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)

The overexpression of the multidrug resistance (mdr1) gene and its product, P-glycoprotein (P-gp), is thought to limit the successful chemotherapy of human tumors. Recent studies demonstrate that SN-38, a metabolite of the camptothecin (CPT) derivative CPT-11, has antitumor effects on several tumors, but the mechanisms responsible for its cytotoxicity remain unclear. We therefore determined whether SN-38 has cytotoxic effects on MDR human glioblastoma GB-1 cells and non-MDR human glioblastoma U87-MG cells. Furthermore, we determined what role SN-38 plays in the induction of cytotoxicity in these tumor cells. In this study, we demonstrated that SN-38 had significantly stronger antitumor effects on GB-1 and U-87MG cells than did CPT (P < 0.01 and P < 0.05, respectively). In addition, findings obtained using a DNA fragmentation assay, Hoechst 33258 staining, in situ end-labeling and cell cycle analysis demonstrated that SN-38 induced apoptosis in these tumors. Our results suggest that SN-38 has a stronger antitumor effect on malignant glioma cells regardless of MDR expression than does CPT, and therefore can be considered a new chemotherapeutic agent potentially effective in the treatment of human primary or recurrent malignant gliomas resistant to chemotherapy.
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PMID:Induction of apoptosis in multi-drug resistant (MDR) human glioblastoma cells by SN-38, a metabolite of the camptothecin derivative CPT-11. 905 55

The anticancer drug CPT-11 (7-ethyl-[4(1-piperidino)-1-piperidino]carbonyloxycamptothecin) is a water-soluble derivative of camptothecin. We report here the conversion of APC (7-ethyl-[4-N-(5-aminopentanoic acid)-1-piperidino] carbonyloxycamptothecin), an inactive metabolite of CPT-11, to SN-38 (7-ethyl-10-hydroxycamptothecin), the active metabolite of CPT-11, by a rabbit liver carboxylesterase. This reaction is not catalyzed by any known human enzyme. The formation of SN-38 from APC was characterized by an apparent Km of 37.9 +/- 7.1 microM and a Vmax of 16.9 +/- 0.9 pmol/units/min. SN-38 was confirmed as a reaction product by high-performance liquid chromatography and mass spectrometry. A 24-h incubation of 10 microM APC with 500 units/ml of rabbit carboxylesterase produced 4 microM SN-38. The product of this reaction inhibited the growth of U373 MG human glioblastoma cells in vitro. The IC50 for a 24-h exposure of U373 MG cells to APC in the presence of 50 units/ml of rabbit carboxylesterase was 0.27 +/- 0.08 microM, whereas APC alone demonstrated no inhibition of growth at concentrations up to 1 microM. The IC50 of U373 MG cells transfected with the cDNA encoding the rabbit carboxylesterase (U373pIRESrabbit) and exposed to APC for 24 h was 0.8 +/- 0.1 microM APC, whereas the growth of cells transfected with vector control (U373pIRES) was unaffected by up to 1 microM APC. Because APC is nontoxic to human cells, we are investigating the possibility of using APC/rabbit carboxylesterase in a prodrug/enzyme therapeutic approach.
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PMID:Conversion of the CPT-11 metabolite APC to SN-38 by rabbit liver carboxylesterase. 986 25

We attempted to determine a target of chemotherapy specific to glioblastoma cells to ensure a favorable response to anticancer drugs, through comparison in biologic nature related to drug resistance with other types of cancer cells. Using 13 human cancer cell lines including 3 glioblastoma lines, gene expression analysis and biochemical quantitative assay were performed for a total of 12 properties, which have been linked to drug action. Although most of genes related to drug resistance, such as MDR1, MRP, MGMT and GSTpi, were overexpressed in T98G, U-373MG, and U-251MG glioblastoma cells, Topo I (topoisomerase I) expression was relatively low and alpha- and beta-TUB (tubulin) expression was comparable to other types of 10 cell lines. The glioblastoma cell lines also showed an increased expression of NADPH/quinone oxidoreductase gene (NQO1), but the respective enzyme NQO activated MMC. Among the drugs targeting such properties, MMC was more active than Topo I inhibitors and docetaxel (TXT) due to the lack of other sensitivity (resistance) determinants. Differing from MMC, MGMT was shown to participate in the resistance of Topo I inhibitors (CPT-11, SN-38 and DX-8951f), while GSTpi and MDR1 were involved in docetaxel (TXT) resistance. MMC was also more active than ACNU and CDDP in the three glioblastoma cells. NQO may be a priority target of glioblastoma chemotherapy suitable for biochemical nature of the cells, and expression analysis of NQO1, alpha-TUB, beta-TUB, MGMT, MDR1 and GSTpi may help to seek a truly active drug against glioblastomas.
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PMID:NADPH/quinone oxidoreductase is a priority target of glioblastoma chemotherapy. 1063 73

