UMLS:C0017636 - FACTA Search

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Query: UMLS:C0017636 (glioblastoma)
18,345 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Fifteen patients were treated in a Phase I study of intracarotid carboplatin (200-400 mg/m2) in 5% dextrose and water infused over 15 to 30 minutes through a transfemoral catheter with a 0.2-micron inline filter. This study was done because intravenous carboplatin has less neurotoxicity than cisplatin and is active against brain tumors. Eleven men and four women ranging in age from 37 to 72 years (median, 59 years) were treated. The Eastern Cooperative Oncology Group performance status was 1 in 3, 2 in 4, and 3-4 in 8 patients. Eight patients had one to three previous chemotherapy regimens; previous radiotherapy had failed in 13 patients. The response of patients in the Phase I study follows: glioblastoma, 6 failed; not evaluated because of early death from pulmonary embolus, 1; recurrent Grade II and III glioma, 1 stable (minor response with neurologic improvement) and 2 failed; malignant oligodendroglioma, 1 failed; brain metastases from nonsmall cell lung cancer, 1 partial remission, 1 stable (minor response), and 1 failed; brain metastases from unknown primary, 1 stable (minor response with neurological improvement). Median survival was 9 weeks. Nausea was mild to moderate. One patient had granulocytopenia, and 2 had thrombocytopenia (mild). At 200 mg/m2 (2 patients), 1 had a focal seizure. At 300 mg/m2 (9 patients), 2 with abnormally small arteries had severe pain early in the treatment and posttreatment ipsilateral conjunctival edema, decreased vision, and cerebral edema (with partially reversible increased hemiparesis); 1 other had mild decrease in ipsilateral vision and 1 had transient aphasia on removal of the catheter (possibly the result of a vascular spasm).(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Phase I study of intracarotid administration of carboplatin. 131 64

The antigen expression of human small cell lung cancer (SCLC) was studied using a panel of 21 independent rat monoclonal antibodies. The panel was selected by isolating hybridomas producing antibodies reactive with two SCLC lines but not with autologous B-lymphoblastoid lines. The antibodies were then tested in radiobinding assays against a panel of 17 SCLC lines, 13 non-small cell lung cancer lines, 6 SCLC necropsy specimens, 13 neuroectodermal lines (melanomas, neuroblastomas, glioblastomas), 15 other human lines, the glycolipid extracts of SCLC, human meconium, and human red blood cells. Using immunohistochemical assays, 14 of the antibodies were tested against normal lung, liver, and kidney, and lung cancer biopsies and xenografts. These analyses revealed the following: (a) SCLC elicited predominantly immunoglobulin M antibodies despite hyperimmunization; (b) the 21 antibodies displayed distinct binding and immunohistochemical phenotypes, indicating that they recognized many different epitopes; (c) 14 of the 21 antibodies reacted with glycolipid determinants; (d) the 21 determinants were expressed on over 80% of SCLC cell lines, necropsy samples, and xenografts; (e) the determinants were also expressed on normal adult bronchial epithelium, proximal tubules of adult kidney, and in a few instances on other normal cell types; (f) the antigens were expressed less frequently on nonsmall cell lung cancer samples but did not clearly distinguish SCLC from non-small cell lung cancer; (g) biochemical and morphological variants of SCLC exhibiting more malignant and undifferentiated behavior and containing greatly amplified c-myconcogenes failed to express several determinants or expressed them at lower levels; (h) and finally, while many human cell lines failed to express the antigens including human melanoma and glioblastoma lines, human neuroblastoma lines frequently did express the SCLC antigens. These detailed studies utilizing a panel of distinct monoclonal antibodies define a series of antigens on the surface of the majority of SCLC undescribed previously.
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PMID:Analysis of human small cell lung cancer differentiation antigens using a panel of rat monoclonal antibodies. 671 99

