UMLS:C0017638 - FACTA Search

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Query: UMLS:C0017638 (glioma)
30,880 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Fas/APO-1 is a transmembrane protein of the nerve growth factor/TNF alpha receptor family which signals apoptotic cell death in susceptible target cells. We have investigated the susceptibility of seven human malignant glioma cell lines to Fas/APO-1-dependent apoptosis. Sensitivity to Fas/APO-1 antibody-mediated cell killing correlated with cell surface expression of Fas/APO-1. Expression of Fas/APO-1 as well as Fas/APO-1-dependent cytotoxicity were augmented by preexposure of human malignant glioma cells to IFN gamma and TNF alpha. Further, pretreatment with TGF beta 2, IL1 and IL8 enhanced Fas/APO-1 antibody-induced glioma cell apoptosis whereas other cytokines including TNF beta, IL6, macrophage colony-stimulating factor, IL10 and IL13 had no such effect. None of the human malignant glioma cell lines was susceptible to TNF alpha-induced cytotoxicity. Fas/APO-1 antibody-sensitive glioma cell lines (n = 5), but not Fas/APO-1 antibody-resistant glioma cell lines (n = 2), became sensitive to TNF alpha when co-treated with inhibitors of RNA and protein synthesis. Resistance of human glioma cells to Fas/APO-1 antibody-mediated apoptosis was mainly related to low level expression of Fas/APO-1 and appeared not to be linked to overexpression of the anti-apoptotic protooncogene, bcl-2. Given the resistance of human malignant glioma to surgery, irradiation, chemotherapy and immunotherapy, we propose that Fas/APO-1 may be a promising target for a novel locoregionary approach to human malignant glioma. This strategy gains support from the demonstration of Fas/APO-1 expression in ex vivo human malignant glioma specimens and from the absence of Fas/APO-1 in normal human brain parenchyma.
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PMID:Anti-Fas/APO-1 antibody-mediated apoptosis of cultured human glioma cells. Induction and modulation of sensitivity by cytokines. 752 90

Recently, we have demonstrated that human (h) glioma cell lines express large number of receptors (R) for interleukin 13 (IL13) (Debinski, W., Obiri, N. I., Powers, S. K., Pastan, I., and Puri, R. K. (1995) Clin. Cancer Res. 1, 1253-1258). These cells are extremely sensitive to a chimeric protein composed of hIL13 and a derivative of Pseudomonas exotoxin (PE), PE38QQR. We have found that the cytotoxicity of hIL13-PE38QQR was blocked by hIL13 but not by hIL4 on the U-251 MG and U-373 MG cells, contrary to what was observed on several adenocarcinoma cell lines. In the present study, we further explored interactions between receptor for IL13 and IL4 on glioma cells. Established human glioma cell lines, such as DBTRG MG, Hs 683, U-87 MG, SNB-19, and A-172, are very susceptible to hIL13-PE38QQR, and the action of the chimeric toxin is not blocked by hIL4 on all these cells either. Also, hIL4 is not a competitor for 125I-hIL13 binding sites on glioma cells. Of interest, a corresponding hIL4-based chimeric toxin, hIL4-PE38QQR, is poorly active or not active on all the tested glioma cell lines. When active, however, hIL4 toxin action was blocked by hIL13. hIL13 is a competitor for 125I-hIL14 binding in a competitive binding assay on glioma cells. hIL13 and hIL4 did not affect the growth of the tested glioma cell lines. Human glioblastoma multiforme explant cells exhibited similar responses to the chimeric toxins and interleukins when compared with that found in established glioma cultures. Our results suggest that the hIL13R on glioma cells is expressed in one predominant form, the form that does not interact with IL4. Thus, this type of hIL13R is apparently different from the one demonstrated previously on several adenocarcinoma cell lines.
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PMID:Receptor for interleukin (IL) 13 does not interact with IL4 but receptor for IL4 interacts with IL13 on human glioma cells. 879 6

Human brain cancers (gliomas) overexpress large numbers of a receptor for interleukin 13 (IL13), making this receptor an attractive target for anti-glioma therapies. We have recently proposed that the glioma-associated IL13 receptor is different from the one expressed on some hemopoietic and somatic cells. In an attempt to identify an even more glioma-specific target, we have used an antagonist of a related cytokine, IL4, which neutralizes the physiological effects of both IL13 and IL4 on normal cells. Here we demonstrate that the IL4 antagonist also counteracts the action of cytotoxins targeted to the IL13 receptor on normal human cells. Importantly, the IL4 antagonist does not inhibit IL13-based cytotoxins on glioma cells at all. Thus, the IL13 receptor on glioma cells can be categorized as tumor-specific in the presence of an IL4 antagonist. We conclude that IL13 receptor-directed cytotoxins can be delivered to glioma cells without being cytotoxic to normal cells.
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PMID:Novel way to increase targeting specificity to a human glioblastoma-associated receptor for interleukin 13. 959 Jan 32

