Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound

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

Glioblastoma multiforme is the most common primary central nervous system neoplasm. Its dismal prognosis has led to investigation of new treatment strategies such as immunogene therapy. We transduced the human glioblastoma cell line D54MG in vitro with genes encoding the proinflammatory cytokine granulocyte-macrophage colony-stimulating factor (GM-CSF), the T cell co-stimulatory molecule B7-2, or both (in a bicistronic vector) via retroviral vectors. Therapeutic gene expression by D54MG was high after transduction and selection (30 ng/10(6) cells/day for GM-CSF and > 2 orders of magnitude fluorescence shift on flow cytometry for B7-2). The effect of GM-CSF and/or B7-2 transduction on D54MG tumor growth in vivo was monitored in a novel allogeneic human peripheral blood lymphocyte-severe combined immunodeficiency mouse (Hu-PBL-SCID) model. GM-CSF- or B7-2-transduced tumors showed growth suppression in hu-PBL-reconstituted mice compared to untransduced and/or unreconstituted controls. Growth suppression was greatest for B7-2. Furthermore, vaccination with irradiated GM-CSF/B7-2-transduced tumor cells markedly inhibited growth of wild-type tumors at distant sites. Thus, this study illustrates a potential gene therapy strategy for glioblastoma multiforme patients using GM-CSF and/or B7-2 transduced tumor vaccines. Although extension of these allogeneic studies to an autologous system is critical, this is the first demonstration of in vivo efficacy of combination GM-CSF and B7-2 immunogene therapy for human glioblastoma multiforme.
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PMID:Granulocyte-macrophage colony-stimulating factor and B7-2 combination immunogene therapy in an allogeneic Hu-PBL-SCID/beige mouse-human glioblastoma multiforme model. 918 65

Glioblastoma cells secrete transforming growth factor-beta (TGF-beta), which has a variety of immunosuppressive properties. We investigated the effect of irradiation TGF-beta secretion by malignant glioma cells. Three malignant glioma cell lines (T98G, A172, KG-1-C) were cultured and irradiated using 10 and 50 Gy Linac radiation. After further culture for 36 hours in serum-free culture medium, the supernatants were collected. The TGF-beta activity in the culture supernatants was determined using a specific bioassay. The levels of the active form and total TGF-beta in the supernatants from irradiated malignant glioma cells decreased compared to those from un-irradiated cells. However, since irradiation inhibited the growth of tumor cells, the amount of TGF-beta secretion per cell in irradiated cells tended to increase after irradiation. These results suggest that malignant glioma cells can still secrete TGF-beta and activate latent TGF-beta even after large dose irradiation, despite the inhibition of tumor growth.
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PMID:Effect of irradiation on transforming growth factor-beta secretion by malignant glioma cells. 919 90

Although gamma delta T cells make up no more than 10% of the peripheral blood mononuclear (PBM) cells, they appear to play an important role in host defense against tumor growth. In order to evaluate their functional activity against tumors and their response to various cytokines, large numbers of cells are required. Here, we describe a newly-devised method for the isolation and expansion of gamma delta T cells from the peripheral blood of cancer patients, in particular those with glioblastoma. Using this approach, a 1000-1500-fold increase in total cell numbers was achieved in two weeks, the proportion of gamma delta T cells in the expanded population being, on average, approximately 30% after 14 days of culture. The method therefore gives a yield of approximately 10-15 x 10(8) gamma delta T cells from only 5 ml of peripheral blood from glioblastoma patients and normal controls. The highly purified gamma delta T cells of glioblastoma patients were shown to bear both a high-affinity interleukin-2 receptor (IL-2R) and a low-affinity IL-12 receptor (IL-12R). They also displayed significant cytotoxicity against autologous tumor cells, but not against autologous fresh or IL-2-treated lymphocytes, and proliferated in response to IL-2, both effects being dependent on the dose of IL-2 used for activation. In addition, overnight incubation with 700 U/ml of IL-2 or 50 ng/ml of IL-12 resulted in significant cytotoxic activity of patients' gamma delta T cells against K562 target cells, the level of activity being almost the same as with similarly-treated gamma delta T cells from normal controls (P > 0.05). These results demonstrate that the patients' gamma delta T cells obtained using this method are intact in terms of cytotoxic function. Thus, this method not only makes it possible to produce large numbers of purified gamma delta T cells but also to produce populations containing both gamma delta T cells and NK cells, both active against tumor targets which might be suitable for clinical trials of adoptive-immunotherapy, especially in cancer patients for whom no effective therapy is available.
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PMID:A simple method for the propagation and purification of gamma delta T cells from the peripheral blood of glioblastoma patients using solid-phase anti-CD3 antibody and soluble IL-2. 923 11

