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)

Investigation of the predictive value of a radiosurgery-relevant treatment of glioblastoma spheroids. Organotypic multicellular spheroids were cultured and irradiated (20 Gy). Morphology, apoptosis and immunohistochemical expression of p53, p21, MIB-1, TGF-beta and VEGF were examined 4 h, 24 h, 7 days, and 14 days following treatment. Cell proliferation decreased, while apoptosis was increased. No morphological damage was observed. p53 expression was significantly increased after 4 h. TGF-beta and VEGF expression were only slightly altered. Particularly early changes in proliferation and apoptosis can be observed in spheroids. Individual response differences suggest spheroids of human gliomas to be useful for monitoring radiosurgery effects.
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PMID:Effect of single dose irradiation on human glioblastoma spheroids in vitro. 1471 87

FoxO Forkhead transcription factors are shown here to act as signal transducers at the confluence of Smad, PI3K, and FoxG1 pathways. Smad proteins activated by TGF-beta form a complex with FoxO proteins to turn on the growth inhibitory gene p21Cip1. This process is negatively controlled by the PI3K pathway, a known inhibitor of FoxO localization in the nucleus, and by the telencephalic development factor FoxG1, which we show binds to FoxO-Smad complexes and blocks p21Cip1 expression. We suggest that the activity of this network confers resistance to TGF-beta-mediated cytostasis during the development of the telencephalic neuroepithelium and in glioblastoma brain tumor cells.
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PMID:Integration of Smad and forkhead pathways in the control of neuroepithelial and glioblastoma cell proliferation. 1508 59

PGE(2), synthesized by cyclooxygenase-2 (COX-2)-overexpressing tumor, is known to contribute to cellular immune suppression in cancer patients, but the mechanism remains unclear. We report the mechanism of a CD4(+) T regulatory type 1 (Tr1) induction by CD11c(+) mature dendritic cells (DCs) that phagocytose allogeneic and autologous COX-2-overexpressing glioma. A human glioma cell line, U-87MG, and primary cultured glioblastoma cells (MG-377) overexpressed COX-2. We did not detect IL-10Ralpha expression in these gliomas, and rIL-10 did not suppress their COX-2 expression. Exposure to COX-2-overexpressing glioma induced mature DCs to overexpress IL-10 and decreased IL-12p70 production. These DCs induced a Tr1 response, which is characterized by robust secretion of IL-10 and TGF-beta with negligible IL-4 secretion by CD4(+) T cells, and an inhibitory effect on admixed lymphocytes. Peripheral CD4(+) T cell populations isolated from an MG-377 patient also predominantly demonstrated a Tr1 response against MG-377 cells. Selective COX-2 inhibition in COX-2-overexpressing gliomas at the time of phagocytic uptake by DCs abrogated this regulatory response and instead elicited Th1 activity. COX-2 stable transfectants in LN-18 (LN-18-COX2) also induced a Tr1 response. The effect of a COX-2 inhibition in LN-18-COX2 is reversible after administration of PGE(2). Taken together, robust levels of PGE(2) from COX-2-overexpressing glioma, which is unresponsive to IL-10 within the local microenvironment, may cause DCs to secrete high levels of IL-10. These results indicate that COX-2-overexpressing tumors induce a Tr1 response, which is mediated by tumor-exposed, IL-10-enhanced DCs.
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PMID:Induction of a CD4+ T regulatory type 1 response by cyclooxygenase-2-overexpressing glioma. 1538 64

Transforming growth factor (TGF)-beta is the key molecule implicated in impaired immune function in human patients with malignant gliomas. Here we report that patients with glioblastoma, the most common and lethal type of human glioma, show decreased expression of the activating immunoreceptor NKG2D in CD8(+) T and natural killer (NK) cells. TGF-beta is responsible for the down-regulation of NKG2D expression in CD8(+) T and NK cells mediated by serum and cerebrospinal fluid of glioma patients in vitro. Moreover, TGF-beta inhibits the transcription of the NKG2D ligand MICA. Interference with the synthesis of TGF-beta1 and TGF-beta2 by small interfering RNA technology prevents the down-regulation of NKG2D on immune cells mediated by LNT-229 glioma cell supernatant and strongly enhances MICA expression in the glioma cells and promotes their recognition and lysis by CD8(+) T and NK cells. Furthermore, TGF-beta silencing results in a less migratory and invasive glioma cell phenotype in vitro. LNT-229 glioma cells deficient in TGF-beta exhibit a loss of subcutaneous and orthotopic tumorigenicity in nude mice, and NK cells isolated from these mice show an activated phenotype. RNA interference targeting TGF-beta1,2 results in a glioma cell phenotype that is more sensitive to immune cell lysis and less motile in vitro and nontumorigenic in nude mice, strongly confirming TGF-beta antagonism as a major therapeutic strategy for the future treatment of malignant gliomas.
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PMID:RNA interference targeting transforming growth factor-beta enhances NKG2D-mediated antiglioma immune response, inhibits glioma cell migration and invasiveness, and abrogates tumorigenicity in vivo. 1549 87