The vast majority of brain cancers (gliomas) express a receptor (R) for interleukin 13 (IL13). In order to achieve specific targeting of the IL13R in gliomas, we have mutagenized human (h) IL13. The mutation was made to alter IL13 interaction with the shared functional IL13/4 normal tissue receptor, but not with the glioma-associated receptor. We have thus produced hIL13.E13K (glutamic acid at position 13 changed to lysine) and fused it to derivatives of Pseudomonas exotoxin A. The hIL13.E13K-based cytotoxins are less active on normal cells and thus less toxic, and are better antitumor agents compared with the cytotoxins containing nonmutagenized hIL13.
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PMID:Novel anti-brain tumor cytotoxins specific for cancer cells. 959 93

Recently, we have demonstrated that a spectrum of human adenocarcinoma cell lines express binding sites for interleukin 13 (IL-13). These cells are killed by a chimeric protein composed of human (h) IL-13 and a derivative of Pseudomonas exotoxin, PE38QQR (Debinski et al., J. Biol. Chem., 270: 16775-16780, 1995). The cell killing was hIL-13- and hIL-4-specific, indicating that a common binding site for the two cytokines is present in several solid tumor cell lines. Herein, we report that an array of established glioma cell lines is killed by very low concentrations of hIL-13-PE38QQR, often reaching <1 ng/ml (<20 pM). Glioma cells express up to 30,000 molecules of IL-13 receptor/cell which has intermediate affinity toward hIL-13. hIL-13-PE38QQR is more active (up to 3 logs difference in cytotoxic activities) than are the corresponding chimeric toxins containing hIL-4 or hIL-6. The cytotoxic action of hIL-13-PE38QQR is blocked by an excess of hIL-13 on all cell lines studied, and it is not neutralized by hIL-4 on some of these cells. Our results show that human brain cancers richly express receptors for IL-13. Furthermore, the interaction detected previously between receptors for IL-13 and IL-4 on solid tumors cell lines is of a qualitatively different character in U-251 MG and U-373 MG glioma cells. The receptor for IL-13 may represent a new marker of brain cancers and an attractive target for anticancer therapies.
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PMID:Human glioma cells overexpress receptors for interleukin 13 and are extremely sensitive to a novel chimeric protein composed of interleukin 13 and pseudomonas exotoxin. 981 19

A vast majority of patients with glioblastoma multiforme (GBM), a high-grade glioma, overexpress abundant amounts of a receptor for interleukin (IL)-13 in situ. This receptor is more restrictive because it is IL-4-independent and therefore differs from the IL-13/4 signaling receptor of normal tissue that is shared with IL-4. We previously identified one of the sites on the human IL (hIL)-13 molecule that is important for its interaction with the IL-13/4 receptor, a residue of glutamic acid at position 13. In this study, we mutated the cytokine and produced hIL-13.E13Y, in which the glutamic acid was substituted by tyrosine. This additional tyrosine residue was therefore strategically located within the region of IL-13 interaction with the signaling physiological receptor. hIL-13.E13Y did not transduce signals through the IL-13/4 receptor, whereas its interaction with the more restrictive, GBM-associated receptor remained intact. The mutated hIL-13 could be readily radiolabeled. Radiolabeled hIL-13.E13Y produced specific autoradiographic images of human GBM specimens. We demonstrate an effective way to redirect hIL-13 to its more restrictive receptor found in high-grade gliomas by mutagenizing the cytokine, and, concomitantly, we equipped hIL-13 with an additional tyrosine residue for higher specific activity radiolabeling.
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PMID:Retargeting interleukin 13 for radioimmunodetection and radioimmunotherapy of human high-grade gliomas. 1054 55

