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 interleukin-13 receptor (IL-13R) complex is composed of 2 different chains, IL-13Ralpha1 (also known as IL-13Ralpha') and IL-13Ralpha2 (also known as IL-13Ralpha). For a functional IL-13 receptor, the IL-13Ralpha1 chain forms a productive complex with the primary IL-4 binding protein (IL-4Ralpha also known as IL-4Rbeta). However, the function of the IL-13Ralpha2 chain is not clear even though this chain binds IL-13 with high affinity. This study demonstrates that IL-13Ralpha2 can undergo internalization after binding to ligand without causing activation of its signaling pathways. These conclusions were drawn on the basis of (1) internalization of (125)I-IL-13 in Chinese hamster ovarian (CHO-K1) and T98G glioblastoma cells transiently transfected with the IL-13Ralpha2 chain; (2) a recombinant chimeric fusion protein comprising IL-13 and a mutated form of Pseudomonas exotoxin (termed IL13-PE38QQR or IL-13 toxin) is specifically cytotoxic to IL-13Ralpha2-transfected CHO-K1 cells in a gene dose-dependent manner, whereas cells transfected with vector alone were not sensitive; and (3) IL-13 did not cause activation of signal transduction and activation of transcription 6 (STAT6) in IL-13Ralpha2-transfected cells. IL-13 efficiently caused activation of STAT6 protein in cells transfected with the IL-13Ralpha1 and IL-4Ralpha chains, and IL-13Ralpha2 inhibited this activation. Taken together, these observations indicate that internalization of IL-13Ralpha2 is signal independent and that this property of IL-13Ralpha2 can be exploited for receptor-directed cancer therapy.
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PMID:The interleukin-13 receptor alpha2 chain: an essential component for binding and internalization but not for interleukin-13-induced signal transduction through the STAT6 pathway. 1131 57

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

Historically, bacteria were used as oncolytic agents for malignant brain tumours. Advances in bacteriology and molecular biology have widened the scope of bacterial approaches to cancer therapy and various possibilities include the use of bacteria as sensitising agents for chemotherapy, as delivery agents for anticancer drugs, and as vectors for gene therapy. Bacterial toxins can be used for tumour destruction and cancer vaccines can be based on immunotoxins of bacterial origin. The most promising approaches are the use of genetically modified bacteria for selective destruction of tumours, and bacterial gene-directed enzyme prodrug therapy. Knowledge gained from study of bacterial genomes forms an important basis of use of bacteria as anticancer agents. TAPET (Tumour Amplified Protein Expression Therapy) uses a genetically altered strain of Salmonella as a bacterial vector, or vehicle, for preferentially delivering anticancer drugs to solid tumours. Verotoxin 1 (VT1) of Escherichia coli has been used for ex vivo purging of human bone marrow of cancer cells before autologous bone marrow transplant. E. coli genes and enzymes have become part of well-known prodrug approaches to cancer in which inert prodrugs can be converted in vivo to highly active species. IL-4 fused with Pseudomonas exotoxin has been administered directly into malignant brain tumours and binds with high affinity to IL-4 receptors, which do not exist on normal brain cells, thus destroying a major part of the tumour without harming the normal brain tissue. It is in Phase I/II clinical trials in patients with glioblastoma. No ideal anticancer agent of bacterial origin that is applicable to all types of cancers has been discovered yet. The most promising approach to malignant brain tumours appears to be the use of genetically engineered bacteria that destroy the tumour selectively while sparing the normal brain tissue.
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PMID:Use of bacteria as anticancer agents. 1172 36

