UMLS:C0242379 - FACTA Search

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Query: UMLS:C0242379 (lung cancer)
71,905 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

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

Parameters of functional status of the hemostatic system were studied in 76 breast and lung cancer patients in the course of radiotherapy using TTC-10 hypoxic gas mixture (oxygen--10% and nitrogen--90%) as radioprotector. The thrombophilic status of the blood in breast and lung cancer patients established prior to treatment was accounted for by increased functional activity of platelets, increased capillary blood coagulability, formation of dense clot and inhibition of fibrinolysis. In the course of hypoxyradiotherapy, blood thrombogeneity becomes lower due to a decrease in platelet adhesion.
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PMID:[The hemostatic state of patients with breast and lung cancer undergoing hypoxic radiotherapy]. 184 52

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

Camptothecins are DNA topoisomerase I-directed anti-tumour drugs with a novel mechanism of action. Topotecan (TPT), a hydrophilic derivative of camptothecin, is currently undergoing phase II clinical trials in small-cell lung cancer (SCLC). Human SCLC OC-NYH cells were made more than 6-fold resistant to topotecan by stepwise drug exposure and resistance was stable for 70 passages without drug. NYH/TPT cells had half the topoisomerase I level and activity of wild-type cells. However, no difference in camptothecin or topotecan inhibition of topoisomerase I-mediated DNA relaxation was found, indicating that the enzyme itself was unchanged in the resistant cell. In NYH/TPT cells, topoisomerase II alpha and beta levels were increased approximately 2-fold. Accordingly, the topoisomerase II-directed drug etoposide (VP-16) induced an increased number of DNA single-strand breaks in NYH/TPT cells. However, sensitivity to different topoisomerase II-targeting agents in NYH/TPT cells varied from increased to decreased, indicating a role for as yet unidentified factors acting on the pathway to cell death after topoisomerase II-induced DNA damage has occurred. Of 20 anti-cancer agents tested, only hydroxyurea showed marked collateral hypersensitivity in NYH/TPT cells.
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PMID:Characterisation of a human small-cell lung cancer cell line resistant to the DNA topoisomerase I-directed drug topotecan. 764 Feb 25

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

The acquisition of drug-resistant tumour cells is the main problem in the medical treatment of a range of malignant diseases. In recent years, three new classes of anti-cancer agents, each with a novel mechanism of action, have been brought forward to clinical trials. These are the topoisomerase I (topo I) poisons topotecan and irinotecan, which are both camptothecin derivatives, the taxane tubulin stabilizers taxol and taxotere and, finally, the antimetabolite gemcitabin, which is active in solid tumours. The process of optimizing their use in a combination with established agents is very complex, with numerous possible drug and schedule regimens. We describe here how a broad panel of drug-resistant small-cell lung cancer (SCLC) cell lines can be used as a model of tumour heterogeneity to aid in the selection of non-cross-resistant regimens. We have selected low-fold (3-10x) drug-resistant sublines from a classic (NCI-H69) and a variant (OC-NYH) SCLC cell line. The resistant cell lines include two sublines with different phenotypes towards alkylating agents (H69/BCNU and NYH/CIS), two sublines with different phenotypes against topo I poisons (NYH/CAM and NYH/TPT) and three multidrug resistant (MDR) sublines (H69/DAU, NYH/VM, and H69/VP) with combinations of mdr1 and MRP overexpression as well as topoisomerase II (topo II) down-regulation or mutation. Sensitivity to 20 established and new agents was measured in a standardized clonogenic assay. Resistance was highly drug specific. Thus, none of the cell lines was resistant to all drugs. In fact, all resistant cell lines exhibited patterns of collateral sensitivity to various different classes of drugs. The most intriguing pattern was collateral sensitivity to gemcitabin in two cell lines and to ara-C in five drug-resistant cell lines, i.e. in all lines except the lines resistant to topo I poisons. Next, all sensitivity patterns in the nine cell lines were compared by correlation analysis. A high correlation coefficient (CC) for a given pair of compounds indicates a similar pattern in response in the set of cell lines. Such data corroborate the view that there is cross-resistance among the drugs. A numerically low coefficient indicates that the two drugs are acting in different ways, suggesting a lack of cross-resistance between the drugs, and a negative correlation coefficient implies that two drugs exhibit collateral sensitivity. The most negative CCs (%) to the new drug leads were: taxotere-carmustine (BCNU) (-75), taxol-cisplatin (-58), ara-C-taxol (-25), gemcitabin-doxorubicin (-32), camptotecin-VM26 (-41) and topotecan-VP16 (-17). The most negative correlations to the clinically important agent VP-16 were: cisplatin (-70); BCNU (-68); camptothecin (-38); bleomycin (-33), gemcitabin (-32); ara-C (-21); topotecan (-17); melphalan (-3); and to the other main drug in SCLC treatment cisplatin were: doxorubicin (-70); VP-16 (-70); VM-26 (-69); mAMSA (-64); taxotere (-58); taxol (-58). Taxol and taxotere were highly correlated (cross-resistant) to VP-16 (0.76 and 0.81 respectively) and inversely correlated to cisplatin (both -0.58). Similarly, camptothecin and topotecan were correlated to cisplatin but inversely correlated to VP-16 and other topo II poisons. From the sensitivity data, we conclude that collateral sensitivity and lack of cross-resistance favours a cisplatin-taxane or topo I-topo II poison combination, whereas patterns of cross-resistance suggest that epipodophyllotoxin-taxane or topo I poison-cisplatin combinations may be disadvantageous.
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PMID:In vitro cross-resistance and collateral sensitivity in seven resistant small-cell lung cancer cell lines: preclinical identification of suitable drug partners to taxotere, taxol, topotecan and gemcitabin. 906 9

