Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UMLS:C0017638 (glioma)
 30,880 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

To test whether cytokine gene therapy can be applied to an immunologically privileged site, such as the brain, we investigated antitumor immunity in the brain induced by cytokine-secreting glioma cells. Three cytokine genes, interleukin-2 (IL-2), interleukin-4 (IL-4), and granulocyte-macrophage colony-stimulating factor (GM-CSF) were transduced into a rat C6 glioma cell line via a retroviral vector, S2. Rats intracerebrally (IC) implanted with the C6 cells genetically engineered to secrete the cytokines, especially GM-CSF, manifested significantly higher survival rates than those with C6 cells or with C6 cells bearing the control vector (p < 0.002). In vivo, C6 tumors bearing the cytokine genes grew more slowly than wild-type tumors at any time point, and eventually diminished within 6 weeks after tumor cell implantation. Histopathological and immunohistochemical studies revealed that different cytokines induced diverse immune reactions. In the IL-2 group, CD4+ and CD8+ T cells dominated from day 3 to week 4, but disappeared at week 6. Some granulocytes were noted between weeks 2 and 4. In the IL-4 group, eosinophils were noted from day 3 to week 4, and CD4+ and CD8+ T cells, as well as macrophages at week 2. At week 6, only residual levels of macrophages and CD8+ T cells remained. In the GM-CSF group, granulocytes appeared as early as day 1 post-IC tumor implantation, and macrophages at day 2. CD4+ and CD8+ T cells were found from day 3 to week 4. At week 6, only residual CD4+ T cells and macrophages remained. Long-lasting antitumor immunity was confirmed in all groups by rechallenging surviving rats with wild-type C6 cells in the brain 100 days after implanting cytokine gene-bearing C6 cells. In vivo depletion of GM-CSF by anti-GM-CSF antibody further confirmed that the immune reaction induced by GM-CSF-secreting tumor cells were mainly from the action of GM-CSF, rather than the immunogenicity of C6 cells.
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PMID:Induction of antitumor immunity by intracerebrally implanted rat C6 glioma cells genetically engineered to secrete cytokines. 933 40

Human T-cell lymphotropic virus type 1 (HTLV-1) is associated with a chronic neurological disease termed HTLV-1-associated myelopathy/tropical spastic paraperesis (HAM/TSP). Although the pathogenesis of this disease remains to be elucidated, the evidence suggests that immunopathological mechanisms are involved. Since HTLV-1 tax mRNA was colocalized with glial acidic fibrillary protein, a marker for astrocytes, we developed an in vitro model to assess whether HTLV-1 infection activates astrocytes to secrete cytokines or present viral immunodominant epitopes to virus-specific T cells. Two human astrocytic glioma cell lines, U251 and U373, were transfected with the 3' portion of the HTLV-1 genome and with the HTLV-1 tax gene under astrocyte-specific promoter control. In this study, we report that Tax-expressing astrocytic glioma transfectants activate the expression of tumor necrosis factor alpha mRNA in vitro. Furthermore, these Tax-expressing glioma transfectants can serve as immunological targets for HTLV-1-specific cytotoxic T lymphocytes (CTL). We propose that these events could contribute to the neuropathology of HAM/TSP, since infected astrocytes can become a source for inflammatory cytokines upon HTLV-1 infection and serve as targets for HTLV-1-specific CTL, resulting in parenchymal damage by direct lysis and/or cytokine release.
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PMID:Astrocyte-specific expression of human T-cell lymphotropic virus type 1 (HTLV-1) Tax: induction of tumor necrosis factor alpha and susceptibility to lysis by CD8+ HTLV-1-specific cytotoxic T cells. 937 71

