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)

A number of topoisomerase II-acting drugs have been described, but few demonstrate schedule-dependent anti-tumour activity. The activity of the epipodophyllotoxins etoposide and teniposide and the acridine dye derivative amsacrine is clearly schedule-dependent, and this related not only to the observation that the activity of topoisomerase II varies throughout the cell cycle but also to the finding that these drugs are rapidly cleared from the cell following exposure, permitting DNA repair. Etoposide has been most clearly shown to be schedule dependent in clinical studies. The response rates of patients with small-cell lung cancer receiving a 24-h infusion was only 10% as compared with 89% when the same dose was given over 5 days. Pharmacokinetic studies performed in these patients demonstrated that although the total systemic exposure (area under the plasma concentration-time curve, AUC) was the same in both arms of the study, the duration of exposure to low levels of drug (> 1 microgram/ml) was doubled in the 5-day arm. Haematological toxicity was the same in both arms of the study, as was the duration of exposure to higher plasma levels (> 5 micrograms/ml), suggesting that this toxicity may be associated with higher plasma concentrations, whereas anti-tumour activity is related to prolonged exposure to low levels of drug. This was confirmed in a subsequent study, where prolongation of treatment to 8 days compared to 5 days resulted in a similar exposure to low plasma concentrations and no difference in response rates or survival. Haematological toxicity in this study was worse in the 5-day arm, which also had an increase exposure to high levels of drug (> 5 micrograms/ml). More recently, interest has focused on even more prolonged etoposide administration, typically involving small daily doses repeated for 14-21 days. Although this schedule shows high activity in relapsed small-cell lung cancer and lymphoma, it is associated with significant toxicity (around one-third of patients experience grade III/IV leukopenia or neutropenia), which may be related to the observation that the etoposide dose delivered per course in these studies is higher than that obtained with standard dosing over 3-5 days. Further randomised studies are required to determine the optimal dose and schedule of etoposide.
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PMID:Schedule-dependent topoisomerase II-inhibiting drugs. 807 33

A case of therapy-related acute non-lymphocytic leukemia (t-ANLL) in a 70-year-old female patient is reported. An operation for lung cancer was performed in February 1991, and she was treated with etoposide (VP-16), a topoisomerase II inhibitor. Nineteen months after the start of chemotherapy, she complained of palpitations, and anemia and thrombocytopenia developed. The myelogram revealed 41.2% leukemic cells, and a diagnosis of t-ANLL induced by VP-16 was made. The karyotype of bone marrow cells showed 46, XX, t(7;11) (p13;p15), 16p+. She obtained complete remission (CR) by treatment with low dose cytosine arabinoside (Ara-C) and cytarabine ocfosfate (SPAC). Karyotype with t-ANLL induced by alkylate agents frequently shows unbalanced abnormalities. The difference of cytogenetic findings suggest the difference of mechanisms. Detailed chromosomal analysis make clear the oncogenesis of t-ANLL. It is reported that the prognosis of patients with t-ANLL treated by conventional chemotherapy is poor. Considering that elderly cases of acute leukemia have a lower probability of achieving CR than non-elderly cases, because of complications and side effects of chemotherapy such as bone marrow suppression, treatment with low dose Ara-C and SPAC is thought to be indicated in elderly patients with t-ANLL.
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PMID:[Therapy-related acute non-lymphocytic leukemia (M2) with 7;11 chromosome translocation induced into complete remission by low dose cytosine arabinoside and cytarabine ocfosfate therapy]. 807 12

Topoisomerases are nuclear enzymes involved in steps of DNA metabolism which require topological modifications. Interestingly, these enzymes have been discovered to be targets of several anticancer drugs in common clinical use. Alterations of the topoisomerase enzymes have been described as associated with the development of drug resistance to topoisomerase inhibitors. The best known alterations are reduced gene expression and mutations in the genes. The present knowledge of the role of topoisomerases in lung cancer, and in small cell lung cancer in particular, is described here.
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PMID:Small cell lung cancer and topoisomerases. 816 66