Receptors for interleukin 4 (IL-4R) are overexpressed on the surface of various human solid tumors including renal cell carcinoma, glioblastoma, Kaposi's sarcoma, and head and neck squamous cell carcinoma (SCCHN). On the basis of this preferential receptor overexpression, a novel IL-4R-targeted cytotoxin, IL-4 (38-37)-PE38KDEL, was developed in which circularly permuted IL-4 [IL-4 (38-37)] was fused to mutated form of Pseudomonas exotoxin (PE38KDEL). Despite the recognized expression of the IL-4R on SSCHN, the utility of a receptor-specific fusion protein for the treatment of this disease remains unknown. The purpose of this study was to establish the utility of IL-4 (38-37)-PE38KDEL for the treatment of established SSCHN in animal models of human disease. Expression of IL-4R in SCCHN was confirmed by immunohistochemistry with eight of eight tissue sections expressing IL-4R. Protein synthesis inhibition assays demonstrated growth inhibition of two cell lines in IL-4 (38-37)-PE38KDEL in a dose-dependent fashion. In two SCCHN s.c. xenografted nude mouse models, i.p. and intratumoral injection of IL-4 (38-37)-PE38KDEL mediated tumor regression with no visual toxicity observed in any of the animals. Subcultured tumor cells after intratumoral treatment with IL-4 toxin did not develop resistance to the drug. These data demonstrate that IL-4 (38-37)-PE38KDEL is effective in mediating significant antitumor effects in SCCHN and may represent an attractive therapeutic option for patients with advanced cancers of the upper aerodigestive tract.
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PMID:Interleukin 4 receptor-directed cytotoxin therapy for human head and neck squamous cell carcinoma in animal models. 1180 70

Apoptosis is not only essential for homeostasis in normal cells but also in cancer cells, in which it is associated with cell death mechanisms caused by novel therapeutics. We have previously reported that interleukin-13 receptors (IL-13R) are constitutively overexpressed on a majority of human malignant glioma cell lines and primary cell cultures. In addition, we have reported that IL-13 cytotoxin, comprised of human IL-13 and a mutated form of Pseudomonas exotoxin, is highly and specifically cytotoxic to these cells and can lead to pronounced antitumor activity in malignant glioma tumors in animal models. However, the molecular mechanisms of tumor cytotoxicity induced by IL-13 cytotoxin are poorly understood. In this study, we demonstrate that glioma tumors undergo apoptotic cell death on intratumoral administration of IL-13 cytotoxin. This conclusion was made based on (a) time-dependent induction of several proapoptotic molecules, such as caspases (caspase-3, -8, and -9) in tumors; (b) cleavage of procaspase-3 and poly(ADP-ribose) polymerase (PARP); and (c) the release of cytochrome c from mitochondria to the cytosol on injection of IL-13 cytotoxin in U251 glioblastoma tumors established in immunodeficient animals. These indicators of two major pathways of apoptosis were detected in tumors even though IL-13 cytotoxin was no longer present in tumors. In addition, we found that inducible nitric oxide was expressed in tumors in a time-dependent manner with primary localization in infiltrating phagocytes after treatment with IL-13 cytotoxin. These studies demonstrate that IL-13 cytotoxin mediates apoptotic death of glioma cells, resulting in regression of established tumors. Our studies will help unravel the molecular pathways of cell death associated with tumor regression and provide additional insight and define apoptosis as possible surrogate marker of tumor response.
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PMID:Intratumor administration of interleukin 13 receptor-targeted cytotoxin induces apoptotic cell death in human malignant glioma tumor xenografts. 1248 22

To develop novel therapeutic agents for the treatment of brain tumors, we have been investigating the expression of unique tumor-associated receptors or antigens on the tumor cell surface. About six years ago, we discovered that human solid tumor cell lines, including human malignant glioma, express high- to intermediate-affinity receptors (R) for a Th2 cell-derived cytokine, interleukin-13 (IL-13). Analysis of the subunit composition of IL-13R in primary explants of malignant glioma cells has demonstrated that IL-13R is composed of three different chains (IL-13R alpha 1, IL-13R alpha 2 and IL-4R alpha, also known as IL-13R alpha', alpha and IL-4R beta, respectively) and that IL-13R alpha 2 chain is overexpressed on these cells. Normal brain tissues express IL-13R alpha 1 and IL-4R alpha chains, but show only marginal expression of IL-13R alpha 2 chain. Thus IL-13R alpha 2 chain appears to be overexpressed on glioma cells and may serve as a novel tumor biomarker or a target for receptor-directed therapeutic agents for brain tumors. To target IL-13 receptors, we have produced a recombinant fusion protein composed of IL-13 and a mutated form of Pseudomonas exotoxin (PE). This cytotoxin, termed IL-13PE38QQR or IL-13 cytotoxin, is highly and specifically cytotoxic to a spectrum of human glioma cell lines. In preclinical models of human glioblastoma tumors growing subcutaneously in immunodeficient mice, IL-13 cytotoxin has been found to have remarkable antitumor activity. The data that emerged from these studies reveal that localized or systemic administration of IL-13 cytotoxin can produce nontoxic drug levels and that IL-13 cytotoxin is potently effective against established glioblastoma tumors. On the basis of these and other preclinical studies, we have begun a phase I clinical trial using IL-13PE38QQR for therapy of recurrent malignant glioma.
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PMID:Preclinical studies with IL-13PE38QQR for therapy of malignant glioma. 1287 31