Deletions of chromosomal band 9p21 have been detected in various tumor types including melanoma, glioma, lung cancer, mesothelioma, and bladder cancer. Recently, the CDKN2 gene (p16INK4A, MTS I, CDK41) has been proposed as a candidate tumor suppressor gene because it is frequently deleted in cell lines derived from multiple tumor types. We performed fluorescence in situ hybridization (FISH) with interphase cells using yeast artificial chromosome clones and a cosmid contig of the CDKN2 region. In 10 cell lines (4 glioma, 2 melanoma, 2 non-small cell lung cancer, 2 bladder cancer) with 9p alterations detected by molecular or cytogenetic analysis, interphase FISH with the CDKN2 cosmid contig detected all 9p deletions previously identified by molecular analysis. Using this probe, FISH analysis of primary glioblastoma tumors revealed homozygous deletions of the CDKN2 region in 6 of 9 tumors (67%) whereas a yeast artificial chromosome probe containing the interferon type I (IFN) gene cluster was deleted in only 4 cases (44%). Thus, it is likely that the CDKN2 region is the target of 9p deletions in gliomas. Interphase FISH will play an important role in defining the clinical significance of 9p deletions in primary tumors because it is especially applicable to clinical samples which may be contaminated by normal cells.
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PMID:Detection of CDKN2 deletions in tumor cell lines and primary glioma by interphase fluorescence in situ hybridization. 786 8

We have previously reported on the stimulation of clonal growth of a glioblastoma cell line by rhSCF (Berdel et al., Cancer Res 1992, 52, 3498-3502). Within an extensive screening programme of haematopoietic growth factor activity on malignant cells, the effects of rhSCF were further tested on the growth of 29 different human cell lines derived from a wide range of solid tumours, among them six lung cancers and five melanomas. RhSCF (0, 1, 10, 100 ng/ml) was tested in a human tumour cloning assay (HTCA) which reliably detects growth modulation of tumour cells by cytokines. Additionally, a tritiated thymidine uptake test was used. Growth of 27 of the 29 cell lines tested was not affected by rhSCF. However, growth of the small cell lung cancer (SCLC) cell line HTB 120 was slightly stimulated (1.5 fold that of controls), and that of the melanoma cell line MeWo was stimulated up to 1.3-fold. This activity was eliminated dose-dependently by the tyrosine kinase inhibitor, genistein. We further analysed the cell lines for expression of the proto-oncogene C-KIT and its ligand SCF. All melanoma and lung cancer cell lines expressed SCF as assessed at the mRNA level. Northern blotting also revealed clear C-KIT mRNA expression in three melanoma (HAS, MeWo, SK-MEL-28), one NSCLC (HTB 53), and four SCLC cell lines (HTB 119, HTB 120, HTB 171, HTB 175). Furthermore, C-KIT protein expression was detected by flow cytometric analysis on the cell surface of MeWo, HTB 119 and HTB 120 cells. Our data indicate that SCF can be operative in growth modulation of non-haematopoietic malignant cells, especially SCLC and melanoma. However, our extensive screening of SCF/tumour cell interaction shows that this interaction is rare and makes potential hazards, such as tumour stimulation upon clinical use of rhSCF in conjunction with chemotherapy in cancer patients, unlikely for the majority of other tumour histologies.
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PMID:Recombinant human stem cell factor does exert minor stimulation of growth in small cell lung cancer and melanoma cell lines. 865 71

