Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts:   Target Concepts:
Query: EC:5.99.1.3 (topoisomerase)
 9,911 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

DNA topoisomerase II targeting agents such as etoposide and doxorubicin are well-established cancer chemotherapeutic agents. Topotecan (Hycamtin) and irinotecan (Camptosar) are launched drugs that target topoisomerase I and have significant activity against many solid malignancies. These agents have important mechanistic similarities, converting their target enzyme(s) to generate DNA damage. Recent structural and biochemical studies on targeting of topoisomerases by antitumor agents are providing a framework for understanding drug action at the enzyme level, and at the level of cellular pathways important for responses to this unique type of DNA damage. These investigations into the mechanisms of action of topoisomerase-targeting agents should aid in the design of dinical protocols that optimize the activity of these agents.
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PMID:DNA topoisomerases in cancer chemotherapy: using enzymes to generate selective DNA damage. 1243 Oct 29

Small-cell lung cancer (SCLC) is highly chemosensitive but up to 70% of patients with limited disease and more than 90% of patients with extensive disease will relapse after first-line treatment. There are several standard chemotherapy regimens used for second-line treatment yet the prognosis for patients requiring this treatment remains poor. The topoisomerase-I inhibitor, topotecan, has achieved response rates of up to 22% in previously treated patients with SCLC and survival almost double that achieved with other single agents. Compared with cyclophosphamide/doxorubicin/vincristine (CAV), single-agent topotecan achieved a higher response rate, longer survival and statistically significant improvements in dyspnea, hoarseness, fatigue, anorexia and interference with daily activities. Brain metastases are common in SCLC. Topotecan crosses the blood-brain barrier and shows promise for the management of brain metastases.
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PMID:The role of topotecan in treating small cell lung cancer: second-line treatment. 1456 8

Patients with non-small cell lung cancer (NSCLC) typically receive platinum-based combination chemotherapy. In spite of improvements in symptoms and survival, response rates remain low and newer agents are being investigated. The newer agents may offer increased efficacy and reduced toxicity compared with established agents and regimens. The topoisomerase-I inhibitor, topotecan, achieves single-agent response rates of 4-25% in NSCLC. Topotecan has also been studied in combinations: a combination of topotecan, administered using the standard 5-day schedule, with cisplatin was effective but was associated with myelosuppression. The combination of topotecan plus carboplatin may be better tolerated and warrants further investigation. Topotecan was also combined with newer agents (gemcitabine, vinorelbine, docetaxel, paclitaxel) using a range of different administration schedules of topotecan. Response rates of up to 30% were achieved. A weekly schedule of topotecan was effective and well tolerated and was also convenient for healthcare professionals and patients.
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PMID:Combination chemotherapy with topotecan for non-small cell lung cancer. 1456 11

Chemotherapy for extensive-stage small-cell lung cancer (E-SCLC) produces high response rates and improved survival but few cures. We tested three new regimens for E-SCLC that might merit further investigation in a subsequent phase III trial. Cancer and Leukemia Group B 9430 was a randomized phase II study evaluating 4 treatment arms in 57 evaluable, previously untreated E-SCLC patients. Each arm consisted of the following: Arm 1: cisplatin plus topotecan; Arm 2: cisplatin plus paclitaxel; Arm 3: paclitaxel 230 mg/m2 plus topotecan; and Arm 4: paclitaxel 175 mg/m2 plus topotecan. Because of an accrual time difference, Arm 2 will not be discussed in this manuscript. Arm 1 (12 patients) produced 1 complete response (CR, 8%) and an overall response rate (ORR) of 42%. Toxicity was excessive, with 3 deaths (25%). Arm 3 (13 patients) produced no CRs, 7 partial responses (PRs, 54%), median survival of 13.8 months, and failure-free survival (FFS) of 7.41 months, with 3 toxic deaths (25%). Among 32 evaluable patients on Arm 4, there were 2 CRs (6%) and 20 PRs (63%) for an ORR of 69%, median survival of 9.9 months, FFS of 5.21 months, and 1-year survival of 40%. There was 1 possible treatment-related death (3%). Topotecan plus cisplatin, in the doses and schedule employed, produced excessive toxicity and modest efficacy in E-SCLC patients. Paclitaxel (230 mg/m2 on day 1) plus topotecan (1 mg/m2 on days 1-5) produced excessive toxicity that was ameliorated with an attenuated paclitaxel dose (175 mg/m2). With the latter regimen (Arm 4) in patients with a performance status of 0/1, CR rates, FFS, overall survival, and 1-year survival were similar to standard etoposide plus cisplatin chemotherapy. Further exploration of topoisomerase inhibitors and taxanes in SCLC patients is warranted.
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PMID:Novel doublets in extensive-stage small-cell lung cancer: a randomized phase II study of topotecan plus cisplatin or paclitaxel (CALGB 9430). 1466 44