Intravenous-bolus etoposide has modest activity in sarcomas when given daily for 3-5 days. Low frequent doses theoretically inhibit topoisomerase II activity over a longer duration and have been reported to have increased activity in small-cell lung cancer. A phase I trial of oral etoposide resulted in partial responses in two patients with soft-tissue sarcomas. To estimate more accurately the response rate for daily oral etoposide in sarcomas, we treated 25 patients with 50 mg/m2 per day by mouth for 21 days every 4 weeks. Treatment-related toxicity included > or = grade 2 neutropenia in 6 of the 25 patients and thrombocytopenia in 3. One brief partial response was observed (4%; 95% confidence interval for true response rate, 0-11%). Disease stabilized in five patients for periods ranging from 3 to 18 months. At this dose and on this schedule, daily oral etoposide appears to have little activity against soft-tissue sarcomas.
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PMID:Phase IV trial of daily oral etoposide in the treatment of advanced soft-tissue sarcoma. 817 7

Based on the "2-phenylnaphthalene-type" structural pattern hypothesis developed in our laboratory, a number of benzo[b]naphtho[2,3-d]furan-6,11-diones were designed, synthesized, and evaluated in vitro for their inhibitory action against the growth of human promyelocytic leukemia cells (HL-60), small-cell lung cancer (SCLC), SCLC cells resistant to cisplatin (SCLC/CDDP), National Cancer Institute's disease-oriented primary antitumor 60 cell-line panel, and drug-stimulated topoisomerase II-mediated DNA cleavages. Many compounds designed were found to possess potent activity in one or more of the biological tests. In general, activity found in one of the cell lines tested is often echoed in other cell lines and many also expressed substantial inhibitory activity against topoisomerase II-mediated cleavage activities. One of these compounds, 3-[2-(dimethylamino)ethoxy]-1-hydroxybenzo[b]naphthol[2,3-d]furan- 6,11-dione (8j), exhibited strong inhibitory activity throughout the entire series of test panel. Thus, it appears that the proposed structural pattern hypothesis has received substantial support through experimental verification.
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PMID:Design of antineoplastic agents on the basis of the "2-phenylnaphthalene-type" structural pattern. 2. Synthesis and biological activity studies of benzo]b]naphtho[2,3-d]furan-6,11-dione derivatives. 825 35

To examine the expression of topoisomerase I and topoisomerase II in primary lung cancer specimens at mRNA level, we carried out Northern blot analysis. As for topoisomerase I expression, there was no remarkable difference between lung cancer specimens and non-cancerous lung tissues. On the other hand, we could detect topoisomerase II mRNA in almost all lung cancer specimens, but not in non-cancerous tissues. By Southern blot analysis, we could not detect large deletion nor rearrangement in DNA level. These results suggest that the expression of topoisomerase II is highly increased in lung cancer at mRNA level and drugs against topoisomerase II might be more tumor-specific than those against topoisomerase I.
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PMID:Higher expression of topoisomerase II in lung cancers than normal lung tissues: different expression pattern from topoisomerase I. 839 33

Human topoisomerase II enzymes are targets for a number of widely used anticancer agents. We have analysed a lung adenocarcinoma cell line CALU3, which has co-amplified topoisomerase II alpha and ERBB2 sequences, for the structure of the amplicon and for expression of both topoisomerase II alpha and beta. The region of chromosome 17q amplified in CALU3 also includes the retinoic acid receptor alpha locus and is therefore similar to the amplicon observed in breast cancers carrying amplified topoisomerase II alpha and retinoic acid receptor sequences. The use of fluorescence in situ hybridisation localises the amplified topoisomerase II alpha sequences to a cluster on one chromosome with single copies localised to others. CALU3 express high levels of topoisomerase II alpha is determined by Western blot, immunofluorescence and enzyme activity. The enzyme activity extracted from CALU3 is sensitive to inhibition by the topoisomerase II poison etoposide. Topoisomerase II beta expression was observed in three lung cancer cell lines including CALU3 and was confined to the nucleoli. Thus, the CALU3 cell line is an ideal model to study the amplification and expression of topoisomerase II alpha in adenocarcinomas.
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PMID:Expression of topoisomerase II alpha and beta in an adenocarcinoma cell line carrying amplified topoisomerase II alpha and retinoic acid receptor alpha genes. 839 10