Flavopiridol (NSC 649890, L86-8275), a potent inhibitor of cyclin-dependent kinase 1/p34cdc2 phosphorylation and kinase activity, is currently undergoing Phase I clinical testing as a potential antineoplastic agent. Previous studies have suggested that flavopiridol is cytostatic but not cytotoxic when applied to exponentially growing cells. In the present study, various human tumor cell lines were assayed for trypan blue exclusion and ability to form colonies after exposure to flavopiridol under a variety of growth conditions. When log phase A549 non-small cell lung cancer cells were examined 72 h after the start of a 24-h flavopiridol exposure, as many as 90% of the cells accumulated trypan blue. A 24-h exposure to 250-300 nM resulted in trypan blue uptake in 50% of A549 cells at 72 h and a 50% reduction in colony formation. Similar results were observed in HCT8 ileocecal adenocarcinoma, T98G glioblastoma, MCF-7 breast adenocarcinoma, and HL-60 leukemia cells. With A549 cells, identical results were obtained in actively growing logarithmic phase cells and growth-arrested confluent cells. Treatment with the DNA synthesis inhibitor aphidicolin only minimally affected the cytotoxicity of flavopiridol. In contrast, the RNA synthesis inhibitor 5,6-dichloro-1-beta-D-ribofuranosylbenzimidazole or the protein synthesis inhibitor cycloheximide reduced the cytotoxicity of flavopiridol. These results suggest that: (a) flavopiridol is not only cytostatic, but also cytotoxic to a variety of human tumor cell lines; (b) flavopiridol is equally active against cycling and noncycling A549 cells; and (c) RNA and protein synthesis appear to play a role in flavopiridol-induced cytotoxicity.
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PMID:Flavopiridol: a cytotoxic flavone that induces cell death in noncycling A549 human lung carcinoma cells. 889 33

The nicotinamide analogue 6-aminonicotinamide (6AN) is presently undergoing evaluation as a potential modulator of the action of various antineoplastic treatments. Most previous studies of this agent have focused on a three-drug regimen of chemical modulators that includes 6AN. In the present study, the effect of single-agent 6AN on the efficacy of selected antineoplastic drugs was assessed in vitro. Colony-forming assays using human tumor cell lines demonstrated that pretreatment with 30-250 microM 6AN for 18 h resulted in increased sensitivity to the DNA cross-linking agent cisplatin, with 6-, 11-, and 17-fold decreases in the cisplatin dose that diminishes colony formation by 90% being observed in K562 leukemia cells, A549 non-small cell lung cancer cells, and T98G glioblastoma cells, respectively. Morphological examination revealed increased numbers of apoptotic cells after treatment with 6AN and cisplatin compared to cisplatin alone. 6AN also sensitized cells to melphalan and nitrogen mustard but not to chlorambucil, 4-hydroperoxycyclophosphamide, etoposide, or daunorubicin. In additional studies undertaken to elucidate the mechanism underlying the sensitization to cisplatin, atomic absorption spectroscopy revealed that 6AN had no effect on the rate of removal of platinum (Pt) adducts from DNA. Instead, 6AN treatment was accompanied by an increase in Pt-DNA adducts that paralleled the degree of sensitization. This effect was not attributable to 6AN-induced decreases in glutathione or NAD+, because other agents that depleted these detoxification cofactors (buthionine sulfoximine and 3-acetylpyridine, respectively) did not increase Pt-DNA adducts. On the contrary, 6AN treatment increased cellular accumulation of cisplatin. Further experiments revealed that 6AN was metabolized to 6-aminonicotinamide adenine dinucleotide (6ANAD+). Concurrent administration of nicotinamide and 6AN had minimal effect on cellular 6AN accumulation but abolished the formation of 6ANAD+, the increase in Pt-DNA adducts, and the sensitizing effect of 6AN in clonogenic assays. These observations identify 6AN as a potential modulator of cisplatin sensitivity and suggest that the 6AN metabolite 6ANAD+ exerts this effect by increasing cisplatin accumulation and subsequent formation of Pt-DNA adducts.
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PMID:6-Aminonicotinamide sensitizes human tumor cell lines to cisplatin. 951 60