Topotecan, a topoisomerase-I inhibitor is an active drug in the treatment of AML and MDS. To evaluate its toxicity and efficacy in a combination regimen with cytarabine, we conducted a clinical phase I/II trial in patients with relapsed acute myeloid leukemia (AML) or relapsed or newly diagnosed MDS RAEB, RAEB-t or CMML. Twenty-one patients (11 AML, 10 MDS/CMML) entered the study and were treated with 1.25 mg/m2 topotecan as continuous intravenous infusion daily for 5 days and cytarabine 1.0 g/m2 by infusion over 2 h daily for 5 days (TA). Cycles were repeated on day 28. The median observation time was 131 weeks (range: 36-196 weeks). A total of 37 cycles of TA were administered. In 1 patient, the dose of TA had to be reduced and in 1 patient, there was a treatment delay for the second cycle, both because of hematologic toxicity. The most frequent non-hematologic side-effect of TA was fever, which occurred in 17 patients (89%) with temperatures over 38 degrees C. None of the patients died due to any treatment-related toxicities, but 2 patients (10%) died within 1 month due to disease progression. A CR was achieved in 7 patients (33%), 3 of whom were MDS and 4 AML. A partial remission was reported in 8 patients (38%), no change of disease in 2 patients (10%) and progressive disease in 4 patients (19%). The median remission duration was 18 weeks (range 2-161 weeks) for MDS patients and 11 weeks (range 2-49 weeks) for AML patients. The time to progression for patients of 60 years and older (n = 10) was 16 weeks (range 2-49 weeks) and the survival was 32 weeks (range 2-119 weeks). TA is a feasible and efficacious chemotherapeutic combination for the treatment of MDS RAEB, RAEB-t, CMML and AML. For patients of 60 years and older, this regimen is also a safe option.
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PMID:Phase I/II clinical study of topotecan and cytarabine in patients with myelodysplastic syndrome, chronic myelomonocytic leukemia and acute myeloid leukemia. 1516 Sep 42

Topotecan HCl is an antitumor drug exhibiting topoisomerase 1-inhibitory activity. Topotecan is used in the treatment of metastatic carcinoma of the ovary and as second-line treatment of small-cell lung cancer. Reported dose-limiting adverse reactions to topotecan are primarily hematologic in nature. To date, only one other case of lung toxicity in a patient taking topotecan has been reported. The authors describe the development of obliterative bronchiolitis, as evidenced by radiographic and pulmonary function testing abnormalities, in a 61-year-old woman who presented with dyspnea, and who was receiving topotecan for peritoneal carcinomatosis.
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PMID:Topotecan-induced bronchiolitis. 1530 Nov 30

The goal of this phase I study was to develop a novel schedule using oral etoposide and infusional topotecan as a continually alternating schedule with potentially optimal reciprocal induction of the nontarget topoisomerase. The initial etoposide dose was 15 mg m(-2) b.i.d. days (D)1-5 weeks 1,3,5,7,9 and 11, escalated 5 mg per dose per dose level (DL). Topotecan in weeks 2,4,6,8,10 and 12 was administered by 96 h infusion at an initial dose of 0.2 mg m(-2) day(-1) with a dose escalation of 0.1, then at 0.05 mg m(-2) day(-1). Eligibility criteria required no organ dysfunction. Two dose reductions or delays were allowed. A total of 36 patients with a median age of 57 (22-78) years, received a median 8 (2-19) weeks of chemotherapy. At DL 6, dose-limiting toxicities consisted of grade 3 nausea, vomiting and intolerable fatigue. Three patients developed a line-related thrombosis or infection and one subsequently developed AML. There was no febrile neutropenia. There were six radiologically confirmed responses (18%) and 56% of patients demonstrated a response or stable disease, typically with only modest toxicity. Oral etoposide 35 mg m(-2) b.i.d. D1-5 and 1.8 mg m(-2) 96 h (total dose) infusional topotecan D8-11 can be administered on an alternating continual weekly schedule for at least 12 weeks, with promising clinical activity.
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PMID:A phase I clinical trial of continual alternating etoposide and topotecan in refractory solid tumours. 1598 34

