Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts:   Target Concepts:
Query: UMLS:C0017636 (glioblastoma)
 18,345 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Interferon-gamma (IFN-gamma) regulates a variety of immunoregulatory functions through the induction of a specific set of IFN-gamma response genes. This includes the invariant chain associated with the major histocompatibility complex class II molecules. To investigate the mechanism involved in the invariant chain (In) response to IFN-gamma we constructed chloramphenicol acetyltransferase (CAT) hybrid genes in which the CAT gene is under the control of the In promoter. The glioblastoma cell line, U-373 MG, transfected with a CAT construct having the In promoter sequence -790 to +1 bp showed over 3-fold increased CAT activity when treated with IFN-gamma indicating that this region confers IFN-gamma responsiveness to the CAT gene. The IFN-gamma response element in the promoter was further sublocalized to the region -120 to -61 base pairs (bp). This region contains homology to the interferon-stimulated response elements identified in other IFN responsive genes. By gel shift analyses, an IFN-gamma-induced sequence-specific DNA-binding factor was identified. This induced complex binds to an oligonucleotide corresponding to -107 to -79 bp of the In promoter. Mutations of this binding site at -94 and -92 bp drastically decreased binding of the constitutive and IFN-gamma-induced complexes. This IFN-gamma induced factor also binds to an oligonucleotide corresponding to -91 to -62 bp of the interferon-beta (IFN-beta) gene promoter, a region necessary for the induction of the IFN-beta gene by virus and double-stranded RNA. This binding specificity is characteristic of a family of DNA binding factors that bind both the interferon-stimulated response elements and the IFN-beta gene promoter.
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PMID:Interferon-gamma-inducible regulation of the human invariant chain gene. 189 64

To study the regulation of major histocompatibility complex class II antigen by central nervous system cells, the expression of one of these antigens, human leukocyte antigenDR (HLADR) in three human glioblastoma cell lines (HTB14, 16 and 17) and a neuroblastoma cell line (HTB11) was determined. Interferon-gamma (IFN gamma) induced HTB16 and HTB17 cells to express HLADR, and enhanced the antigen expression in HTB14 cells, but it failed to induce HLADR expression in HTB11 cells. Tumor necrosis factor-alpha amplified and accelerated the expression of HLADR induced by IFN gamma in HTB16 cells. Interleukin-1 beta, prostaglandin E2 and transforming growth factor-beta suppressed IFN gamma-induced HLADR expression in HTB16 cells. Several other substances tested did not affect HLADR expression or IFN gamma-induced HLADR. These findings confirm that IFN gamma plays a role in the regulation of HLADR expression in cells derived from the brain and that some other cytokines modify IFN gamma-HLADR interactions.
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PMID:Modulation of human leukocyte antigenDR expression in glioblastoma cells by interferon gamma and other cytokines. 195 63

Interferon-gamma-induced tryptophan metabolism of human macrophages was compared to ten human neoplastic cell lines of various tissue origin and to normal dermal human fibroblasts. Tryptophan and metabolites were determined in supernatants of cultures, after incubation for 48 h, by high-performance liquid chromatography with ultraviolet and fluorescence detection. With the exception of two cell lines (Hep G 2, hepatoma and CaCo 2, colon adenocarcinoma) in all of the ten other cells and cell lines tryptophan degradation was induced by interferon-gamma. Five of these ten formed only kynurenine (SK-N-SH, neuroblastoma; T 24, J 82, bladder carcinoma; A 431, epidermoid carcinoma; normal dermal fibroblasts), three formed kynurenine and anthranilic acid (U 138 MG, glioblastoma; SK-HEP-1, hepatoma; A 549, lung carcinoma). Only one line, A 498 (kidney carcinoma) showed the same pattern of metabolites as macrophages (kynurenine, anthranilic acid and 3-hydroxyanthranilic acid). Interferon-gamma regulated only the activity of indoleamine 2,3-dioxygenase. All other enzyme activities detected were independent of interferon-gamma, as shown by the capacity of the cells to metabolize L-kynurenine or N-formyl-L-kynurenine. Increasing the extracellular L-tryptophan concentration resulted in a marked induction of tryptophan degradation by macrophages. Contrarily, a significant decrease of the tryptophan degrading activity was observed when the extracellular L-tryptophan concentration was increased 2-fold with SK-N-SH, T 24 and J 82, 4-fold with A 431 and A 549 and 10-fold with U 138 MG and SK-HEP-1. The activity was unaffected by extracellular L-tryptophan with dermal fibroblasts and A 498. Though interferon-gamma was the most potent inducer of tryptophan metabolism, interferon-alpha and/or -beta showed small but distinct action on some of the cells. In all cells which reacted to interferon-gamma by enhanced expression of class I and/or class II major histocompatibility complex antigens tryptophan degradation was also inducible. These results demonstrate that induction of indoleamine 2,3-dioxygenase is a common feature of interferon-gamma action, that the extent of this induction is influenced by extracellular L-tryptophan concentrations and that indoleamine 2,3-dioxygenase is the only enzyme in the formation of 3-hydroxyanthranilic acid from tryptophan which is regulated by interferon-gamma.
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PMID:Characteristics of interferon induced tryptophan metabolism in human cells in vitro. 250 Sep 76