The activity of temozolomide combined with irinotecan (CPT-11) was evaluated against eight independent xenografts (four neuroblastomas, three rhabdomyosarcomas, and one glioblastoma). In all studies, temozolomide was administered p.o. daily for 5 consecutive days/cycle, found in preliminary studies to be the optimal schedule for administration. Irinotecan was administered i.v. for 5 days for 2 consecutive weeks/cycle. Treatment cycles were repeated every 21 days for a total of three cycles over 8 weeks. In combination, temozolomide and CPT-11 induced complete responses in four neuroblastomas, two rhabdomyosarcomas, and the glioblastoma line. The activity of the combination was significantly greater than the activity of either agent administered alone in four tumor lines. Of interest, the interaction appeared independent of tumor MGMT or mismatch repair phenotype, suggesting that the mechanism of synergy may be independent of O6-methylation by temozolomide. Pharmacokinetic studies indicated no detectable interaction between these two agents. Further, coadministration of CPT-11 appeared to reduce the toxicity of temozolomide in tumor-bearing mice.
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PMID:Antitumor activity of temozolomide combined with irinotecan is partly independent of O6-methylguanine-DNA methyltransferase and mismatch repair phenotypes in xenograft models. 1105 Dec 64

Recent study has shown that nuclear glutathione S-transferase (GST) pi accumulates in cancer cells resistant to doxorubicin hydrochloride (DOX) and may function to prevent nuclear DNA damage caused by DOX (Goto et al., FASEB J., 15, 2702 - 2714 (2001)). It is not clear if the amount of nuclear GSTpi increases in response to other anti-cancer drugs and if so, what is the physiological significance of the nuclear transfer of GSTpi in the acquisition of drug-resistance in cancer cells. In the present study, we employed three cancer cell lines, HCT8 human colonic cancer cells, A549 human lung adenocarcinoma cells, and T98G human glioblastoma cells. We estimated the nuclear transfer of GSTpi induced by the anti-cancer drugs cisplatin (CDDP), irinotecan hydrochloride (CPT-11), etoposide (VP-16) and 5-fluorouracil (5-FU). It was found that: (1) Nuclear GSTpi accumulated in these cancer cells in response to CDDP, DOX, CPT-11, VP-16 and 5-FU. (2) An inhibitor of the nuclear transport of GSTpi, edible mushroom lectin (Agaricus bisporus lectin, ABL), increased the sensitivity of the cancer cells to DOX and CDDP, and partially to CPT-11. Treatment with ABL had no apparent effect on the cytotoxicity of VP-16 and 5-FU. These results suggest that inhibitors of the nuclear transfer of GSTpi have practical value in producing an increase of sensitivity to DOX, CDDP and CPT-11.
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PMID:Significance of nuclear glutathione S-transferase pi in resistance to anti-cancer drugs. 1235 59

This phase I study was conducted to determine the dose-limiting toxicity, maximum tolerated doses, and recommended phase II doses of the combination of irinotecan (CPT-11, Camptosar) and temozolomide (Temodar). Patients have received irinotecan and temozolomide on one of three different dosing schedules: (1) oral temozolomide on days 1-14 plus a single i.v. dose of irinotecan on day 8 every 28 days (arm 1); (2) weekly i.v. irinotecan on days 1, 8, 15, and 22 plus oral temozolomide on days 1-7 and 15-21 every 42 days (arm 2); and (3) every-other-week i.v. irinotecan on days 1 and 15 plus oral temozolomide on days 1-7 and 15-21 every 28 days (arm 3). A total of 49 patients have received 112+ cycles of therapy on all three dosing schedules to date. Dose-limiting toxicity consisting of diarrhea, neutropenia, and thrombocytopenia was encountered at a temozolomide dose of 125 mg/m2/d and an irinotecan dose of 250 mg/m2 on treatment arm 1. As a result, the protocol has been amended to explore lower doses of temozolomide in combination with higher doses of irinotecan, and patient accrual is currently continuing. Dose-limiting grade 3 diarrhea, nausea, and vomiting were reported in 7/12 patients enrolled on the two dose levels explored on treatment arm 2, so this dosing regimen was considered intolerable. Patient accrual currently continues at dose level 1 of treatment arm 3, so it is too early to determine dose-limiting toxicities and recommended phase II doses for this treatment schedule. Two partial responses have been reported to date in patients with glioblastoma and head and neck cancer, respectively. One evaluable response has also been observed in a patient with metastatic colorectal cancer. Irinotecan weekly x 4 plus temozolomide on days 1-7 and 15-21 is intolerable due to the development of dose-limiting gastrointestinal toxicities. The recommended phase II doses of irinotecan and temozolomide on treatment arms 1 and 3 remain to be determined as patient accrual is currently ongoing.
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PMID:Phase I. Trial of irinotecan and temozolomide in patients with solid tumors. 1280 Jun 6