Interleukin 10 (IL-10) is a cytokine with a broad spectrum of immunosuppressive activity, but itoffs role in the oncogenesis of solid tumors is still unclear. In previous experiments we have shown that IL-10 specific mRNA is produced within glial tumors in vivo. The aim of the present study was to investigate the expression of the IL-10 protein in vivo and to identify the cells producing IL-10 within the tumor tissue. Expression levels significantly increased with malignancy of the gliomas. 87.5% of grade III and IV, but only 4% of grade II tumors expressed high levels of mRNA. Elevation of IL-10 serum levels was found in 11% of low grade and in 63.6% of high grade glioma patients. In situ hybridization analysis with combined immunohistochemistry revealed that: a) IL-10 is not produced by infiltrating B- or T- lymphocytes, b) both microglia and astroglia contributed to IL-10 expression in malignant gliomas in vivo. These data suggested the functional role of IL-10 in glioma progression. Therefore, the effects of IL-10 on proliferation and migration of glioma cells were determined in vitro. Two human glioma cell lines were grown as monolayer as well as spheroids in the presence of different concentrations of IL-10. IL-10 increased cell proliferation significantly in both culture systems with a dose optimum of 25 ng/ml. Glioma cell motility was enhanced with 25 ng/ml as the optimal dose. Adding the IL-10 specific antibody reversed both effects. We conclude from our data that IL-10 is involved in the progression of glial tumors, especially in the enhancement of tumor cell proliferation and migration which promotes infiltration of the surrounding tissue.
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PMID:Interleukin 10 is expressed in human gliomas in vivo and increases glioma cell proliferation and motility in vitro. 941 51

The anti-tumour alkaloid taxol shows strong cytotoxic and antiproliferative activity in two human malignant glioma cell lines, T98G and LN-229. CD95 (Fas/APO-1) ligand is a novel cytotoxic cytokine of the tumour necrosis factor (TNF) family that exerts prominent antiglioma activity. At clinically relevant taxol concentrations of 5-100 nM, taxol and CD95 ligand showed significant synergistic cytotoxicity and growth inhibition. High concentrations of taxol induced G/M cell cycle arrest in both cell lines. The synergy of taxol and CD95 ligand was independent of cell cycle effects of taxol as synergy was achieved at much lower taxol concentrations than G2/M arrest and as cell cycle effects of taxol were unaffected by co-exposure to CD95 ligand. Similarly, high concentrations of taxol were required to induce p53 activity in the p53 wild-type cell line LN-229. This effect was not modulated by CD95 ligand, suggesting that synergy is also independent of p53 activation. However, taxol induced a mobility shift of the bcl-2 protein on immunoblot analysis, indicative of bcl-2 phosphorylation. Bcl-2 phosphorylation on serine was confirmed by immunoprecipitation and phosphoserine immunoblot analysis. Considering (1) that phosphorylation of bcl-2 interferes with its heterodimerization with bax and (2) the inhibition of CD95-mediated apoptosis by bcl-2, we propose that taxol sensitizes malignant glioma cells to CD95 ligand by increasing the functional bax/bcl-2 rheostat in favour of bax and thus cell death.
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PMID:Taxol-mediated augmentation of CD95 ligand-induced apoptosis of human malignant glioma cells: association with bcl-2 phosphorylation but neither activation of p53 nor G2/M cell cycle arrest. 947 35

