Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts:   Target Concepts:
Query: UMLS:C0149925 (small cell lung cancer)
 6,491 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.
 ...
PMID:[DNA topoisomerase inhibitor]. 133 23

Topotecan (Hycamtin), a semisynthetic water-soluble derivative of camptothecin, is a potent inhibitor of DNA topoisomerase I in vitro and has demonstrated encouraging antitumour activity in a wide variety of tumours, including ovarian cancer and small cell lung cancer. Now approved in the US, topotecan has completed single-agent phase I testing; phase II/III trials are ongoing. Under physiological conditions the lactone moiety of topotecan undergoes a rapid and reversible pH-dependent conversion to a carboxylated open-ring form, which lacks topoisomerase I inhibiting activity. At equilibrium at pH 7.4 the open-ring form predominates. Topotecan is stable in infusion fluids in the presence of tartaric acid (pH < 4.0), but is unstable in plasma, requiring immediate deproteinisation with cold methanol after blood sampling and storage of the extract at -30 degrees C to preserve the lactone form. Topotecan has been administered in phase I trials in several infusion schedules ranging from 30 minutes to 21 days. The plasma decay of topotecan concentrations usually fits a 2-compartment model. Rapid hydrolysis of topotecan lactone results in plasma carboxylate levels exceeding lactone levels as early as 45 minutes after the start of a 30-minute infusion. The peak plasma concentrations and the area under the plasma concentration-versus-time curves (AUC) show linear relationship with increasing dosages. No evidence of drug accumulation is seen with daily 30-minute infusions for 5 consecutive days. Topotecan lactone is widely distributed into the peripheral space, with a mean volume of distribution (Vd) at steady-state of 75 L/m2. The mean total body clearance of the lactone form is 30 L/h/m2, with a mean elimination half-life (t1/2 beta) of 3 hours; renal clearance accounts for approximately 40% of the administered dose with a large interindividual variability. The oral bioavailablity of topotecan is approximately 35%. The low bioavailability may be caused by hydrolysis of topotecan lactone in the gut, yielding substantial amounts of the open-ring form, which is poorly absorbed. Renal dysfunction may decrease topotecan plasma clearance. Creatinine clearance is significantly, but poorly, correlated with topotecan clearance. Hepatic impairment does not influence topotecan disposition. Indices of systemic exposure (steady-state concentrations and AUC) are correlated with the extent of myelotoxicity. Sigmoidal functions adequately describe the relationships between systemic exposure and the percentage decrease in neutrophils.
 ...
PMID:Clinical pharmacokinetics of topotecan. 885 31

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.
 ...
PMID:Review of phase I clinical studies with topotecan. 942 56

Preclinical schedule dependency suggests that prolonged maintenance of low plasma levels of topotecan, a specific inhibitor of the nuclear enzyme topoisomerase I, results in optimal antitumor activity. The pharmacokinetics and pharmacodynamics of topotecan, administered as single agent in second-line therapy as a continuous low-dose infusion for 21 days, were evaluated in nine patients with small cell lung cancer (SCLC). Topotecan was administered i.v. as a 21 day continuous infusion every 28 days via an ambulatory pump. Dosages ranged from 0.4 to 0.6 mg/m2/day. Plasma levels of topotecan, the sum of topotecan, and its hydroxy acid congener and the N-desmethyl metabolite were determined at 1, 7, 14 and 21 days during infusion, using a validated high-performance liquid chromatography method with fluorescence detection. Myelosuppression was the most important toxicity. All patients experienced anemia, being severe (grade 3/4) in 55% of all courses. Other adverse effects were relatively mild and reversible, and included nausea, vomiting, diarrhea and fatigue. Three patients achieved a partial response. Mean steady-state concentrations of topotecan (C(ss)) in the first course were 0.46+/-0.17 and 0.47+/-0.19 ng/ml after doses of 0.4 and 0.5 mg/m2/day, respectively. Steady-state levels of the total of topotecan and hydroxy acid (C(ss,tot)) were 1.28+/-0.25 (range 0.93-1.58) and 1.57+/-0.19 (range 1.43-1.70) ng/ml at doses of 0.4 and 0.5 mg/m2/day, respectively. The percentage of the administered topotecan dose excreted in the urine within 24 h was 40+/-14 and 1.2+/-1.0% for total topotecan and N-desmethyltopotecan, respectively. During the second course, C(ss,tot) was significantly higher (p=0.032, paired t-test), which suggests altered topotecan disposition. A sigmoidal relationship was found between C(ss,tot) and the percent decrease in platelets (r=0.76, p=0.018). We conclude that topotecan administered as a 21 day continuous low-dose infusion has activity as single-agent, second-line therapy in patients with SCLC. There was considerable interpatient and intrapatient variability in systemic exposure to topotecan. Differences in organ function might contribute to this variation. Serum aspartate aminotransferase and albumin levels were predictive of topotecan pharmacokinetics.
 ...
PMID:Continuous infusion of low-dose topotecan: pharmacokinetics and pharmacodynamics during a phase II study in patients with small cell lung cancer. 966 May 38

