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: UMLS:C0027651 (tumor)
685,946 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Combining antineoplastic analogues may increase efficacy by increasing the serum and intracellular concentration of the cytotoxic moiety shared by the analogues. Topotecan and irinotecan are two camptothecan analogues that are active in different human tumors (topotecan in ovary; irinotecan in colon) and in different experimental tumor systems. These data suggest that different mechanisms of drug resistance may be operative for the two agents, and if incomplete cross-resistance exists between analogues, concomitant administration may be advantageous. The objectives of this phase I study were 1) to determine in a phase trial design whether topotecan and irinotecan administered concomitantly on a weekly schedule can be delivered at the same dose intensity as that of single-agent topotecan or irinotecan delivery; and 2) to determine whether hematologic and/or nonhematologic toxicity is increased with topotecan and irinotecan administered together as a prelude to a possible phase II trial in responsive tumor categories. Irinotecan was administered for 30 to 45 minutes weekly x 4 at four dose levels: 50, 75, 100, and 125 mg/m(2)/wk. Topotecan was administered for 30 minutes (after irinotecan administration) at two dose levels within each of the irinotecan dose levels (1.0 and 1.5 mg/m(2)). Concomitant single-dose granulocyte-macrophage colony-stimulating factor (G-CSF) was used for leukocyte counts between 1,000 cells/mm(3) and 3,500 cells/mm(3) to maintain schedule. Maximum tolerated dosage (MTD) for the topotecan and irinotecan combination was defined as that which permitted 4 weeks of topotecan and irinotecan administration with G-CSF at or near the dose intensity reported for each single agent. Twenty-one patients received 32 4-week cycles. Dose-limiting toxicity was hematologic with grade IV leukopenia and neutropenia occurring at all dose levels. There was no apparent increase in the diarrhea syndrome associated with irinotecan. The MTD for irinotecan (at 125 mg/m(2)/wk) is the same MTD as with single-agent irinotecan use. The MTD for concomitant topotecan (1.5 mg/m(2)/wk) is 60% of the single-agent topotecan dose for the 5-day topotecan schedule (at 2.5 mg/m(2)/wk) but only 30% of the single-agent topotecan dose for the weekly schedule (5 mg/m(2)/wk). The topoisomerase I inhibitor dose is increased minimally when the analogues are administered concomitantly on a weekly schedule. Comparative trials of single-agent topotecan and irinotecan versus the combination of topotecan and irinotecan would be necessary to provide the proof of principle that combining analogues can increase therapeutic effectiveness.
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PMID:Phase I clinical trial of weekly combined topotecan and irinotecan. 1147 56

p53 mutations are common in lung cancer. In smoking-associated lung cancer,the occurrence of G:C to T:A transversions at hotspot codons, e.g., 157, 248, 249,and 273, has been linked to the presence of carcinogenic chemicalsin tobacco smoke including polycyclic aromatic hydrocarbons suchas benzo(a)pyrene (BP). In the present study, we have used a highly sensitive mutation assay to determine the p53 mutation load in nontumorous human lung and to study the mutability of p53 codons 157, 248, 249, and 250 to benzo(a)pyrene-diol-epoxide (BPDE), an active metabolite of BP in human bronchial epithelial BEAS-2B cells. We determined the p53 mutational load at codons 157, 248, 249, and 250 in nontumorous peripheral lung tissue either from lung cancer cases among smokers or noncancer controls among smokers and nonsmokers. A 5-25-fold higher frequency of GTC(val) to TTC(phe) transversions at codon 157 was found in nontumorous samples (57%) from cancer cases (n = 14) when compared with noncancer controls (n = 8; P < 0.01). Fifty percent (7/14) of the nontumorous samples from lung cancer cases showed a high frequency of codon 249 AGG(arg) to AGT(ser) mutations (P < 0.02). Four of these seven samples with AGT(ser) mutations also showed a high frequency of codon 249 AGG(arg) to ATG(met) mutations, whereas only one sample showed a codon 250 CCC to ACC transversion. Tumor tissue from these lung cancer cases (38%) contained p53 mutations but were different from the above mutations found in the nontumorous pair. Noncancer control samples from smokers or nonsmokers did not contain any detectable mutations at codons 248, 249, or 250. BEAS-2B bronchial epithelial cells exposed to doses of 0.125, 0.5, and 1.0 microM BPDE, showed G:C to T:A transversions at codon 157 at a frequency of 3.5 x 10(-7), 4.4 x 10(-7), and 8.9 x 10(-7), respectively. No mutations at codon 157 were found in the DMSO-treated controls. These doses of BPDE induced higher frequencies, ranging from 4-12-fold, of G:C to T:A transversions at codon 248, G:C to T:A transversions and G:C to A:T transitions at codon 249, and C:G to T:A transitions at codon 250 when compared with the DMSO-treated controls. These data are consistent with the hypothesis that chemical carcinogens such as BP in cigarette smoke cause G:C to T:A transversions at p53 codons 157, 248, and 249 and that nontumorous lung tissues from smokers with lung cancer carry a high p53 mutational load at these codons.
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PMID:Mutability of p53 hotspot codons to benzo(a)pyrene diol epoxide (BPDE) and the frequency of p53 mutations in nontumorous human lung. 1152 24