Thymosin fraction 5 (TF5) is a partially purified preparation of the bovine thymus possessing immunopotentiating properties. TF5 also stimulates the hypothalamic-pituitary-adrenal axis in vivo and anterior pituitary hormone release in vitro. Interleukin-6 (IL-6) is an inflammatory, pyrogenic cytokine that also stimulates hypothalamic and anterior pituitary hormone release. We hypothesized that TF5 may activate the neuroendocrine system in part via the stimulation of central cytokine production. Therefore, we determined the effects of TF5 on IL-6 release from rat C6 glioma cells in vitro. Glioma cells (25-100 x 10(3)) were exposed to vehicle (RPMI-1640) or TF5 (10-1,000 micrograms/ml) in 96-well plates (200 microliters incubation volume) for 4-24 h to determine optimal cell number and incubation period conditions. TF5 (1,000 micrograms/ml) stimulated IL-6 release from 100 x 10(3) C6 cells/well by 9-fold following a 24-hour incubation (p < 0.01). Reducing the number of cultured C6 cells to either 50 or 25 x 10(3) cells/well resulted in diminished IL-6 responses to TF5. TF5 stimulated C6 cell IL-6 release in a time-dependent manner (4-24 h) at all concentrations tested. A 24-hour incubation period provided the largest TF5-stimulated increases in IL-6 release compared with shorter time intervals (i.e., 4-8 h). Pretreatment of C6 glioma cells with 1 microM phorbol myristate acetate (PMA) for 24 h completely blocked the subsequent stimulation of IL-6 release by PMA (20-250 nM) and partially blocked by 50% the TF5 stimulation of this cytokine. Peptides previously purified from TF5 had no effect on IL-6 release at 50-1,000 nM [i.e., thymosin alpha 1 (T alpha 1), thymosin beta 4 (T beta 4), MB35, MB40]. Therefore, TF5 was further fractionated into 7 pools by preparative reverse phase high performance liquid chromatography (HPLC). HPLC pools P1 (fractions 1-8) and P2 (fractions 9-12) significantly increased C6 cell IL-6 release (p < 0.01) to the same extent as 250 micrograms/ml TF5. Other HPLC pooled fractions (P3-P7) had no effect on IL-6 release from C6 glioma cells. P1 and P2 stimulated a 50- and 10-fold increase in IL-6 release, respectively, at a protein concentration of 1.0 microgram/ml. Therefore, P1 was more potent and displayed a greater efficacy for the stimulation of IL-6 release compared to P2. Analysis of individual fractions of P1 and P2 revealed that 1 microgram/ml of fraction 6 was as efficacious as 250 micrograms/ml TF5 for the stimulation of IL-6 release. These data indicate that one or more peptide components of TF5 enhance glial cell production of IL-6. In addition, the thymosin-stimulated production of extracellular IL-6 is mediated partially by one or more isoforms of protein kinase C. We hypothesize that a peptide product of the thymus transported across the CNS blood-brain barrier may stimulate the glial cell production of IL-6 and affect neuronal, neuroendocrine and/or inflammatory processes.
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PMID:A novel thymosin peptide stimulates interleukin-6 release from rat C6 glioma cells in vitro. 950 Jan 50

In human astrocytoma cell lines, substance P (SP) stimulated interleukin (IL)-8, IL-6, granulocyte macrophage colony-stimulating factor and leukemia inhibitory factor protein secretion. These SP effects were blocked by a specific NK1 tachykinin receptor antagonist. Further, SP stimulation increased the half-life of IL-6 and IL-8 messenger RNAs, suggesting that the synthesis of these cytokines is also regulated post-transcriptionally. SP-induced cytokine release was inhibited by staurosporine and phorbol 12-myristate 13-acetate desensitization suggesting protein kinase C involvement. The demonstration that SP affects cytokine production in glioma cells might be of relevance for the biology of such tumors.
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PMID:Substance P induces secretion of immunomodulatory cytokines by human astrocytoma cells. 952 14

Hepatocyte growth factor/scatter factor (HGF/SF) is a mesenchyme-derived cytokine that stimulates motility and invasiveness of epithelial and cancer cells. These responses are transduced through the c-met proto-oncogene product, a transmembrane tyrosine kinase that functions as the HGF/SF receptor. We have shown that HGF/SF is a potent angiogenic molecule and that its angiogenic activity is mediated primarily through direct actions on vascular endothelial cells. These include stimulation of cell migration, proliferation, protease production, invasion, and organization into capillary-like tubes. We further showed that HGF/SF is overexpressed in invasive human cancers, including breast cancer, relative to non-invasive cancers and benign conditions. In invasive breast cancers, the content of HGF/SF is strongly correlated with that of von Willebrand's factor, a marker of vascular endothelial cells. Furthermore, transfection of breast cancer and glioma cell lines with HGF/SF cDNA greatly enhanced the ability of these cells to grow as tumours in orthotopic sites in syngeneic or immunocompromized host animals. The increased growth rate of the HGF/SF-transfected cells was attributable, in part, to increased tumour angiogenesis. These findings suggest that HGF/SF may function as a tumour progression factor, in part by stimulating tumour cell invasiveness and in part by stimulating angiogenesis.
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PMID:HGF/SF in angiogenesis. 952 73