Pyrazoloacridine (PA), an acridine congener that has shown selective toxicity in solid tumor cells, full activity against noncycling and hypoxic cells, and promising activity in a recent Phase I trial, is currently undergoing Phase II testing as a solid tumor-selective agent. In the present study, clonogenic assays were used to examine the cytotoxic effects when PA was combined with other antineoplastic agents in A549 human non-small cell lung cancer cells in vitro. Data were analyzed by the median effect method. Combinations of PA with antimetabolites (5-fluorouracil, methotrexate, and cytarabine) or with antimicrotubule agents (paclitaxel and vincristine) failed to exhibit synergy. Likewise, combinations of PA with alkylating agents (melphalan, 4-hydroperoxycyclophosphamide) were less than additive. In contrast, the combination of PA and cisplatin exhibited cytotoxicity that was additive or synergistic over a broad range of clinically achievable concentrations. Moreover, studies involving sequential exposure to PA and cisplatin revealed a synergistic interaction when cells were exposed to the two agents in either sequence. Synergy was likewise observed with this combination in T98G human glioblastoma cells and HCT8 human intestinal adenocarcinoma cells as well as AuxB1 hamster ovary cells. Flow microfluorimetry revealed that PA caused arrest of A549 cells in G1 and G2 phases of the cell cycle, providing a potential explanation for the antagonism between PA and antimetabolites or antimicrotubule agents. Further studies revealed that PA inhibited removal of platinum-DNA adducts in A549 cells in a dose-dependent fashion, with almost complete inhibition occurring at 1 microM PA. These latter observations provide a mechanistic explanation for the synergy between PA and cisplatin and suggest that this combination warrants further preclinical and clinical investigation.
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PMID:Cytotoxic synergy between pyrazoloacridine (NSC 366140) and cisplatin in vitro: inhibition of platinum-DNA adduct removal. 981 47

Lung cancer is now the number one cause of cancer death for both men and women. An age-adjusted analysis over the past 25 years shows that in women specifically, lung cancer incidence is on the rise. It is estimated that 10-20 genetic events including the alteration of oncogenes and tumor suppressor genes will have occurred by the time a lung tumor becomes clinically evident. In an effort to identify regions containing novel cancer genes, chromosome 18p11, a band not previously implicated in disease, was examined for loss of heterozygosity (LOH). In this study, 50 matched normal and NSCLC tumor samples were examined using six 18p11 and one 18q12.3 PCR-based polymorphic markers. In addition, LOH was examined in 29 glioblastoma pairs and 14 paired breast carcinomas. This analysis has revealed potentially two regions of LOH in 18p11 in up to 38% of the tumor samples examined. The regions of LOH identified included a 2 cm area between markers D18S59 and D18S476, and a more proximal, 25 cm region of intermediate frequency between D18S452 and D18S453. These results provide evidence for the presence of one or more potential tumor suppressor genes on the short arm of chromosome 18 which may be involved in NSCLC, brain tumors and possibly breast carcinomas as well.
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PMID:Novel regions of allelic deletion on chromosome 18p in tumors of the lung, brain and breast. 1003 Jun 74

The enzyme protein farnesyltransferase, which catalyzes the first step in the posttranslational modification of ras and a number of other polypeptides, has emerged as an important target for the development of anticancer agents. SCH66336 is one of the first farnesyltransferase inhibitors to undergo clinical testing. In the present study, we examined the effect of combining SCH66336 with several classes of antineoplastic drugs in various human tumor cell lines. Flow cytometry indicated that SCH66336 had no effect on the cell cycle distribution of treated cells. Nonetheless, colony-forming assays revealed that the antiproliferative effects of SCH66336 and 5-fluorouracil were less than additive. In contrast, the effects of SCH66336 and melphalan were additive. Moreover, the combination of SCH66336 + cisplatin produced antiproliferative effects that were additive or synergistic over a broad range of clinically achievable concentrations in A549 non-small cell lung cancer cells and T98G human glioblastoma cells, but less than additive in MCF-7 breast, HCT116 colon, or BxPC-3 pancreatic adenocarcinoma cells. Examination of the effect of drug sequencing in A549 cells revealed synergism when cells were exposed to SCH66336 and then cisplatin and antagonism when drugs were administered in the opposite order. The additive and synergistic effects resulted in enhanced apoptosis with the SCH66336 + cisplatin combination. Additional studies failed to show any effect of SCH66336 on the formation or removal of platinum-DNA adducts, raising the possibility that SCH66336 is affecting survival of cisplatin-treated cells downstream of the DNA lesions. These observations suggest that SCH66336 exhibits additive or synergistic effects when combined with cisplatin in a sequence- and cell line-dependent fashion. Additional preclinical and clinical study of this combination appears warranted.
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PMID:Synergy of the protein farnesyltransferase inhibitor SCH66336 and cisplatin in human cancer cell lines. 1135 Sep 15

