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)

KILLER/DR5 is a death-domain-containing proapoptotic receptor that binds to the cytotoxic ligand TRAIL. It was originally reported that induction of KILLER/DR5 mRNA following DNA damage was p53-dependent, but some drugs that induce apoptosis can upregulate KILLER/DR5 mRNA expression in cell lines with mutated p53. We further extend those findings by classifying the capability of various apoptosis-inducing drugs to increase the expression of KILLER/DR5 mRNA in a p53-independent manner. beta-Lapachone, a topoisomerase inhibitor, increased KILLER/DR5 mRNA in colon cancer cell lines with wild-type p53 but not with mutant p53. In contrast, betulinic acid, a novel chemotherapeutic compound, induced apoptosis and KILLER/DR5 mRNA in melanoma and glioblastoma cells through a p53-independent mechanism. The synthetic glucocorticoid dexamethasone elevated KILLER/DR5 mRNA in glioblastoma, ovarian cancer, and colon cancer cell lines with mutant p53 undergoing apoptosis, and this induction was inhibited by the transcriptional inhibitor actinomycin D. Although another glucocorticoid, prednisolone, also induced apoptosis, it did not increase KILLER/DR5 mRNA. Finally, the cytokine interferon-gamma (IFN-gamma) induced apoptosis and KILLER/DR5 in cell lines with mutant p53, and the induction of KILLER/DR5 mRNA by IFN-gamma was delayed in cells lacking wild-type STAT1, a transcription factor implicated in IFN-gamma signaling. Similarly, the induction of KILLER/DR5 mRNA by the cytokine TNF-alpha was also delayed in cell lines with mutated STAT1. These findings suggest that KILLER/DR5 may play a role in p53-independent apoptosis induced by specific drugs and warrants further investigation as a novel target for chemotherapy of tumors lacking wild-type p53.
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PMID:p53-independent upregulation of KILLER/DR5 TRAIL receptor expression by glucocorticoids and interferon-gamma. 1113 40

Using microarray technology, we analyzed 12,000 genes for regulation by TNF-alpha and the synthetic glucocorticoid, dexamethasone, in the human lung epithelial cell line, A549. Only one gene was induced by both agents, the cellular inhibitor of apoptosis 2 (c-IAP2), which was induced 17-fold and 5-fold by TNF-alpha at 2 h and 24 h, respectively, and increased 14-fold and 9-fold by dexamethasone at 2 h and 24 h, respectively. The combination of the two agents together led to an additive increase (34-fold) at 2 h and a more than additive effect (36-fold) at 24 h. The human c-IAP2 promoter contains two nuclear factor (NF)-kappaB sites that have been shown to be required for transcriptional activation by TNF-alpha. To test whether glucocorticoids regulate the c-IAP2 gene at the level of the promoter, a reporter vector containing 947 bases upstream of the start site of transcription of the human c-IAP2 promoter was linked to luciferase [IAP(-947-+54)-LUC] and transfected into A549 cells. Dexamethasone and TNF-alpha each induced reporter activity, whereas the combination of the two agents led to greater induction of luciferase than either one alone. Truncation of the promoter region containing a putative glucocorticoid response element (GRE) at -515 [IAP(-395-+54)-LUC] or mutation of the GRE in the context of the natural promoter [IAP(-947-+54mutGRE)-LUC] resulted in a loss of dexamethasone-mediated induction of reporter activity. Although the functional NF-kappaB sites were retained in the truncated and mutant c-IAP2 promoter constructs, dexamethasone did not inhibit the TNF-alpha induction of luciferase activity, indicating that GR repression through the NF-kappaB sites did not occur. Regulation of the c-IAP2 gene is therefore unique, as GR and NF-kappaB signaling pathways are usually mutually antagonistic, not cooperative. Treatment of A549 cells with TNF-alpha and/or dexamethasone had no effect on cell death, but the two agents were able to inhibit interferon-gamma/anti-FAS antibody-mediated apoptosis. In human glioblastoma A172 cells, TNF-alpha and dexamethasone together elicited a greater than additive increase in c-IAP2 mRNA levels and also inhibited anti-FAS antibody-mediated A172 cell apoptosis. In contrast, in human CEM-C7 leukemic T cells, whereas TNF-alpha and dexamethasone treatment also led to an increase in c-IAP2 mRNA, the two agents were able to induce apoptosis on their own. However, TNF-alpha and dexamethasone were also able to blunt anti-FAS-induced apoptosis in the T cells. These data indicate that the induction of the antiapoptotic protein, c-IAP2, by glucocorticoids and TNF-alpha correlates with the ability of these agents to inhibit apoptosis in a variety of cell types.
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PMID:Dexamethasone and tumor necrosis factor-alpha act together to induce the cellular inhibitor of apoptosis-2 gene and prevent apoptosis in a variety of cell types. 1223 98