The role that transforming growth factor beta1 (TGF-beta1) plays in influencing growth of glioma cells is somewhat controversial. To further understand the potential growth-regulatory effects of TGF-beta1,we constructed an animal astroglial tumor model by injecting either wild-type or virally transduced human U-87 glioblastoma cells into nude rat brains. Wild type U-87 cells produced very low amounts of TGF-beta1 and were highly tumorigenic. In contrast, U-87 cells transduced to express high levels of TGF-beta1 showed reduced tumor size in vivo, in a dose-dependent manner. This reduction in tumor size was not due to either decreased vascularity or increased apoptosis. To test whether TGF-beta1 overproduction inhibited tumor growth through an autocrine mechanism, the highest TGF-beta1 producing cells were then double transduced with a vector expressing the kinase-truncated type II TGF-beta receptor. Cells expressing high levels of truncated TGF-beta receptor were less sensitive to TGF-beta1 mediated growth inhibition in vitro and produced more aggressive tumors in vivo. The data suggest that the degree of tumorigenicity of the U-87 high-grade glioblastoma cell line may be associated with correspondingly low level of production of TGF-beta1. These results also would tend to support the possibility that TGF-beta1 may be useful in treating some high-grade gliomas.
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PMID:Increased expression of TGF-beta1 reduces tumor growth of human U-87 Glioblastoma Cells in vivo. 1618 82

The median survival of patients with glioblastoma treated by surgery, radiotherapy and chemotherapy is in the range of 12 months. These limits in the efficacy of current treatment modalities call for the development of novel therapeutic approaches targeting the specific biological features of this type of cancer. Glioblastomas are a rich source of immunosuppressive molecules which may interfere with immune recognition and rejection as well as clinical strategies of active immunotherapy. The most prominent glioblastoma-associated immunosuppressant is the cytokine, transforming growth factor (TGF)-beta, a multifunctional cytokine which not only interferes with multiple steps of afferent and efferent immune responses, but also stimulates migration, invasion and angiogenesis. The complex regulation of TGF-beta bioavailability includes its synthesis as a proprotein, proteolytic processing by furin-like proteases, assembly in a latent complex, and finally liberation from latency by multiple effector mechanisms, a process collectively referred to as activation. Several in vitro paradigms and rodent glioma models have been used to demonstrate that the antagonism of TGF-beta holds promise for the treatment of glioblastoma, employing antisense strategies, inhibition of pro-TGF-beta processing, scavenging TGF-beta by decorin, or blocking TGF-beta activity by specific TGF-beta receptor (TGF-betaR) I kinase antagonists. Moreover, the local application of TGF-beta(2) antisense oligonucleotides is currently evaluated in a randomized clinical trial for recurrent malignant glioma. In summary, we propose that TGF-beta-antagonistic treatment strategies are among the most promising of the current innovative approaches for glioblastoma, particularly in conjunction with novel approaches of cellular immunotherapy and vaccination.
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PMID:Transforming growth factor-beta: a molecular target for the future therapy of glioblastoma. 1645 48

A variety of drugs have been developed to inhibit transforming growth factor (TGF)beta signaling. These drugs have been designed to block TGFbeta synthesis, ligand/receptor binding or receptor kinase signaling. Preclinical studies using TGFbeta inhibitors have demonstrated efficacy in reducing metastasis and have shown improvements in cytotoxic drug delivery. Results of phase I/II clinical trials of TGFbeta inhibitors in patients with glioblastoma suggest improved survival rates compared with conventional chemotherapy. The predominant cellular target, whether cancer or stromal cell, immune cell or angiogenesis, may differ between tumor types. Different individuals may show variable responses to drug therapy dependent on both germline genetic variation and the somatic mutation profile of the tumor. A deeper understanding of these issues will assist in targeting the right patients for such therapy, and in limiting unwanted side effects.
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PMID:Large- and small-molecule inhibitors of transforming growth factor-beta signaling. 1678 21