This report describes a test of the hypothesis that the oncolytic effect of genetically engineered, replication competent herpes simplex viruses (HSV) depends both on cell destruction by the virus and an immune response to the tumor cells induced in an immunocompetent animal system. The oncolytic vector was a HSV recombinant virus in which both copies of the gamma 1 34.5 gene were replaced with the murine genes encoding the cytokine interleukin-4 (IL-4) or interleukin-10 (IL-10). The hypothesis predicted that if an immune response plays a role in survival following intratumoral treatment of tumor-bearing animals with HSV, expression of IL-4 should prolong survival whereas expression of IL-10 should reduce it. The results are that (1) these cytokines can be expressed by HSV in productively infected cells both in vitro and in vivo; (2) HSV-expressing IL-4 or IL-10 genes were able to infect and destroy glioma cells in vitro; (3) intracerebral inoculation of HSV expressing either IL-4 or IL-10 into syngeneic murine glioma GL-261 cells implanted in the brains of immunocompetent C57BL/6 mice produced dramatically opposite physiologic responses. The IL-4 HSV significantly prolonged survival of tumor bearers, whereas tumor-bearing mice that received the IL-10 HSV had a median survival that was identical to that of saline treated controls; (4) immunohistochemical analyses of mouse brains at 3 and 7 days after virus inoculation showed marked accumulation of inflammatory cells composed primarily of macrophages/microglia, with various proportions of CD8+ and CD4+ T cells, but few B lymphocytes. We conclude that the cytokines expressed from genes encoded in the viral genome influence HSV therapy of tumors and this is probably due to the host immune response. Thus, cytokine expression may be an important adjunct to tumor therapy utilizing genetically engineered HSV.
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PMID:Treatment of intracranial gliomas in immunocompetent mice using herpes simplex viruses that express murine interleukins. 953 73

Teniposide (VM26) enhanced the anti-glioma activity of the cytotoxic cytokine, CD95 ligand. Synergy was observed at concentrations of teniposide that were insufficient for cleavable DNA topoisomerase II complex formation. CD95 ligand did not modulate the formation or removal of such complexes after teniposide treatment. These processes were also unaffected by ectopic expression of bcl-2. Teniposide enhanced CD95 expression in a glioma cell line with wild-type p53 (LN-229) but not in two p53 mutant cell lines (T98G, LN-308). Forced expression of a transdominant negative p53 mutant prevented the teniposide induced augmentation of CD95 expression in LN-229 cells but did not prevent the synergy of CD95 ligand and teniposide. Teniposide did not alter CD95 ligand expression, and forced expression of CD95 did not modulate sensitivity to VM26. Thus, teniposide-induced DNA lesions and alterations in CD95 or CD95 ligand are not necessary for teniposide-induced sensitization of human malignant glioma cells to CD95-mediated apoptosis.
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PMID:Synergy of CD95 ligand and teniposide: no role of cleavable complex formation and enhanced CD95 expression. 954 55

CD95 (Fas/APO-1) and its ligand (CD95L) belong to a growing cytokine and cytokine receptor family that includes nerve growth factor (NGF) and tumor necrosis factor (TNF) and their corresponding receptors. CD95 expression increases during malignant progression from low-grade to anaplastic astrocytoma and is most prominent in perinecrotic areas of glioblastoma. There is, however, no evidence that CD95 expression in malignant gliomas is triggered by hypoxia or ischemia. Agonistic antibodies to CD95, or the natural ligand, CD95L, induce apoptosis in human malignant glioma cells in vitro. Glioma cell sensitivity to CD95-mediated apoptosis is regulated by CD95 expression at the cell surface and by the levels of intracellular apoptosis-regulatory proteins, including bcl-2 family members. Several cytotoxic drugs synergize with CD95L to kill glioma cells. For as yet unknown reasons, glioma cells may co-express CD95 and CD95L in vitro without undergoing suicide or fratricide. Yet, they kill T cells via CD95/CD95L interactions and are sensitive to exogenously added CD95L. Since CD95L is expressed in gliomas in vivo, too, forced induction of CD95 expression might promote therapeutic apoptosis in these tumors. That glioma cells differ from nontransformed T cells in their sensitivity to CD95 antibodies or recombinant ligand, may allow the development of selective CD95 agonists with high antitumor activity that spare normal brain tissue. A family of death ligand/receptor pairs related to CD95L/CD95, including APO2L (TRAIL) and its multiple receptors is beginning to emerge. Although several issues regarding glioma cell sensitivity to CD95L/CD95-mediated apoptosis await elucidation, CD95 is a promising target for the treatment of malignant glioma.
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PMID:CD95 ligand: lethal weapon against malignant glioma? 954 87


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