Increasing the ability of chemotherapeutic drugs to kill cancer cells is often hampered by a limited understanding of their mechanism of action. Camptothecins, such as topotecan, induce cell death by poisoning DNA topoisomerase I, an enzyme capable of removing DNA supercoils. Topotecan is thought to stabilize a covalent topoisomerase-DNA complex, rendering it an obstacle to DNA replication forks. Here we use single-molecule nanomanipulation to monitor the dynamics of human topoisomerase I in the presence of topotecan. This allowed us to detect the binding and unbinding of an individual topotecan molecule in real time and to quantify the drug-induced trapping of topoisomerase on DNA. Unexpectedly, our findings also show that topotecan significantly hinders topoisomerase-mediated DNA uncoiling, with a more pronounced effect on the removal of positive (overwound) versus negative supercoils. In vivo experiments in the budding yeast verified the resulting prediction that positive supercoils would accumulate during transcription and replication as a consequence of camptothecin poisoning of topoisomerase I. Positive supercoils, however, were not induced by drug treatment of cells expressing a catalytically active, camptothecin-resistant topoisomerase I mutant. This combination of single-molecule and in vivo data suggests a cytotoxic mechanism for camptothecins, in which the accumulation of positive supercoils ahead of the replication machinery induces potentially lethal DNA lesions.
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PMID:Antitumour drugs impede DNA uncoiling by topoisomerase I. 1758 3

The Werner syndrome helicase/3'-exonuclease (WRN) is a major component of the DNA repair and replication machinery. To analyze whether WRN is involved in the repair of topoisomerase-induced DNA damage we utilized U2-OS cells, in which WRN is stably down-regulated (wrn-kd), and the corresponding wild-type cells (wrn-wt). We show that cells not expressing WRN are hypersensitive to the toxic effect of the topoisomerase I inhibitor topotecan, but not to the topoisomerase II inhibitor etoposide. This was shown by mass survival assays, colony formation and induction of apoptosis. Upon topotecan treatment WRN deficient cells showed enhanced DNA replication inhibition and S-phase arrest, whereas after treatment with etoposide they showed the same cell cycle response as the wild-type. A considerable difference between WRN and wild-type cells was observed for DNA single- and double-strand break formation in response to topotecan. Topotecan induced DNA single-strand breaks 6h after treatment. In both wrn-wt and wrn-kd cells these breaks were repaired at similar kinetics. However, in wrn-kd but not wrn-wt cells they were converted into DNA double-strand breaks (DSBs) at high frequency, as shown by neutral comet assay and phosphorylation of H2AX. Our data provide evidence that WRN is involved in the repair of topoisomerase I, but not topoisomerase II-induced DNA damage, most likely via preventing the conversion of DNA single-strand breaks into DSBs during the resolution of stalled replication forks at topo I-DNA complexes. We suggest that the WRN status of tumor cells impacts anticancer therapy with topoisomerase I, but not topoisomerase II inhibitors.
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PMID:WRN protects against topo I but not topo II inhibitors by preventing DNA break formation. 1880 12

We designed a phase I clinical trial of escalating doses of topotecan with CY and carboplatin in combination with autologous hematopoietic SCT (AHSCT) for the treatment of relapsed or persistent platinum sensitive ovarian or primary peritoneal carcinoma. After stem cell collection, 16 patients received topotecan at 1.5, 2.5, 3.5, 4.5 or 6.0 mg/m(2)/d combined with CY 1.5 g/m(2)/d and carboplatin 200 mg/m(2)/d, all by 4-day continuous infusion. Steady state pharmacokinetics of topotecan and carboplatin were examined. Pre-treatment biopsies were examined for the expression of topoisomerase (topo) I, Ki67 and Bcl-2 family members by immunohistochemistry. One of six patients at a topotecan dose of 4.5 mg/m(2)/d and two of three patients at 6.0 mg/m(2)/d had dose-limiting toxicity of grade 3 stomatitis lasting >2 weeks. There was no treatment-related mortality. As topotecan clearance was constant over the dose range examined, topotecan steady state plasma concentrations increased with dose. Median progression-free survival and overall survival were 6.5 months and 2.7 years, respectively. Shorter progression-free survival was observed in tumors with low topo expression (P=0.04). Topotecan can safely be dose escalated to 4.5 mg/m(2)/d in combination with CY, carboplatin and AHSCT. This trial is registered at ClinicalTrials.gov as NCT00652691.
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PMID:Phase I trial of autologous hematopoietic SCT with escalating doses of topotecan combined with CY and carboplatin in patients with relapsed or persistent ovarian or primary peritoneal carcinoma. 1964 70


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