We performed a phase I clinical trial in grade IV astrocytoma to assess the safety of a whole-cell vaccine comprising autologous tumor cells genetically modified by a transforming growth factor-beta2 (TGF-beta2) antisense vector. Blocking secretion of the immunosuppressive molecule TGF-beta in this manner should inhibit one of the major mechanisms by which tumor cells evade immune surveillance and should lead to clinically effective antitumor immunity. Six patients with progressive WHO grade IV astrocytoma were enrolled in the trial. Patients received 2-7 subcutaneous injections of 5 x 10(6)-2 x 10(7) autologous tumor cells per injection. TGF-beta2 secretion by the tumor cells used to vaccinate patients was inhibited by 53-98%. Treatment was well tolerated with only low-grade, transient treatment-related toxicities reported. Two patients had partial regressions and two had stable disease following therapy. The overall median survival was 68 weeks. Median survival of the responding patients was 78 weeks, compared to a historic value of 47 weeks for glioma patients treated conventionally. There were indications of humoral and cellular immunity induced by the vaccine. These findings support further clinical evaluation of vaccines comprised of TGF-beta antisense-modified tumor cells.
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PMID:Phase I clinical trial of a TGF-beta antisense-modified tumor cell vaccine in patients with advanced glioma. 1682 91

Glioblastoma (GBM), a highly aggressive (WHO grade IV) primary brain tumor, is refractory to traditional treatments, such as surgery, radiation or chemotherapy. This study aims at aiding in the design of more efficacious GBM therapies. We constructed a mathematical model for glioma and the immune system interactions, that may ensue upon direct intra-tumoral administration of ex vivo activated alloreactive cytotoxic-T-lymphocytes (aCTL). Our model encompasses considerations of the interactive dynamics of aCTL, tumor cells, major histocompatibility complex (MHC) class I and MHC class II molecules, as well as cytokines, such as TGF-beta and IFN-gamma, which dampen or increase the pro-inflammatory environment, respectively. Computer simulations were used for model verification and for retrieving putative treatment scenarios. The mathematical model successfully retrieved clinical trial results of efficacious aCTL immunotherapy for recurrent anaplastic oligodendroglioma and anaplastic astrocytoma (WHO grade III). It predicted that cellular adoptive immunotherapy failed in GBM because the administered dose was 20-fold lower than required for therapeutic efficacy. Model analysis suggests that GBM may be eradicated by new dose-intensive strategies, e.g., 3 x 10(8) aCTL every 4 days for small tumor burden, or 2 x 10(9) aCTL, infused every 5 days for larger tumor burden. Further analysis pinpoints crucial bio-markers relating to tumor growth rate, tumor size, and tumor sensitivity to the immune system, whose estimation enables regimen personalization. We propose that adoptive cellular immunotherapy was prematurely abandoned. It may prove efficacious for GBM, if dose intensity is augmented, as prescribed by the mathematical model. Re-initiation of clinical trials, using calculated individualized regimens for grade III-IV malignant glioma, is suggested.
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PMID:Improving alloreactive CTL immunotherapy for malignant gliomas using a simulation model of their interactive dynamics. 1782 98

We examined a "double-punch" approach to overcome the escape of glioblastoma cells to the immune surveillance: increasing the immune systems activation by an active specific immunization (ASI) with Newcastle-Disease-Virus infected tumor cells and blocking the TGF-beta production by delivery of TGF-beta antisense oligonucleotides using polybutyl cyanoacrylate nanoparticles (NPs). Gene delivery was first evaluated using the CMV-beta-gal plasmid as a reporter gene. Fischer rats received implantation of glioblastoma cells into the brain and were then treated with combined ASI/NP-anti-TGF-beta formulation. Massive staining of tumor cells was seen after NP delivery of the plasmid beta-galactosidase, indicating gene transfer by nanoparticles to tumor cells. When treated with NP-anti-TGF-beta after having been immunized, the rats survived longer than untreated controls, had reduced TGF-beta-levels and showed increased rates of activated CD25+ T cells. In summary, nanoparticles are useful to deliver plasmids and antisense oligonucleotides to brain tumors. A combined immunization/gene delivery of TGF-beta antisense oligonucleotides may be a promising approach for brain tumor therapy.
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PMID:Brain tumor therapy by combined vaccination and antisense oligonucleotide delivery with nanoparticles. 1830 55

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