There is accumulating evidence showing that glial cells and gliomas secrete some neuropeptides and vasoactive peptides, such as adrenomedullin and endothelin-1. We have previously shown that expression of these two peptides is induced by inflammatory cytokines in T98G human glioblastoma cells. Glucocorticoids are frequently used for the treatment of inflammatory diseases and glioblastomas. We therefore studied effects of dexamethasone on expression of adrenomedullin and endothelin-1 in T98G human glioblastoma cells. Dexamethasone dose-dependently increased adrenomedullin mRNA levels and immunoreactive-adrenomedullin levels in the medium in T98G cells, whereas it decreased immunoreactive-endothelin levels in the medium. A combination of three cytokines, interferon-gamma (100 U/ml), tumor necrosis factor-alpha (20 ng/ml) and interleukin-1beta (10 ng/ml) induced expression of adrenomedullin and endothelin-1 in T98G cells. Dexamethasone (10(-8) mol/l) suppressed increases in expression of both adrenomedullin and endothelin-1 induced by these three cytokines. Thus, dexamethasone alone increased adrenomedullin expression whereas it suppressed the cytokine-induced expression of adrenomedullin in T98G cells. These findings raised the possibility that effects of dexamethasone on brain inflammation and glioblastomas may be partly mediated or modulated by its effects on expression of adrenomedullin and endothelin-1.
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PMID:Suppression of cytokine-induced expression of adrenomedullin and endothelin-1 by dexamethasone in T98G human glioblastoma cells. 1449 84

Human glioblastoma is a highly lethal tumor known for its capability of interfering with effective antitumor immune responses. Costimulatory signals are of critical relevance in both the inductive and effector phases of immune responses. Inducible costimulator-ligand (ICOSL), a member of the B7 family of costimulatory molecules related to CD80/CD86, regulates CD4 as well as CD8 T-cell responses via interaction with its receptor, ICOS, on activated T cells. We report the expression of ICOSL by glioma cells in vitro and in vivo. In contrast to CD80 (B7.1) and CD86 (B7.2), ICOSL protein and mRNA was expressed in 7 of 12 glioma cell lines. ICOSL expression is upregulated by the inflammatory cytokine, tumor necrosis factor-alpha (TNF-alpha), whereas interferon-gamma (IFN-gamma) has no such effect. Further, immunohistochemical analysis of human brain tumors demonstrates the expression of ICOSL in three of four tissue samples. ICOSL expression is functional in that a neutralizing ICOSL antibody (HIL-131) reduces Th1 and Th2 cytokine levels in cocultures of peripheral blood lymphocytes or T-cell subsets (CD4 and CD8) with glioma cells. However, ICOSL gene transfer into glioma cells does not alter their immunogenicity under primary or secondary alloreactive coculture assays.
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PMID:Expression of the B7-related molecule ICOSL by human glioma cells in vitro and in vivo. 1460 70

Mutations in the gene coding for the ubiquitous, anti-oxidant enzyme Cu,Zn superoxide dismutase (SOD1) are associated with familial amyotrophic lateral sclerosis (fALS), a fatal disease characterized by selective loss of motor neurons. Expression of a mutant SOD1 typical of fALS patients restricted to either motor neurons or astrocytes is insufficient to generate a pathological phenotype in mouse models, suggesting that a deleterious interplay between different cell types is necessary for the pathogenesis of the disease. In this study, we demonstrate the actual role of a functional cross-talk between glial and neuronal cells expressing fALS mutant G93A-SOD1, where an increase in the production of reactive oxygen species occurs. We show that human glioblastoma cells expressing G93A-SOD1 induce activation of caspase-1, release of cytokines, and activation of apoptotic pathways in cocultured human neuroblastoma cells also expressing G93A-SOD1. Activation of caspase-1 and caspase-3 is observed also in neuroblastoma lines expressing other fALS-SOD1s (G37R, G85R, and I113T) cocultured with glioblastoma lines expressing the corresponding mutant enzymes. These effects are consequent to activation of inflammatory processes in G93A-glioblastoma cells stimulated by cocultured G93A-neuroblastoma. Furthermore, selective death of embryonal spinal motor neurons from G93A-SOD1 transgenic mice is induced by coculture with G93A-glioblastoma and prevented by inhibition of NO synthase. Proinflammatory cytokines, interferon-gamma, and nitric oxide are among the molecular signals exchanged between glial and neuronal cells that generate a functional interplay between the two cell types. This cross-talk may be crucial for the pathogenesis of SOD1-linked fALS but also for the more common sporadic form of the disease, where markers of increased oxidative stress and of glial activation have been found.
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PMID:Cell death in amyotrophic lateral sclerosis: interplay between neuronal and glial cells. 1520 63