Objective tumor responses and survival rates with standard chemotherapy options for small-cell lung cancer (SCLC) and non-small-cell lung cancer (NSCLC) have been disappointing. However, several promising new classes of agents have emerged in recent years, including the taxanes, mitotic spindle inhibitors, antimetabolites, and topoisomerase I and II inhibitors. The molecular target of several of these new agents is topoisomerase I, an enzyme that is essential for DNA replication and is up-regulated in tumor cells. Inhibition of this enzyme by drugs such as topotecan and irinotecan leads to cell death and is the basis for their anticancer activity. The process of DNA replication is halted by the covalent binding of the drug in a topoisomerase I drug/DNA ternary reaction intermediate. The pharmacokinetics of the approved regimen--a 30-min infusion daily for 5 days at 21-day intervals--are well defined, with proportional increases in the area under the plasma concentration-time curve, peak plasma concentration, and steady state concentration following application of higher doses. The antitumor activities of both the intravenous and oral formulations of topotecan have been tested in clinical trials. Topotecan is well tolerated and has demonstrated good efficacy in patients with relapsed SCLC when administered as monotherapy or in combination regimens as first-line or second-line therapy. Preliminary trials also indicate that topotecan is well tolerated and has activity in the first-line treatment of NSCLC. In this article an overview of new agents in lung cancer chemotherapy is provided, with particular attention paid to the topoisomerase I inhibitors. A review of topotecan--the first topoisomerase I inhibitor to be approved for second-line therapy in SCLC--is presented as an illustration of the promise these new agents hold for the treatment of SCLC and NSCLC.
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PMID:New advances in lung cancer chemotherapy: topotecan and the role of topoisomerase I inhibitors. 1159 10

Topotecan is a topoisomerase I inhibitor and an analogue of camptothecin with demonstrated activity in small-cell lung cancer. However, less is known about the potential role of topotecan in advanced non-small-cell lung cancer (NSCLC). Platinum-based combination therapy is currently recommended in NSCLC patients presenting with good performance status. Because topotecan demonstrates a novel mechanism of action, its investigation in platinum combinations is warranted. In phase I/II trials of topotecan given as part of a cisplatin-based regimen, significant antitumor activity has been observed, providing the rationale for conducting further studies aimed at assessing survival benefit. However, this combination exhibits sequence dependence, with increasing hematologic toxicity observed when cisplatin is administered on day 1 of a 5-day topotecan course. Cisplatin has been associated with dose-limiting nonhematologic toxicities. Carboplatin exhibits a different toxicity profile compared with cisplatin, which makes it an attractive agent to study in combination. A hypothesis can be made that carboplatin in combination with newer agents such as topotecan might compare favorably with classic cisplatin-based regimens, particularly with respect to efficacy:toxicity ratio. Therefore, a phase II study was initiated to determine the efficacy, toxicity, and safety of carboplatin-topotecan combination in advanced NSCLC. Preliminary results reported here show that topotecan with carboplatin is generally well tolerated with manageable hematologic toxicity. Indirect comparison with cisplatin-topotecan combination suggests a lower incidence of dose-limiting nonhematologic toxicity. Whether or not the carboplatin-topotecan regimen is able to offer tumor response and survival benefit comparable to those observed with cisplatin-based combinations remains to be established.
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PMID:Preliminary results of combined therapy with topotecan and carboplatin in advanced non-small-cell lung cancer. 1159 15