Seven human glioblastoma cell lines established in vitro from primary tumor explants were studied. A marked heterogeneity of glial fibrillary acidic protein was observed whereas vimentin was uniformly expressed by all cell lines. Indirect immunofluorescence and flow cytofluorometry revealed a heterogeneous distribution of surface GE 2 and CG 12 tumor-associated antigens (TAA's): three cell lines were positive (greater than 69% TAA-positive cells) and three cell lines were negative (less than 9% TAA-positive cells). One cell line (Hu 228) was moderately positive at early culture passages and subsequently acquired a TAA-negative phenotype. The difference in the relative amounts of surface TAA's of the three positive cell lines was less than twofold. In spite of the heterogeneous distribution of surface TAA's, all cell lines exhibited considerable amounts of intracellular TAA. Treatment with phorbol esters and density-dependent growth arrest decreased the percentage of the TAA-positive cells and the amount of cell-surface TAA's in one cell line (Hu 195). Interferon-gamma treatment in vitro increased the percentage of CG 12-positive cells by 12% and the amount of cell-surface CG 12 antigens by 38% as compared to untreated cells. The percentage of TAA-positive cells among phorbol ester-treated cells of the Hu 195 cell line was lowest 48 hours after treatment, but returned to normal values within the next 48 hours. Reduction of 3H-thymidine incorporation preceded the decrease in number of TAA-positive cells by about 18 hours. Two-color fluorescence analysis performed in positive cell lines for simultaneous determination of surface TAA's and deoxyribonucleic acid content or reactivity with the proliferation-associated Ki67 intracellular marker indicated that GE 2 and CG 12 antigens are expressed preferentially by actively proliferating glioma cells. The results of this study indicate the existence of two different phenotypes in cultured human glioblastoma cells: surface TAA-positive/cytosol TAA-positive and surface TAA-negative/cytosol TAA-positive cell populations. In addition, modulation of TAA expression was dependent on the cell-cycle differentiation stage, culture conditions, and proliferative state of the cells.
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PMID:Heterogeneity and modulation of tumor-associated antigens in human glioblastoma cell lines. 276 91

Interferon-gamma (IFN-gamma) is a potent immune regulatory cytokine and is, in addition, involved in the induction of antiparasitic effector mechanisms in different cell types. The first step of IFN-gamma action is its binding to a specific receptor. Furthermore, it has been shown that IFN-gamma binds with a great affinity to the heparin-like structure of heparan sulfate, which is localized in basement membranes and on cell surfaces. In this study, we analyze the effect of heparin and heparan sulfate on three different IFN-gamma-mediated activities inducible in human glioblastoma cells (87HG31 and 86HG39). We find firstly that heparin is able to inhibit IFN-gamma-mediated induction of major histocompatibility complex (MHC) class II antigen expression on 87HG31 cells, an effect which can be abrogated by protamine. Secondly, we show that heparin inhibits the IFN-gamma-induced toxoplasmostasis within 86HG39 cells in a dose-dependent fashion, and thirdly that heparin inhibits the IFN-gamma-mediated induction of the tryptophan-degrading enzyme indoleamine 2,3-dioxygenase. In contrast to IFN-gamma-induced effects, the activity of other cytokines, such as interleukin (IL)-1, IL-2 and IL-6, is not influenced by heparin. The possible mechanism of heparin-induced inhibition of IFN-gamma is discussed.
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PMID:Heparin inhibits the antiparasitic and immune modulatory effects of human recombinant interferon-gamma. 770 97