Marimastat [BB 2516, TA 2516] is a second-generation anticancer drug originally developed with British Biotech in Europe and North America. It is an orally active metalloprotease inhibitor of the same class as batimastat, and is the first compound in this class to have completed a pivotal clinical trial. Marimastat also has collagenase- and angiogenesis-inhibiting properties. British Biotech and Schering-Plough have signed an agreement enabling the latter to develop and market marimastat in North America and Europe. Under the terms of the agreement, British Biotech will receive an up-front license fee of 4 million US dollars and a 4 million US dollars equity investment in British Biotech by Schering-Plough. Schering-Plough holds rights to marimastat in all countries other than the Far East and Japan. The two companies are considering asking the FDA for accelerated approval in gastric cancer based on the secondary endpoint of progression-free survival. Marimastat is licensed to Tanabe Seiyaku in Japan, where phase II clinical trials are underway for the treatment of advanced gastric cancer and lung cancer. Further phase II trials in other tumour types are planned. The commencement of phase II trials in Japan resulted in a milestone payment of 5 million US dollars to British Biotech from Tanabe Seiyaku. Tanabe Seiyaku also holds rights to marimastat in the Far East. Marimastat has been in pivotal phase III trials in glioblastoma, breast, ovarian and small and non-small cell lung cancer, but these trials have all been discontinued because marimastat failed to show superior efficacy over either standard chemotherapy or placebo. Results from the marimastat 131 trial in patients with glioblastoma, for example, indicated that marimastat was no better than placebo at prolonging survival in these cancer patients. In June 2000, when the results of this study were released, shares in British Biotech fell 21.6% to just 19 pence per share. The phase III trial in small cell lung cancer was discontinued when the results of study 140 were released in February 2001 showing that marimastat was not significantly more effective than placebo in prolonging the survival of small cell lung cancer patients. The results of this study were consistent with those reported in study 117. British Biotech has also conducted a phase III placebo-controlled study of marimastat as monotherapy in patients with inoperable gastric cancer at 37 centres throughout Europe. Results from this trial indicated that it did not achieve its primary endpoint of a statistically significant survival benefit over placebo. However, data collected during the follow-up period have shown increases in survival benefit in the treatment group in addition to a significant improvement in disease-free progression, the secondary endpoint of the trial. Development of marimastat for this indication is ongoing. In May 2001, British Biotech reported data from an interim analysis of results from the remaining phase III study in pancreatic cancer (study 183) that showed no patient benefit for marimastat recipients compared with gemcitabine. However, these results did not meet stopping criteria and the study continues under the guidance of Schering-Plough. The multicentre trials are being conducted in the US, Canada and the European Union. The phase III trial of marimastat in combination with carboplatin that was being conducted in patients with ovarian cancer was discontinued because British Biotech realised that the design of the trial was insufficient for registration in the US or Europe. Altogether, seven phase III studies have failed to meet their primary end-points, but the company has stated that the effectiveness of marimastat is more likely to be seen in patients with less advanced disease. Phase II trials in prostate and head and neck cancer are still underway in the US.
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PMID:Marimastat: BB 2516, TA 2516. 1275 9

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