topoisomerase I inhibitor. Topotecan has undergone phase I clinical evaluations in USA, europe, and recently in Japan. DLF are leukopenia and neutropenia. Topotecan is more hydrophilic than its parent compound and shows lesser protein binding. Renal excretion appears to be the major route of elimination. Sobuzoxane (MST-16) is a unique derivative of dioxopiperazine, an inhibitor of topoisomerase II. In phase II studies, definite anticancer effects are observed in patients with non-Hodgkin's lymphoma and adult T-cell leukemia/lymphoma. Responses are seen even in pretreated cases. Leukopenia is also dose-limiting. Non-hematologic toxicities are mild and include alopecia and G.I. toxicities. NC-190 is a novel benzophenazine derivative with excellent antitumor activities against murine tumors. NC-190 also inhibits topoisomerase II. Now the drug is an early clinical phase II studies in Japan. Toxicities include bone marrow suppression, transient mild to moderate liver enzyme elevation, alopecia and mild G.I. toxicities. Tumor responses are occasionally encountered. IST-622 is a semisynthetic derivative of chartreusin. The drug is an inhibitor of topoisomerase II (and I in high concentration). IST-622 shows excellent, broad anticancer activity against murine tumors. The drug is well absorbed from small intestine. IST-622 is now in phase I clinical trial in Japan.
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PMID:[Topoisomerase inhibitors developing in Japan]. 842 86


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