Topotecan (HYCAMTIN; GlaxoSmithKline, Brentford, Middlesex, UK) is a novel topoisomerase I inhibitor with potentially broad applicability in the treatment of solid and hematologic malignancies. In addition to its use in relapsed small-cell lung cancer (SCLC), topotecan is under investigation in numerous studies for first-line therapy in SCLC and for first- and second-line treatment of non-small-cell lung cancer (NSCLC). Preliminary evidence presented in this supplement demonstrates that single-agent topotecan and topotecan-based combination regimens are active in these settings. In addition to its potential use in SCLC and NSCLC, the feasibility and antitumor activity of topotecan as single-agent therapy and in combination therapy are under active investigation in a variety of other solid and hematologic tumors. Other important avenues of investigation include the feasibility and tumor activity of a more convenient oral formulation, as well as the investigation of alternate regimens (e.g., 3-day, weekly), with high priority given to regimen toxicity, patient convenience, and quality of life. Preliminary results of some of these trials are presented in this summary. The results of other clinical experience trials are eagerly anticipated.
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PMID:Future role of topotecan in the treatment of lung cancer. 1159 16

Topotecan appears to be relatively unaffected by the most common multidrug resistance mechanisms, may potentiate cytotoxicity of alkylators, has good penetration into the central nervous system, is active against a variety of neoplasms, and has myelosuppression as its paramount toxicity. We present our experience with a myeloablative regimen that includes topotecan. Twenty-one patients with poor-prognosis tumors and intact function of key organs received topotecan 2 mg/m2 by 30-min intravenous (i.v.) infusion on days -8, -7, -6, -5, -4; thiotepa 300 mg/m2 by 3 h i.v. infusion on days -8, -7, -6; and carboplatin by 4 h i.v. infusion on days -5, -4, -3 with a daily dose derived from the pediatric Calvert formula, using a targeted area under the curve of seven mg/ml* min ( approximately 500 mg/m2/day). Stem cell rescue was on day 0. The patients were 1 to 29 (median 4) years old; 18 were in complete remission (CR) and three in partial remission (PR). Early toxicities were severe mucositis and erythema with superficial peeling in all patients and a seizure, hypertension, and renal insufficiency followed by veno-occlusive disease in one patient each. Post-transplant treatment included radiotherapy alone (four patients) or plus biological agents (11 patients with neuroblastoma). With a follow-up of 6+ to 32+ (median 11+) months, event-free survivors include 10/11 neuroblastoma patients (first CR), 4/5 brain tumor patients (second PR or CR), 1/3 patients with metastatic Ewing's sarcoma (first or second CR), and a patient transplanted for multiply recurrent immature ovarian teratoma; a patient with desmoplastic small round-cell tumor (second PR) had progressive disease at 8 months. Favorable results for disease control, manageable toxicity, and the antitumor profiles of topotecan, thiotepa, and carboplatin, support use of this three-drug regimen in the treatment of neuroblastoma and brain tumors; applicability to other tumors is still uncertain.
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PMID:Topotecan combined with myeloablative doses of thiotepa and carboplatin for neuroblastoma, brain tumors, and other poor-risk solid tumors in children and young adults. 1160 67

Medullary thyroid carcinoma (MTC) occurs as a sporadic tumor or in connection with inherited cancer syndromes of multiple endocrine neoplasia type 2 and familial MTC. Missense RET proto-oncogene mutations and small in-frame deletions are found in most of the cases. In a significant amount of sporadic MTC cases somatic mutation at codon 918 (exon 16), or at codons 609, 611, 618, 620 (exon 10), or codons 630, 634 (exon 11) appear. We report here on three new somatic cell missense mutations of the RET proto-oncogene associated with sporadic MTC. In one tumor mutation at codon 922 TCC(Ser)-->TTC(Phe) in exon 16 was found. In another tumor two mutations at codons 639 GCA(Ala)-->GGA(Gly) and 641 GCT(Ala)-->CGT(Arg) in the exon 11 were observed. Allele-specific PCR followed by sequencing demonstrated the presence of both mutations at the same allele.
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PMID:Three novel mutations in the RET proto-oncogene. 1169 59