Human malignant glioma cell lines, primary cell cultures, and tumor specimens derived from surgical samples have been shown to overexpress high-affinity receptors (R) for interleukin-4 (IL-4) in vitro and in situ. The significance of IL-4R expression on malignant glioma cells is still unclear. However, IL-4 has been reported to mediate functional effects in several solid tumor cell lines. These activities include inhibition of cell proliferation, regulation of adhesion molecules, and induction of signal transduction through the JAK/STAT pathway. To target IL-4Rs on tumor cells, we have produced a chimeric recombinant fusion protein consisting of a binding ligand, circularly permuted IL-4 and a mutated form of Pseudomonas exotoxin. This molecule is termed IL4(38-37)-PE38KDEL, cpIL4-PE, or IL-4 cytotoxin. Recombinant cpIL4-PE is highly and specifically cytotoxic to glioma cell lines in vitro, while it is not cytotoxic or less cytotoxic to hematopoietic and normal brain cells. In a nude mouse model, cpIL4-PE showed significant antitumor activity and partial or complete regression of small or large established human glioblastoma tumors. Encouraging preclinical efficacy, safety, and tolerability studies lead to testing of this agent in patients with recurrent glioblastoma. Based on these pilot studies, an extended Phase I/II clinical trial is currently ongoing to determine safety, tolerability, and efficacy of cpIL4-PE when injected stereotactically directly into the recurrent glioma by convection enhanced delivery. Preliminary clinical results suggest that cpIL4-PE can cause pronounced necrosis of recurrent glioma tumors without systemic toxicity. The central nervous system toxicities observed were attributed to the volume of infusion and/or nonspecific toxicity. Ongoing clinical trials will reveal antitumor activities of IL-4 cytotoxin in recurrent malignant glioma.
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PMID:Interleukin-4-Pseudomonas exotoxin chimeric fusion protein for malignant glioma therapy. 1464 82

IL-13 cytotoxin comprised of IL-13 and a mutated form of Pseudomonas exotoxin (fusion protein termed IL-13-PE38QQR) has been shown to inhibit protein synthesis leading to necrotic and apoptotic cell death in glioblastoma cells that express high levels of interleukin-13 receptors (IL-13R). To identify target genes of cell death and other cellular genes with IL-13 receptors in glioblastoma cells, we utilized the cDNA microarrays to analyze global gene expression profiles after IL-13 cytotoxin and IL-13 treatment. IL-13 cytotoxin mediated cytotoxicity to U251 cells in a dose-dependent manner. Hierarchical cluster analysis of differentially expressed genes in U251 glioma cells at different time points after IL-13 cytotoxin treatment showed three major groups, each representing a specific expression pattern. Randomly selected differentially expressed genes from each group were confirmed by RT-PCR analysis. Most down-regulated genes belong to cell adhesion, motility, angiogenesis, DNA repair, and metabolic pathways. While up-regulated genes belong to cell cycle arrest, apoptosis, signaling and various metabolic pathways. Unexpectedly, at early time points, both IL-13 and IL-13 cytotoxin induced several genes belonging to different pathways most notably IL-8, DIO2, END1, and ALDH1A3 indicating that these genes are early response genes and their products may be associated with IL-13R. In addition, IL-13 cytotoxin induced IL-13Ralpha2 mRNA expression during the treatment in glioma cells. Our results indicate that novel cellular genes are involved with IL-13 receptors and that IL-13 cytotoxin induced cell death involves various target genes in human glioblastoma cells. On going studies will determine the role of associated genes and their products in the IL-13R functions in glioma cells.
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PMID:Analysis of target genes induced by IL-13 cytotoxin in human glioblastoma cells. 1580 73