We have previously documented that the vast majority of high-grade gliomas over-express binding sites for interleukin 13 (IL13) in situ. We now extend this analysis to evaluate the distribution of the binding of IL13 among other brain tumors. Tumor specimens from patients with low-grade gliomas, oligodendrogliomas, ependymomas, pilocytic astrocytomas, gliosarcomas, medulloblastomas, meningiomas, and metastases to the brain were analyzed and compared to a new series of glioblastoma multiforme (GBM) samples. Serial tumor tissue sections were incubated with 125I-labeled (i) IL13, (ii) antibody against transferrin (Tf) receptor, and (iii) epidermal growth factor (EGF). Most (17/18) GBMs stained specifically for IL13 binding sites while sections from 3/11 low-grade gliomas, 5/5 high-grade gliomas (grade III), 3/5 oligodendrogliomas (all three were anaplastic), and 1/2 gliosarcomas also showed specific binding for IL13. We did not detect IL13 binding sites in medulloblastomas (0/4) and found them only in 2/20 meningiomas. Metastases to the brain (4/12, i.e., lung adenocarcinomas and renal cell carcinoma) showed some binding of 125I-IL13. The presence of receptors for Tf was ubiquitous among all studied tumors while EGF receptor expression was much more variable. Since it appears that primarily the least differentiated forms of gliomas possess IL13 binding sites in abundance, it is plausible that IL 13 receptor expressed in low-grade gliomas might be a prognostically significant marker associated with their progression to high-grade gliomas. Finally, we demonstrate that the glioma-associated IL13 receptor is truly more restrictive in nature also due to its selective representation among brain tumors of glial origin.
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PMID:Expression of a restrictive receptor for interleukin 13 is associated with glial transformation. 1108 73

A vast majority of high-grade gliomas over-express a receptor for interleukin 13 (IL13). This glioma-associated receptor for IL13 is interleukin 4 (IL4)-independent. This is in contrast to the physiological and IL4-shared receptor for the IL13, IL13/4 receptor, which is found on many normal organs. IL13-based Pseudomonas exotoxin (PE)-containing cytotoxic fusion proteins have been shown to be very potent anti-glioma agents. However, native IL13-based cytotoxins interact with both forms of the IL13 receptor. Therefore, mutations in IL13 were made in order to diminish/eliminate IL13's interaction with the shared IL13/4 receptor of normal tissue. These mutations encompassed amino acids located on alpha-helix A and C of IL13. We have engineered double or triple mutants of IL13 linked to various forms of PE. We found that these mutations could be successfully incorporated into IL13 without the loss of the protein's ability to selectively deliver the toxin to glioma cells while reducing their toxicity.
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PMID:Molecular targeting of malignant gliomas with novel multiply-mutated interleukin 13-based cytotoxins. 1141 5

Glioma and renal cell carcinoma (RCC) cells express high affinity interleukin 13 (IL13) binding sites, but only RCC cell proliferation was inhibited by IL13. Both of these two cell types are IL2-receptor (gamma)c chain-negative. We thus used these cell models to investigate the patterns of expression of IL13Ralpha1, IL13Ralpha2, and IL4Ralpha chains and the role of IL13Ralpha2 in the response to IL13. Using new specific antibodies and flow cytometry, we observed a similar surface expression of IL4Ralpha and IL13Ralpha1 chains in most RCC and glioma cells, whereas IL13Ralpha2 was only present on five of six glioma cell lines. In all glioma cell lines, the amount of IL13Ralpha2 expression was 10 to 30 times higher than that of the two other chains. Although there was no surface or intracellular expression of IL13Ralpha2, its mRNA was detected in three of seven RCC cell lines. The expression on RCC cells of IL13Ralpha2 mRNA and/or that of high-affinity IL13 binding sites is not sufficient to predict IL13Ralpha2 protein expression. Blocking experiments showed that IL4 and IL13 strongly inhibited RCC cell proliferation through a unique receptor composed of IL4Ralpha and IL13Ralpha1 chains. Using RCC cells stably transfected with IL13Ralpha2 cDNA, we showed that the overexpression of IL13Ralpha2 decreased the response to IL13 but not that to IL4. Our results demonstrate that IL13Ralpha2 acts as a decoy receptor for IL13 and that it may exert a tight regulation of IL13 activity without impairing the IL4 response of the same cell target.
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PMID:Expression of interleukin 13 receptor in glioma and renal cell carcinoma: IL13Ralpha2 as a decoy receptor for IL13. 1155 70

NeoPharm, under license from the NIH and the FDA, is developing a chimeric human IL-13 fused in frame to a genetically engineered truncated Pseudomonas exotoxin (PE38QQR) molecule, for its potential as an antitumor agent [266296], [281418], [290480]. NeoPharm filed an IND in 1999 for renal cell carcinoma (RCC) and glioma [319690], [325001]; an additional IND was filed in March 2000 for the treatment of glioblastoma. In December 2000, NeoPharm initiated phase I/II trials of IL-13-PE38QQR involving patients with refractory glioblastoma multiforme. This trial was being conducted by the New Approaches to Brain Tumor Therapy, a research consortium sponsored by the NCI. At that time, the first patient with brain cancer had completed treatment with IL-13-PE38QQR [393197]. In October 1999, NeoPharm initiated phase I trials of hIL-13-PE38QQR for the treatment of patients with RCC [343878]. In February 2000, Dirks & Co estimated the potential US market for hIL-13-PE38QQR to be $5.8 billion [414515].
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PMID:hIL-13-PE38QQR. NeoPharm. 1171 20

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