Malignant gliomas are highly proliferative and invasive tumors with poor prognosis. We investigated the influence of Interferon-gamma (IFN-gamma) on the human malignant glioma cell line A172, measuring cell viability (MTT-test), proliferation (3H-thymidine-uptake), cell death (FACS) adhesion to hyaluronic acid (HA, adhesion-assay) and migration (Boyden-chamber). IFN-gamma significantly decreased cell viability and proliferation. Measured by FACS, an up-regulation of CD95 expression has been shown in combination with an increased rate of cell death, first seen after 96 hours IFN-gamma treatment. Adhesion to HA was decreased after pre-treatment with IFN-gamma. This was not mediated by down-regulation of the main HA-receptor CD44, since IFN-gamma did not change CD44 expression. IFN-gamma-treated cells showed a significantly diminished migration rate through a native or HA-coated 8-microm polycarbonate membrane. To summarise, IFN-gamma influences both the main characteristics of malignancy: it decreases cell proliferation and induces cell death, further it diminishes migration of A172 human glioblastoma cells.
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PMID:Interferon-gamma inhibits growth and migration of A172 human glioblastoma cells. 1191 Dec 81

Interferon-gamma-inducible protein 10 is a potent chemoattractant for natural killer cells and activated T lymphocytes. It also displays angiostatic properties and some antitumor activity. Tumor necrosis factor-alpha (TNF-alpha) is a powerful immunomodulating cytokine with demonstrated tumoricidal activity in various tumor models and the ability to induce strong immune responses. This prompted us to evaluate the antitumor effects of recombinant parvoviruses designed to deliver IP-10 or TNF-alpha into a glioblastoma. When Gl261 murine glioma cells were infected in vitro with an IP-10- or TNF-alpha-transducing parvoviral vector and were subcutaneously implanted in mice, tumor growth was significantly delayed. Complete tumor regression was observed when the glioma cells were coinfected with both the vectors, demonstrating synergistic antitumor activity. In an established in vivo glioma model, however, repeated simultaneous peritumoral injection of the IP-10- and TNF-alpha-delivering parvoviruses failed to improve the therapeutic effect as compared with the use of a single cytokine-delivering vector. In this tumor model, cytokine-mediated immunostimulation, rather than inhibition of vascularization, is likely responsible for the therapeutic efficacy.
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PMID:TNF-alpha and the IFN-gamma-inducible protein 10 (IP-10/CXCL-10) delivered by parvoviral vectors act in synergy to induce antitumor effects in mouse glioblastoma. 1867 Apr 52

Human telomerase reverse transcriptase (hTERT) is the catalytic component of telomerase that facilitates tumor cell invasion and proliferation. Telomerase and hTERT are remarkably upregulated in majority of cancers including glioblastoma. Interferon-gamma (IFN-gamma) modulates several cellular activities including cell cycle and multiplication through transcriptional regulation. The present investigation was designed to unravel the molecular mechanisms of the inhibition of cell proliferation, migration, and invasion of human glioblastoma SNB-19 and LN-18 cell lines after knockdown of hTERT using a plasmid vector based siRNA and concurrent treatment with IFN-gamma. We observed more than 80% inhibition of cell proliferation, migration, and invasion of both cell lines after the treatment with combination of hTERT siRNA and IFN-gamma. Our studies also showed accumulation of apoptotic cells in subG1 phase and an increase in cell population in G0/G1 with a reduction in G2/M phase indicating cell cycle arrest in G0/G1 phase for apoptosis. Semiquantitative and real-time RT-PCR analyses demonstrated significant downregulation of c-Myc and upregulation of p21 Waf1 and p27 Kip1. Western blotting confirmed the downregulation of the molecules involved in cell proliferation, migration, and invasion and also showed upregulation of cell cycle inhibitors. In conclusion, our study demonstrated that knockdown of hTERT and concurrent treatment with IFN-gamma effectively inhibited cell proliferation, migration, and invasion in glioblastoma cells through downregulation of the molecules involved in these processes and cell cycle inhibition. Therefore, the combination of hTERT siRNA and IFN-gamma offers a potential therapeutic strategy for controlling growth of human glioblastoma cells.
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PMID:Knockdown of hTERT and concurrent treatment with interferon-gamma inhibited proliferation and invasion of human glioblastoma cell lines. 2039 35