Irinotecan (CPT-11) is a chemotherapeutic drug used to treat tumors by acting on malignant cells through inhibition of DNA topoisomerase I and inducing premature apoptosis. Major toxic effects of Irinotecan are myelosuppression and gastrointestinal (GI) toxicity, which limits the dose of administration, particularly severe diarrhea with a delay of onset. However, according to the literature, serious GI side effects are uncommon, comprising 3% of the reported cases. The mechanism of Irinotecan-induced delayed diarrhea is unknown and unpredictable. To our knowledge, this is the first case of colitis associated with Irinotecan administration for temporal glioblastoma documented by biopsies. The histopathologic findings are described and the potential mechanisms inducing such lesions are discussed.
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PMID:Irinotecan-induced colitis. 1586 88

Poor chemosensitivity and the development of chemoresistance remain major obstacles to successful chemotherapy of malignant gliomas. GRP78 is a key regulator of the unfolded protein response (UPR). As a Ca2+-binding molecular chaperone in the endoplasmic reticulum (ER), GRP78 maintains ER homeostasis, suppresses stress-induced apoptosis, and controls UPR signaling. We report here that GRP78 is expressed at low levels in normal adult brain, but is significantly elevated in malignant glioma specimens and human malignant glioma cell lines, correlating with their rate of proliferation. Down-regulation of GRP78 by small interfering RNA leads to a slowdown in glioma cell growth. Our studies further reveal that temozolomide, the chemotherapeutic agent of choice for treatment of malignant gliomas, leads to induction of CHOP, a major proapoptotic arm of the UPR. Knockdown of GRP78 in glioblastoma cell lines induces CHOP and activates caspase-7 in temozolomide-treated cells. Colony survival assays further establish that knockdown of GRP78 lowers resistance of glioma cells to temozolomide, and, conversely, overexpression of GRP78 confers higher resistance. Knockdown of GRP78 also sensitizes glioma cells to 5-fluorouracil and CPT-11. Treatment of glioma cells with (-)-epigallocatechin gallate, which targets the ATP-binding domain of GRP78 and blocks its protective function, sensitizes glioma cells to temozolomide. These results identify a novel chemoresistance mechanism in malignant gliomas and show that combination of drugs capable of suppressing GRP78 with conventional agents such as temozolomide might represent a novel approach to eliminate residual tumor cells after surgery and increase the effectiveness of malignant glioma chemotherapy.
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PMID:The unfolded protein response regulator GRP78/BiP as a novel target for increasing chemosensitivity in malignant gliomas. 1794 11

Patients with primary malignant brain tumors have a poor prognosis. Standard treatment includes surgical resection, radiation therapy and chemotherapy. Topoisomerase I inhibitors such as topotecan and irinotecan (CPT-11) represent one class of chemotherapy drugs that have been used in this disease. Recent clinical trials have shown major antitumor activity in recurrent glioblastoma when adding the antiangiogenesis drug bevacizumab with CPT-11. The combination of targeted agents to topoisomerase I inhibitors represent a novel and promising approach. This review will summarize clinical trials with topoisomerase I inhibitors and discuss new treatment strategies for primary malignant brain tumors.
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PMID:Topoisomerase I inhibitors for the treatment of brain tumors. 1847 Oct 44

Recent published reports on clinical trials of CPT-11 indicate the effectiveness of this compound, a prodrug of SN-38, against malignant glioma in combination with anti-vascular endothelial growth factor antibody. Here, we determined if NK012, and SN-38 incorporating micelle, can be an appropriate formulation for glioblastoma treatment compared with CPT-11. In vitro cytotoxicity was evaluated against several glioma lines with NK012, CPT-11, SN-38, ACNU, CDDP and etoposide. For the in vivo test, a human glioma line (U87MG) transfected with the luciferase gene was inoculated into nude mice brain for pharmacokinetic analysis by fluorescence microscopy and high-performance liquid chromatography after intravenous injection of NK012 and CPT-11. In vivo antitumor activity of NK012 and CPT-11 was evaluated by bioluminescence image and Kaplan-Meier analyses. The growth-inhibitory effects of NK012 were 34- to 444-fold more potent than those of CPT-11. Markedly enhanced and prolonged distribution of free SN-38 in the xenografts was observed after NK012 injection compared with CPT-11. NK012 showed significantly potent antitumor activity against an orthotopic glioblastoma multiforme xenograft and significantly longer survival rate than CPT-11 (p = 0.0014). This implies that NK012 can pass through the blood brain tumor barrier effectively. NK012, which combines enhanced distribution with prolonged sustained release, may be ideal for glioma treatment. Currently, a phase I study of NK012 is almost complete in Japan and the US. The present translational study warrants the clinical phase II study of NK012 in patients with malignant glioma.
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PMID:Potent antitumor effect of SN-38-incorporating polymeric micelle, NK012, against malignant glioma. 1918 1

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