The major vault protein (MVP) is the main component of vaults, large ribonucleoprotein particles implicated in the regulation of cellular signaling cascades and multidrug resistance. Here, we identify MVP as an interferon gamma (IFN-gamma)-inducible protein. Treatment with IFN-gamma resulted in a significant upregulation of MVP promoter activity as well as mRNA and protein levels. Activation of MVP expression by IFN-gamma involved transcriptional upregulation through the JAK/STAT pathway based on an interaction of STAT1 with an interferon-gamma-activated site (GAS) within the proximal MVP promoter. Mutation of this site distinctly reduced basal as well as IFN-gamma-stimulated MVP transcription. IFN-gamma also significantly enhanced the translation rate of MVP. Ectopic MVP overexpression in the MVP-negative lung cancer cell model H65 led to a downregulation of three known IFN-gamma-regulated genes, namely ICAM-1, CD13 and CD36. Additionally, presence of MVP in H65 cells blocked both basal and IFN-gamma-induced ICAM-1 expression whereas downmodulation of endogenous MVP levels by shRNA enhanced IFN-gamma-induced ICAM-1 expression in U373 glioblastoma cells. MVP-mediated IFN-gamma insensitivity was accompanied by significantly reduced STAT1 phosphorylation at Y701 and diminished translocation of STAT1 into the nucleus. Summarizing, we identify MVP as an IFN-gamma-responsive gene interfering with IFN-gamma-activated JAK/STAT signals. These data further substantiate that the vault particle functions as a general interaction platform for cellular signaling cascades.
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PMID:The major vault protein is responsive to and interferes with interferon-gamma-mediated STAT1 signals. 1641 17

Endothelin-1 (ET-1) levels in the culture medium were considered to reflect the transcription of the ET-1 gene and the subsequent secretion of ET-1 from cultured cells. It has not been clarified how different ET-1 mRNA expression levels and immunoreactive (IR)-ET levels in the culture medium are in the cell culture system. We studied ET-1 mRNA expression levels and IR-ET levels in the medium of T98G glioblastoma cells treated with cytokines. T98G glioblastoma cells were cultured with cytokines (interferon-gamma 100 U/ml, tumor necrosis factor-alpha 20 ng/ml and interleukin-1beta 10 ng/ml) under normoxia or hypoxia (1% O(2)). Northern blot analysis showed that ET-1 mRNA expression levels were increased by tumor necrosis factor-alpha alone or a combination of tumor necrosis factor-alpha and interleukin-1beta, or three cytokines, and the increase was further enhanced under hypoxia. Particularly, relative expression levels of ET-1 mRNA were significantly higher under hypoxia than in normoxia in the treatment with a combination of three cytokines. IR-ET levels in the medium were increased by treatment with tumor necrosis factor-alpha, interleukin-1beta or a combination of tumor necrosis factor-alpha and interleukin-1beta, or three cytokines. In contrast to the mRNA expression levels, IR-ET levels in the medium of T98G cells treated with a combination of three cytokines were rather decreased under hypoxia compared with those in normoxia. These findings indicate that hypoxia induces ET-1 mRNA expression in the treatment of three cytokines, but IR-ET levels in the medium do not reflect this induction in T98G glioblastoma cells.
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PMID:Hypoxia increases endothelin-1 mRNA expression but not immunoreactive endothelin in the medium of T98G glioblastoma cells under cytokine treatment. 1672 59