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

Lung cancer continues to be the leading cause of cancer-related death in both men and women. According to the American Cancer Society, 160,400 people are predicted to die from this disease in 1997. Approximately 20% to 25% of lung cancer cases are classified as small cell lung cancer (SCLC). Although initial response rates to chemotherapy and radiation therapy are high among SCLC patients, nearly all these patients will eventually relapse and require additional treatment. The search for better treatments in relapsed SCLC is thus a high priority. In particular, it is hoped that the availability of new non-cross-resistant chemotherapeutic agents such as topotecan (Hycamtin; SmithKline Beecham Pharmaceuticals, Philadelphia, PA), a topoisomerase I inhibitor, will expand the treatment options. Because results from preclinical studies and phase I trials suggested that topotecan has activity in SCLC, the efficacy of this agent is currently being assessed in phase II and III clinical trials. Results from these trials, summarized here, suggest that topotecan may be a valuable alternative in the treatment of SCLC.
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PMID:Topotecan in small cell lung cancer. 942 58

According to the American Cancer Society, 178,100 new cases of lung cancer were predicted in 1997, with an estimated 5-year relative survival rate of 11% to 14%. Non-small cell lung cancer (NSCLC), the most prevalent type of lung cancer, presents an extraordinary challenge to the oncologist, because most patients present with advanced unresectable disease. Cisplatin, one of the most effective single agents against NSCLC, has only moderate antitumor effect and limited impact on survival. Combination regimens also show little increase in survival. In the search for better treatments for NSCLC, new agents with novel mechanisms of action have been explored. In preclinical studies, topotecan (Hycamtin; SmithKline Beecham Pharmaceuticals, Philadelphia, PA), a topoisomerase I inhibitor, demonstrated activity in a variety of animal tumor models. Results from subsequent phase I and phase II clinical trials, summarized here, suggest that topotecan has modest activity against NSCLC and that its role in the treatment of this disease should be evaluated further.
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PMID:Topotecan in the treatment of non-small cell lung cancer. 942 59

Non-small-cell lung cancer (NSCLC) will increasingly come under better control as the current approaches to therapy are more broadly employed and as new therapies are deployed against recently elucidated molecular pathways. In the United States, real progress is finally being made in decreasing tobacco consumption and in lung cancer incidence. The traditional chemotherapeutic compounds that became available earlier this decade (paclitaxel [Taxol], docetaxel [Taxotere], gemcitabine [Gemzar], vinorelbine [Navelbine], irinotecan [Camptosar], topotecan [Hycamtin], and edatrexate) have all been tested as single agents and as doublets with cisplatin (Platinol) and carboplatin (Paraplatin). Paclitaxel with cisplatin or carboplatin and vinorelbine, docetaxel, or gemcitabine with cisplatin have all demonstrated significant activity that now appears clearly better than the prior standard therapy of etoposide (VePesid)/cisplatin. Phase III studies sorting out their benefit relative to each other should be completed in the next 1 to 2 years. To date, no triplet therapy appears better than the corresponding doublet. Non-platinum-containing doublets are just completing their first round of assessments. Aside from new drugs and applications, the use of "small" molecules to inhibit either signal transduction pathways or gene activation is likely to accelerate. Most of the newer chemotherapeutic agents can be interdigitated with radiation and surgery, although evaluations into sequence and dose issues continue. The superior outcomes seen with the newer regimens should translate to the adjuvant and preoperative or preradiotherapy settings relatively quickly. It is now clear that NSCLC is as responsive to therapy as small-cell lung cancer (SCLC) and that outcomes are superior for NSCLC. The enthusiasm for treating SCLC displayed by nononcologists and nonthoracic medical oncologists should be shared for NSCLC.
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PMID:Future directions in non-small-cell lung cancer: a continuing perspective. 951 20

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