Matrigel, an extracellular matrix material, has been used to promote growth of experimental tumors. SF-767, a human glioblastoma cell line, is used in brain tumor research. We investigated Matrigel induced changes in tumor latency, growth rate, cell yield, plating efficiency, and histology of SF-767 tumors in athymic mice. Low volume (0.1 ml) Matrigel did not increase growth rate in comparison with control tumors but appeared to promote uniformity in growth. High volume (0.5 ml) Matrigel increased the initial rate of tumor growth, increased cell yield and produced tumors with a centralized area of residual Matrigel and necrotic cells, with viable cells on the periphery of the mass. On average, tumors grown with Matrigel had shorter latency periods and lower plating efficiencies. We conclude that important characteristics of the SF-767 tumor model, which may be important when evaluating efficacy of anticancer agents, are altered by Matrigel.
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PMID:Effects of Matrigel on the SF-767 malignant glioma athymic mouse tumor model. 925 57

Immunohistochemistry (IHC) has provided major insights about the classification of brain tumors by identifying cellular markers of phenotype and about tumor growth potential with nuclear markers of proliferation. In situ hybridization (ISH) research shows promise for diagnostic applications in tumor classification. The avidin-biotin conjugate IHC procedure is highlighted for diagnostic use on routinely processed clinical specimens. The immunophenotypes of brain tumors are tabulated in reference to their common IHC markers. Tumors that have been correctly classified by their IHC phenotypes include the giant-cell glioblastoma, primary brain lymphoma, and central neurocytoma. Phenotypes that may be more definitively detected by ISH, such as pituitary hormone, immunoglobulin light chain, and collagen messages are described. IHC of nuclear proliferation markers correlates with grade of malignancy, predicts tumor growth potential, and is prognostic for patient survival. The incorporation of bromodeoxyuridine, the expression of proliferating cell nuclear antigen, and the expression of Ki-67 antigen detected by MIB-1 antibody are compared in regard to their cell cycle activity and labeling index determinations. Fluorescence in situ hybridization (FISH) of brain tumor interphase nuclei and chromosomes is described. Abnormal FISH signals of specific chromosomes are associated with different types of brain tumors, with different grades of malignancy, and with mesenchymal drift of glioma cells in culture.
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PMID:Insights about brain tumors gained through immunohistochemistry and in situ hybridization of nuclear and phenotypic markers. 960 6

Vascular endothelial growth factor (VEGF) is a potent and selective vascular endothelial cell mitogen and angiogenic factor. VEGF expression is elevated in a wide variety of solid tumors and is thought to support their growth by enhancing tumor neovascularization. To block VEGF-dependent angiogenesis, tumor cells were transfected with cDNA encoding the native soluble FLT-1 (sFLT-1) truncated VEGF receptor which can function both by sequestering VEGF and, in a dominant negative fashion, by forming inactive heterodimers with membrane-spanning VEGF receptors. Transient transfection of HT-1080 human fibrosarcoma cells with a gene encoding sFLT-1 significantly inhibited their implantation and growth in the lungs of nude mice following i.v. injection and their growth as nodules from cells injected s.c. High sFLT-1 expressing stably transfected HT-1080 clones grew even slower as s.c. tumors. Finally, survival was significantly prolonged in mice injected intracranially with human glioblastoma cells stably transfected with the sflt-1 gene. The ability of sFLT-1 protein to inhibit tumor growth is presumably attributable to its paracrine inhibition of tumor angiogenesis in vivo, since it did not affect tumor cell mitogenesis in vitro. These results not only support VEGF receptors as antiangiogenic targets but also demonstrate that sflt-1 gene therapy might be a feasible approach for inhibiting tumor angiogenesis and growth.
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PMID:Paracrine expression of a native soluble vascular endothelial growth factor receptor inhibits tumor growth, metastasis, and mortality rate. 967 58

Tumor cells transduced with retrovirus carrying the herpes simplex-1 virus thymidine kinase (HSV-tk) are capable of transforming the antiviral drug ganciclovir (GVC) into a metabolic form only toxic to dividing cells. The efficiency of this suicide gene therapy is increased by a "bystander" effect resulting not only in the death of the recipient cell, but also in the death of non modified surrounding cells. Even though the mechanism of this "bystander" effect remains to be elucidated, strong evidence suggest that the immune system plays a main role to achieve complete tumor eradication. In the present study we evaluate the efficiency of this suicide system on three different tumor models: one human melanoma, one murine melanoma, and a rat glioblastoma. Tumors were established by injection of tumor cells s.c. in nude and C57Bl/6 mice, respectively, and stereotactically into the brain of Sprague Dawley rats. Animals in the treated group were co-injected with packaging cells producing recombinant retrovirus carrying the HSV-tk gene, and followed by i.p. administration of GVC. In short term studies, we observed inhibition of tumor growth for all the tumor models evaluated (p < 0.01). In long term studies, using the C6 rat glioma line, 50% of the animals survived longer than 75 days (p < 0.0001), and were able to reject a contralateral challenges with C6 parental cells. Histological and immunohistochemical analysis showed the presence at an inflammatory infiltrate composed by T lymphocytes, macrophages and polymorphonuclear cells. These data demonstrate that suicide genes might represent an attractive form of cancer gene therapy in the treatment of brain tumors and their intracerebral dissemination.
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PMID:[Antitumor gene therapy using suicide genes]. 970 53