The camptothecins are a maturing class of anticancer agents. In this article, we review the pharmacology and antitumor activity of the camptothecin analogues that are approved for clinical use and those investigational agents undergoing clinical evaluation. Camptothecin is a naturally occurring cytotoxic alkaloid that has a unique intracellular target, topoisomerase I, a nuclear enzyme that reduces the torsional stress of supercoiled DNA during the replication, recombination, transcription, and repair of DNA. Topotecan and irinotecan are synthetic analogues designed to facilitate parenteral administration of the active lactone form of the compound by introducing functional groups to enhance solubility. They are now well-established components in the chemotherapeutic management of several neoplasms. Topotecan has modest activity in patients treated previously with ovarian and small cell lung cancer and is currently approved for use in the United States as second-line therapy in these diseases. Preliminary evidence of activity against hematological malignancies is also promising. Irinotecan is a prodrug that undergoes enzymatic conversion to the biologically active metabolite 7-ethyl-10-hydroxy-camptothecin. It is presently the treatment of choice when used in combination with fluoropyrimidines as first-line therapy for patients with advanced colorectal cancer or as a single agent after failure of 5-fluorouracil-based chemotherapy. Encouraging preliminary results suggest that irinotecan may have an increasing role in the treatment of other solid tumors, including small and non-small cell lung cancer, cervical cancer, ovarian cancer, gastric cancer, and malignant gliomas. Several additional camptothecin analogues are in various stages of clinical development, including 9-aminocamptothecin, 9-nitrocamptothecin, 7-(4-methylpiperazinomethylene)-10,11-ethylenedioxy-20(S)-camptothecin, exatecan mesylate, and karenitecin. Efforts to further optimize therapeutic effectiveness through drug delivery strategies that prolong tumor exposure to these S phase-specific agents, such as improving oral bioavailability through structure modification and innovative formulation approaches, alternative parenteral dosage forms, and administration schedules, are being actively pursued. Combining camptothecins with other anticancer drugs and treatment modalities, as well as gaining a better understanding of the factors contributing to tumor sensitivity and resistance, continues to be the object of considerable interest.
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PMID:Current perspectives on the clinical experience, pharmacology, and continued development of the camptothecins. 1189 91

The aim of this study was to evaluate the response of ovarian cancer to intralesionally administered topotecan. Preliminary experiments were carried out in nude mice subcutaneously grafted with three different human ovarian carcinoma cells (A2780, IGROV/DDP and SKOV-3). Topotecan was administered intravenously (i.v.: 10-15 mg/kg every 4th day for 4 times) or intralesionally (i.t.: single dose of 15-20 mg/kg) and tumor size changes/drug toxicity were evaluated. The results indicate that the sensitivity of the three tumor models was different (rank: A2780 > IGROV/DDP > SKOV-3) but, for each tumor line, the pattern of response was similar after i.v. and i.t. administration. No local toxicity was detected, but appreciable systemic toxicity (animal death rate) was observed in spite of the use of a single i.t. dose. The effects of intralesional topotecan administration were then assessed in a patient with an advanced, epithelial ovarian tumor (endometroid type, poorly differentiated histologic grade), already treated with cisplatin and paclitaxel. The treatment (7.5 mg/m(2)) was repeated three times and, although drug plasma levels were in the range generally reported following i.v. administration and typical systemic toxicity occurred, no tumor regression was observed and the patient died 14 months later. We conclude that the intralesional drug delivery is effective to achieve a rapid tumor shrinkage in large tumor lesions, but in the presence of drug resistance, either intrinsic or acquired, intratumor drug administration can not be recommended.
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PMID:Intralesional topotecan in advanced ovarian cancer: a clinical report, based on a preclinical study. 1237 47

Extensive-stage small cell lung cancer (SCLC) is an aggressive disease with a median survival of approximately 8 months. Although current combination chemotherapy regimens provide high initial tumor response rates, they have not translated into large gains in survival. Topotecan and paclitaxel have nonoverlapping mechanisms of action and are active agents in SCLC. Additionally, these two agents demonstrate in vitro synergy in animal and human tumor models. We investigated the maximum tolerated dose of 3-day topotecan in combination with paclitaxel in previously untreated patients with extensive SCLC. Seventeen patients were enrolled in an open-label, phase I, dose-escalation study and were treated with intravenous paclitaxel 135-175 mg/m(2) over 1 hour on day 1, followed by intravenous topotecan 1.25-1.5 mg/m(2) over 30 minutes on days 1-3 of a 21-day course. Sixty-nine courses of therapy were administered with no delays due to hematologic toxicity. Prophylactic hematologic support was required for 24% of patients. The topotecan/paclitaxel combination was well tolerated, with 24%, 12%, and 6% of patients experiencing grade 3/4 neutropenia, anemia, or thrombocytopenia, respectively. Dose-limiting neutropenia was seen in three of five patients treated with topotecan 1.5 mg/m(2) and paclitaxel 175 mg/m(2). Therefore, topotecan 1.5 mg/m(2) with paclitaxel 135 mg/m(2) was determined to be the maximum tolerated dose. Of the 17 evaluable patients, 53% achieved a partial response and 18% achieved stable disease. In summary, we have identified a regimen of topotecan 1.5 mg/m(2) and paclitaxel 135 mg/m(2) that was well tolerated and active in this patient group. Additional studies of topotecan and paclitaxel at these dose levels are needed to fully elucidate the efficacy of this combination in extensive SCLC.
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PMID:Phase I study of paclitaxel and topotecan for the first-line treatment of extensive-stage small cell lung cancer. 1260 34


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