Topotecan, a water-soluble analogue of camptothecin, is a newly available cytotoxic agent which acts as an inhibitor of topoisomerase I, an enzyme necessary for DNA replication. Topotecan is a semisynthetic product derived from camptothecin, which was discovered during a National Cancer Institute cytotoxic drug screening program almost 30 years ago. It acts by forming a stable covalent complex with the DNA/topoisomerase I aggregate, the so-called 'cleavable complex'. This process leads to breaks in the DNA strand resulting in apoptosis and cell death. Topotecan possesses a serum half-life of approximately 3 h, a high volume of distribution with high tissue uptake and a low protein binding. The chemical structure is based on a lactone ring. Topotecan undergoes reversible hydrolysis from its biologically active lactone form to the open ring inactive carboxylate form. It is also able to penetrate the intact blood-brain barrier. Since most of the agent is excreted by the kidneys, dose adjustment is necessary when renal function is impaired. In contrast, pharmacokinetic behavior is unchanged in patients with limited hepatic function. The principal toxicity of topotecan when administered at standard doses is neutropenia, but thrombocytopenia and anemia occur as well, while the nonhematological toxicities are usually mild. Alopecia is frequently observed and some patients may suffer from pronounced fatigue. Most clinical data available are based on the following schedule: 1.5 mg/m2 topotecan given as a 30-min infusion, days 1-5. There are currently only minimal data available regarding a dose-antitumor activity relationship. Other topotecan administration schedules are currently being investigated. Preclinical data suggest that continuous-infusion schedules may be a better application form in terms of both, toxicity and antitumor activity. However, clinical trials could not confirm these results to date. Results of phase II studies suggest considerable antitumor activity of single agent topotecan in small cell lung cancer and ovarian cancer patients. A randomized phase III trial of topotecan versus paclitaxel in ovarian cancer patients pretreated with cisplatin/cyclophosphamide has demonstrated that topotecan is as effective as paclitaxel in the second-line treatment of these patients. Activity of topotecan was also observed in non-small-cell lung cancer, refractory leukemias/myelodysplastic syndromes and in childhood sarcomas. Due to its unique mechanism of action and lack of cross-resistance, cisplatin, etoposide, cytarabine and paclitaxel are potential interacting partners for combination chemotherapy regimens. However, the best combination regimen as well as the optimal combination schedule have yet to be conclusively determined. The potential of topotecan in a variety of solid tumors, as well as its use in combination regimens for ovarian and small cell lung cancer is currently being investigated.
 ...
PMID:Topotecan - A novel topoisomerase I inhibitor: pharmacology and clinical experience. 988 71

This issue of The Oncologist provides the reader with two useful reviews of the new chemotherapeutic agent topotecan, one of a class of topoisomerase I inhibitors that is being studied and incorporated into the treatment of various malignancies. Topotecan was approved for the treatment of refractory ovarian cancer in 1996, and has shown promising activity against a variety of solid tumors, as well as hematologic malignancies. One paper discusses clinical guidelines for managing topotecan-related hematologic toxicities, and centers on data derived from ovarian cancer studies. The other focuses on the role of topotecan in the treatment of small cell lung cancer (SCLC), where it has consistently shown encouraging results and for which definitive trials are now being conducted. As front-line therapy for ovarian cancer and small cell lung cancer is dominated by platinum-based regimens, the dosing guidelines and management issues discussed are pertinent for both tumor types.
 ...
PMID:Topotecan: Incorporating It Into the Treatment of Solid Tumors. 1038 78

Topotecan is a chemotherapeutic agent that is active in the treatment of small cell lung cancer (SCLC). As a first-line agent in chemotherapy-naive patients with extensive disease SCLC, topotecan has a 39% response rate. As a second-line drug in SCLC patients with "sensitive" disease and "refractory" disease, the response rate is greater than 38% and less than 10%, respectively. The combination of topotecan and paclitaxel exhibits a promising overall response rate of 92% in chemotherapy-naive patients with extensive disease SCLC. Further studies are warranted with topotecan used in combination with other agents, including radiation therapy in patients with SCLC.
 ...
PMID:The Role of Topotecan in the Treatment of Small Cell Lung Cancer. 1038 80