GammadeltaT cells play a regulatory role in both primary and metastatic tumor growth in humans. The mechanisms responsible for the activation and proliferation of circulating gammadeltaT cells should be fully understood prior to their adoptive transfer to cancer patients. We have examined in vitro functional effects of interleukin-15 (IL-15) on highly purified gammadeltaT cells isolated from glioblastoma patients. GammadeltaT cells constitutively express the heterotrimeric IL-2 receptor (IL-2R) alpha betagamma, but the levels of IL-2Rbeta or gamma expression were not increased by incubation with saturating amounts of IL-15. IL-15 was shown to induce a maximal gammadeltaT cell proliferation, although at much higher concentrations (at least 2000 U/ml) than IL-2 (100 U/ml). Submaximal concentrations of IL-15 plus low concentrations of IL-2 produced an additive proliferative response. In contrast to the IL-2-induced response, this activity was completely or partially abrogated by anti-IL-2Rbeta, or anti-IL-2Rgamma antibodies, but not by anti-IL-2R alpha antibodies. Incubation of gammadeltaT cells in the presence of IL-15 resulted not only in the appearance of NK and LAK activity, but also in specific autologous tumor cell killing activity, an additive effect being seen with IL-15 and IL-2. This IL-15-induced tumor-specific activity could be significantly blocked by anti-IL-2Rgamma and anti-IL-2R-beta mAb, but not by anti-IL-2R alpha mAb. Thus, in contrast to IL-2, IL-15 activates tumor-specific gammadeltaT cells through the components of IL-2Rbeta and IL-2Rgamma, but not IL-2R alpha. These enhanced in vitro tumor-specific and proliferative responses of gammadeltaT cells seen with IL-15 suggest a rational adjuvant imunotherapeutic use of gammadeltaT cells in cancer patients.
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PMID:Interleukin-15 effectively potentiates the in vitro tumor-specific activity and proliferation of peripheral blood gammadeltaT cells isolated from glioblastoma patients. 976 18

Our previous studies demonstrated that matrix metalloproteinase (MMP-9) levels were significantly higher in human glioblastoma tissue samples than in low-grade brain tumors and normal brain tissue (Rao et al., Cancer Res. 53, 2208-2211, 1993). In the present study, we measured the levels of MMP-2 and MMP-9 during the growth of glial tumors in nude mice by intracerebral injection of glioblastoma cells. Using gelatin zymography, densitometry, and an enzyme-linked immunosorbent assay, we found that the enzyme activity and protein count of MMP-2 and MMP-9 were a respective 3- to 10- and 2- to 30-fold higher in tumors at day 14 and 28 than in normal tissue. Immunohistochemical staining for MMP-9 showed strong immunoreactivity in tumor cells and the staining intensity was much higher at day 28, compared to day 14. These results suggest that upregulation of MMP-9 plays a major role in the glioma tumor growth in vivo.
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PMID:Elevated levels of Mr 92,000 type IV collagenase during tumor growth in vivo. 979 25

Angiogenesis is a prerequisite for solid tumor growth. Glioblastoma multiforme, the most common malignant brain tumor, is characterized by extensive vascular proliferation. We previously showed that transgenic mice expressing a GFAP-v-src fusion gene in astrocytes develop low-grade astrocytomas that progressively evolve into hypervascularized glioblastomas. Here, we examined whether tumor progression triggers angiogenetic signals. We found abundant transcription of vascular endothelial growth factor (VEGF) in neoplastic astrocytes at surprisingly early stages of tumorigenesis. VEGF and v-src expression patterns were not identical, suggesting that VEGF activation was not only dependent on v-src. Late-stage gliomas showed perinecrotic VEGF up-regulation similarly to human glioblastoma. Expression patterns of the endothelial angiogenic receptors flt-1, flk-1, tie-1, and tie-2 were similar to those described in human gliomas, but flt-1 was expressed also in neoplastic astrocytes, suggesting an autocrine role in tumor growth. In crossbreeding experiments, hemizygous ablation of the tumor suppressor genes Rb and p53 had no significant effect on the expression of VEGF, flt-1, flk-1, tie-1, and tie-2. Therefore, expression of angiogenic signals is an early event during progression of GFAP-v-src tumors and precedes hypervascularization. Given the close similarities in the progression pattern between GFAP-v-src and human gliomas, the present results suggest that these mice may provide a useful tool for antiangiogenic therapy research.
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PMID:Early induction of angiogenetic signals in gliomas of GFAP-v-src transgenic mice. 1002 15


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