Azurin is a periplasmic 128 amino acid protein in Pseudomonas aeruginosa, termed Paz, which has been shown to enter preferentially and induce apoptosis in cancer cells such as human melanoma or breast cancer. Its effectiveness against brain tumors such as glioblastomas has not been studied. The meningitis-causing bacterium Neisseria meningitidis also harbors an azurin-like protein. Unlike all other known azurins, Neisserial azurin, termed Laz, is surface-exposed and has in its N-terminal region a 39 amino acid epitope called H.8. Upstream of this H.8 moiety is a lipobox that results in the truncation of the protein at the N-terminal cysteine residue with modification by a lipid group. No function of Laz is known. We demonstrate that while Paz is deficient in entering glioblastoma cells and exhibits low cytotoxicity, Laz is much more proficient in entering glioblastoma cells and shows a higher level of cytotoxicity. When the Neisserial H.8 moiety containing the lipobox is fused in frame with Paz either in its N-terminal (H.8-Paz) or in its C-terminal (Paz-H.8), both had high cytotoxicity for glioblastoma cells and a higher level of internalization. When expressed in E. coli, H.8-Paz was much more exposed on the surface than Paz-H.8. The replacement of the Laz N-terminal cysteine residue involved in acylation with an alanine residue abolished the surface display, but had no effect on cytotoxicity or entry in glioblastoma cells, suggesting a role of the H.8 moiety, but not its lipidation, in disrupting the entry barrier in brain tumor cells.
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PMID:Disrupting the entry barrier and attacking brain tumors: the role of the Neisseria H.8 epitope and the Laz protein. 1686 7

Interleukin (IL)-13 plays a major role in various inflammatory diseases including cancer, asthma, and allergy. It mediates a variety of different effects on various cell types including B cells, monocytes, natural killer cells, endothelial cells, and fibroblasts. IL-13 binds to two primary receptor chains IL-13Ralpha1 and IL-13Ralpha2. The IL-13Ralpha2 but not IL-13Ralpha1 chain binds IL-13 with high affinity and is overexpressed in a variety of human cancer cells derived from glioma, squamous cell carcinoma of head and neck, and AIDS-associated Kaposi's sarcoma. We have also demonstrated that IL-13Ralpha2 expression is greatly increased in lung cells when mice were challenged intranasally with bleomycin or Aspergillus fumigatus. In addition, IL-13Ralpha2 increased in surgical lung biopsies from patients with usual interstitial pneumonia, nonspecific interstitial pneumonia, and respiratory bronchiolitic interstitial pneumonia of unknown origin. Based on various studies, it is concluded that IL-13Ralpha2-expressing cells are involved in various pulmonary pathological conditions. In contrast, normal tissues such as brain, lung, endothelial cells, and head and neck tissues express IL-13Ralpha1 chain, but show only marginal expression of IL-13Ralpha2 chain. Thus, IL-13Ralpha2 chain may serve as a novel biomarker for diseased cells such as cancer or fibrosis and a target for receptor-directed therapeutic agents. To target IL-13R, a recombinant fusion protein composed of IL-13 and a derivative of Pseudomonas exotoxin (PE) has been produced. This cytotoxin termed as IL-13PE38QQR or IL-13PE38, or IL-13PE is highly and specifically cytotoxic to a variety of human tumor cell lines. In preclinical models of human glioblastoma, head and neck and AIDS-associated Kaposi's cancer, IL-13PE has been found to have significant antitumor activity at a tolerated dose. Several phase I clinical trials have been completed in patients with recurrent malignant glioma. Recently a phase III clinical trial (PRECISE) in patients with recurrent malignant glioma has been completed recruiting a total of 294 patients. IL-13PE cytotoxin has also shown a significant therapeutic effect in preclinical bleomycin or A. fumigatus or Schistosoma mansoni-induced pulmonary pathology including granulomatous fibrosis in mouse models. A clinical study in these diseases has yet to be initiated.
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PMID:Role of interleukin-13 in cancer, pulmonary fibrosis, and other T(H)2-type diseases. 1702 27

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