Topotecan (Hycamtin(R)) is a topoisomerase I inhibitor which demonstrated a wide spectrum of antitumor activity in preclinical models. During phase I assessment, evidence of activity was most promising when topotecan was administered on an i.v. daily x 5 schedule and a dose of 1.5 mg/m(2)/day was selected for phase II/III evaluation. This regimen has been shown to have activity in a wide range of tumor types, including recurrent ovarian cancer, relapsed small cell lung cancer (SCLC), non-small cell lung cancer, colon cancer, and breast cancer, as well as hematological malignancies. In patients with ovarian cancer who had failed standard therapy, topotecan demonstrated response rates of 13% to 25%, with median times to progression of 12 to 19 weeks. Compared with paclitaxel, the response rates were similar, 20.5% and 14.0%, respectively, as were median times to progression (19 weeks for topotecan versus 15 weeks for paclitaxel). Results in recurrent SCLC have also been encouraging. Patients sensitive to previous chemotherapy have shown response rates of 19% and 39%, and even patients resistant or refractory to previous chemotherapy have had responses of 3% and 7%. Survival ranged from 20 weeks in refractory disease to 12 months in both sensitive and resistant/refractory disease combined. The safety profile of topotecan is well established. The principal toxicity is noncumulative myelosuppression, and serious sequelae are uncommon. Nonhematological toxicities are generally mild. The use of topotecan in combination regimens is promising, although clinical results are currently at an early stage. To date, topotecan has demonstrated its activity in recurrent ovarian cancer and offers a valuable addition to treatment options in relapsed SCLC.
 ...
PMID:Topotecan: An Oncologist's View. 1038 30

Topotecan is a new antineoplastic agent active in ovarian cancer, with promising activity in small cell lung cancer and predictable toxicity. As a part of our ongoing attempt to optimize the use of disease-specific drugs as circulating progenitor cell (CPC) priming in solid tumors, we have evaluated the effects on CPC release of single-agent Topotecan followed by granulocyte colony-stimulating factor (G-CSF) + human recombinant erythropoietin (rhEPO), together with the cell cycle status of the collected CD34+ cells. Ten pretreated patients with small cell lung cancer received Topotecan (1 mg/m2, i.v. for 5 consecutive days) followed by G-CSF (5 microg/kg/day, s.c.) + rhEPO (10,000 I.U. daily, s.c.), starting 24 h after Topotecan. The combination was well tolerated and no relevant side-effects were recorded. On day +10 (range +9 to +11) after the last dose of Topotecan, the median WBC count and the CD34+ cell peak were 8.2 x 10(3) microl (range 4.9-13.9) and 55 microl (range 28-75), respectively. Using flow cytometry, a detailed cell cycle analysis was performed on these CD34+ cells. The cell cycle distribution was determined by DNA content coupled with bromodeoxyuridine incorporation analysis. Apoptosis was evaluated by quantitating DNA strand breaks. The percentage of CD34+ cells in active S-phase was 10.2+/-5%, while early apoptotic CD34+ cells were detected in a low percentage (5.5+/-3%). Topotecan followed by G-CSF + rhEPO mobilizes CPCs effectively. This sequence exerts a stimulation on CD34+ cell cycle with a protective effect from chemotherapy-induced apoptosis. Taken together, these data could be of value for the incorporation of Topotecan, as well as of the combination of G-CSF and rhEPO, into high-dose chemotherapy programs with CPC support.
 ...
PMID:Circulating progenitor cell release and functional characterization after topotecan plus G-CSF and erythropoietin in small cell lung cancer patients. 1049 66

Topotecan is a new active drug in the treatment of lung cancer. In advanced non small cell lung cancer (NSCLC) it showed 0-15% of objective response (OR) with 15% in the largest phase II study performed on 40 patients at the M.D. Anderson Cancer Center. Interesting results have been reported in combination chemotherapy with new drugs, in particular with gemcitabine. However, the role of topotecan in NSCLC must be developed in further trials. Topotecan is one of the most active drug in small cell lung cancer (SCLC). Particularly, it showed active in sensitive pretreated patients with 14%-38% OR. In a phase III randomized trial performed in pretreated patients, single agent topotecan showed similar OR and survival but better palliative effect compared to the CAV regimen (cyclophosphamide + adryamicin + vincristine). In first line chemotherapy topotecan showed 39% OR as single agent. Interesting results have been showed in combination chemotherapy in particular with taxol. Several studies are ongoing. Topotecan as first line chemotherapy could be developed in old doublet combinations (such as cisplatin or carboplatin + topotecan), new doublet combinations (such as taxol or vinorelbine or gemcitabine + topotecan), triplet chemotherapy combinations (such as cisplatin or carboplatin + taxol + topotecan) and sequential or alternate chemotherapy regimens. Topotecan reaches high drug concentration in the brain. It showed activity in brain metastases of SCLC with 40%-63% OR and 13%-43% of complete response in pretreated patients. This particular activity could be considered in first line chemotherapy as prophylaxis of brain metastases or to treat patients with brain metastases at diagnosis. Oral topotecan is a very interesting drug. It showed 36% OR in outfit untreated SCLC patients and 23% in pretreated patients, respectively. Oral formulation seems to induce less toxicity when compared to the intravenous drug. In the future topotecan should be developed as first line combined radio-chemotherapy treatment to make the best of its radiosensitizer effect. The activity on brain metastases also must be developed. Oral formulation is interesting because it is less toxic and could be considered in less toxic regimens in particular in outfit or elderly patients. However in the next years the role of topotecan will be better defined performing phase III randomized trials.
 ...
PMID:[Topotecan, a recent discovery and prospects for treating tumors of the lung]. 1078 96


1 2 3 4 Next >>