Mouse glioma 261 (Gl261) cells are used frequently in experimental glioblastoma therapy; however, no detailed description of the Gl261 tumor model is available. Here we present that Gl261 cells carry point mutations in the K-ras and p53 genes. Basal major histocompatibility complex (MHC)I, but not MHCII, expression was detected in Gl261 cells. The introduction of interferon-gamma-encoding genes increased expression of both MHCI and MHCII. A low amount of B7-1 and B7-2 RNA was detected in wild-type cells, but cytokine production did not change expression levels. Gl261 cells were transduced efficiently by adenoviral vectors; the infectivity of retroviral vectors was limited. Low numbers of transplanted Gl261 cells formed both subcutaneous and intracranial tumors in C57BL/6 mice. The cells were moderately immunogenic: prevaccination of mice with irradiated tumor cells 7 days before intracranial tumor challenge prevented tumor formation in approximately 90% of mice. When vaccination was carried out on the day or 3 days after tumor challenge, no surviving animals could be found. In vitro-growing cells were radiosensitive: less than 2 Gy was required to achieve 50% cell mortality. Local tumor irradiation with 4 Gy X-rays in brain tumor-bearing mice slowed down tumor progression, but none of the mice were cured off the tumor. In conclusion, the Gl261 brain tumor model might be efficiently used to study the antitumor effects of various therapeutic modalities, but the moderate immunogenicity of the cells should be considered.
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PMID:Detailed characterization of the mouse glioma 261 tumor model for experimental glioblastoma therapy. 1673 35

Glioblastoma is the most common and highly malignant brain tumor. It is also one among the most therapy-resistant human neoplasias. Patients die within a year of diagnosis despite the use of available treatment strategies such as surgery, radiotherapy, and chemotherapy. Thus, there is a critical need to find a novel therapeutic strategy for treating this disease. Here, we have investigated the molecular mechanisms for induction of apoptosis as well as for activation of immune components in human malignant glioblastoma T98G and U87MG cells following treatment with all-trans retinoic acid (ATRA) plus interferon-gamma (IFN-gamma). Treatment of glioblastoma cells with ATRA alone prevented cell proliferation and induced astrocytic differentiation, while IFN-gamma alone induced apoptosis and modulated expression of human leukocyte antigen (HLA) class II molecules such as HLA-DRalpha, HLA-DR complex, invariant chain (Ii), HLA-DM (an important catalyst of the class II-peptide loading), and gamma interferon-inducible lysosomal thiol-reductase (GILT). Interestingly, both T98G and U87MG cells showed more increase in apoptosis with expression of the HLA class II components for an effective immune response following treatment with ATRA plus IFN-gamma than with IFN-gamma alone. Apoptotic mode of cell death was confirmed morphologically by Wright staining and biochemically by measuring an increase in caspase-3 activity. While conversion of tumor cells into HLA class II+/Ii- cells by stimulation with the helper CD4+ T cells is thought to be challenging, this study reports for the first time that treatment of glioblastoma cells with ATRA plus IFN-gamma can simultaneously enhance apoptosis and expression of the HLA class II immune components with a marked suppression of Ii expression. Taken together, this study suggests that induction of apoptosis and immune components of the HLA class II pathway by ATRA plus IFN-gamma may be a promising chemoimmunotherapeutic strategy for treatment of human malignant glioblastoma.
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PMID:Induction of apoptosis and immune response by all-trans retinoic acid plus interferon-gamma in human malignant glioblastoma T98G and U87MG cells. 1694 22

Induction of proinflammatory cytokines in response to malignant cells is an integral component of immune response to control tumor development. However, recent evidences have suggested that tumor cells may evade the immune system and exploit inflammatory responses to enhance its own growth. An exemplary example is the highly invasive and tumor necrosis factor (TNF)alpha-resistant glioblastoma, whose growth is associated with TNFalpha expression. We thus examined whether the tumor takes advantage of TNFalpha overexpression to enhance its invasiveness. To delineate the contribution of inflammation in tumor migration, we demonstrated that the role of proinflammatory cytokines on matrix metalloproteinases-3 (MMP-3) expression, and its consequent effects on the invasiveness of a human glioma cell-line, T98G. By using Matrigel Invasion Chamber, T98G cell migration was significantly enhanced in response to TNFalpha. In contrast, interferon-gamma (IFN gamma) reduced both basal and TNFalpha-enhanced cell invasion. To investigate the mechanisms involved, we demonstrated that TNFalpha upregulated mRNA and protein expression of MMP-3 in T98G cells, whereas IFN gamma downregulated the MMP-3 expression. The role of MMP-3 in glioma invasiveness was further confirmed by transfecting MMP-3 siRNA in T98G to abrogate the TNFalpha-enhanced cell invasion. To delineate the mechanisms further, we showed that IFN gamma exerts an inhibitory effect on the binding of TNFalpha-activated Ets-1 and NF kappa B to their respective enhancer elements found in MMP-3 promoter. In summary, our results indicated that TNFalpha enhances the invasiveness of T98G glioma cells through MMP-3 induction, and such enhancement of cell migration can be inhibited by IFN gamma.
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PMID:Interferon-gamma regulation of TNFalpha-induced matrix metalloproteinase 3 expression and migration of human glioma T98G cells. 1752 Jun 72


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