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 catalytic cycle of topoisomerase II is the target of some of the most successful antitumor agents used today, e.g. etoposide (VP-16), in the treatment of testicular cancer and small-cell lung cancer. The cell kill mediated by topoisomerase II poisons can be antagonized by distinct drug types. Thus, we have demonstrated etoposide antagonism with the type-II anthracycline aclarubicin, the antimalarial drug chloroquine, and the cardioprotective agent ICRF-187. In other setups, combinations of agonist and antagonists have led to high-dose regimens for counteracting drug resistance. Thus, the exploitation of folinic acid rescue for methotrexate toxicity and the use of mesna to protect against cyclophosphamide toxicity have enabled the use of high-dose methotrexate and cyclophosphamide protocols. Using a similar approach, we have studied possible ways to apply antagonists to topoisomerase II poisons. NDF1-hybrid female mice were treated with the various drugs and drug combinations. Lethality (LD10 and LD50 values) was computed by use of the maximum-likelihood method, and the antitumor effect of the drugs was compared in mice inoculated i.p. with either L1210 cells or Ehrlich ascites tumor cells. In addition, the compounds were tested on L1210 cells inoculated intracranially. The toxicity of the various drugs was evaluated by weight and leukocyte counts. ICRF-187 rescues healthy mice from lethal doses of topoisomerase II poisons. In mice the ICRF-187 LD10 was 500 mg/kg. Within a wide non-toxic dose range (50-250 mg/kg) of ICRF-187 we found protection against m-AMSA and etoposide lethality. Thus, the LD10 of etoposide increased from 34 mg/kg for the single agent to 122 mg/kg for its combination with ICRF-187, corresponding to a 3.6-fold etoposide dose escalation. In contrast, ICRF-187 did not protect against lethal doses of the non-topoisomerase II-directed drug paclitaxel. We further investigated the anti-tumor effect of equitoxic schedules in mice inoculated i.p. with L1210 or Ehrlich ascites tumor cells. The L1210-bearing mice appeared to obtain a larger increase in life span from the etoposide and ICRF-187 combination as compared with etoposide alone, whereas this was not the case in mice inoculated with Ehrlich ascites tumor cells. As the hydrophilic ICRF-187 is not expected to cross the blood-brain barrier, in contrast to the lipophilic etoposide, we investigated the effect of the drug combination in mice inoculated intracranially with L1210 cells. We obtained a significant increase in life span in mice treated with ICRF-187 + etoposide as compared with mice treated with an equitoxic dose of etoposide alone. Thus, there appear to be potential routes by which one can benefit from this antagonism. ICRF-187 is a powerful nontoxic protector against the lethality of the topoisomerase II-directed drugs etoposide and m-AMSA in vivo. A brain tumor model demonstrates the superiority of high-dose etoposide treatment with ICRF-187 protection as compared with etoposide treatment alone. This implies that tumors in the brain can be reached by cytotoxic drug doses and that normal tissues can be protected due to differences in drug transport across the blood-brain barrier. ICRF-187 is therefore a promising lead compound for the development of schedules using high-dose topoisomerase II poisons in the treatment of brain tumors and metastases.
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PMID:ICRF-187 rescue in etoposide treatment in vivo. A model targeting high-dose topoisomerase II poisons to CNS tumors. 864 93

We synthesized a potent new antitumor podophyllotoxin derivative (4beta-aminoalkyl-4'-O-demethyl-4-desoxypodophyllotoxin; TOP-53) in our search for a drug that has strong activity against lung cancer and lung metastatic cancer. TOP-53 exhibited twice the inhibitory activity of etoposide (VP-16) against topoisomerase II and induced DNA strand breaks but showed no inhibitory activity against tubulin polymerization. The in vitro cytotoxic activity of TOP-53 assessed as IC50 was 0.016-0.37 microg/ml and 0.26-8.9 microg/ml against marine tumor and human non-small cell lung cancer (NSCLC) cell lines, respectively. TOP-53 exerted significant efficacy equivalent to that of VP-16 on s.c.-implanted murine solid tumors (Colon 26, B16-BL6, and Lewis lung carcinoma) at doses 3-5 times lower than that of VP-16. In human tumor xenografts using NSCLC, TOP-53 was active for four of five tumors, whereas VP-16 was active for two of five tumors. Potent inhibitory activity of TOP-53 was also found against a lung tumor (Lewis lung carcinoma) and four lung metastatic tumors (NL-22 and NL-17 colon cancer, UV2237M fibrosarcoma, and K1735M2 melanoma). TOP-53 appeared to be more active against four of them than VP-16. Thus, TOP-53 is not only active against s.c.-implanted lung cancers but also strongly active against lung localized tumor and metastatic tumors in the lungs. The high selectivity of TOP-53 was attributed to its high distribution into the lung and its persistence. TOP-53 is expected to be highly effective against lung cancer including NSCLC and various lung metastatic tumors in the clinical field.
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PMID:Antitumor activity of a novel podophyllotoxin derivative (TOP-53) against lung cancer and lung metastatic cancer. 866 18


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