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)

Because the prominent neovascularization characteristic of high grade primary brain tumors is composed mostly of vascular smooth muscle cells (VSMC), we studied the expression of the potent smooth muscle mitogen endothelin-1 (ET-1) and one of its secretagogues, transforming growth factor beta 1 (TGF-beta 1) in a series of astrocytic tumors. TGF-beta 1 is also of interest due to its known activity as an angiogenic factor. Using immunohistochemical methods, we examined 30 surgical cases: 10 glioblastoma multiforme, 10 anaplastic astrocytomas, and 10 low-grade astrocytomas. Using a monoclonal antibody to TGF-beta 1 and a polyclonal antibody to ET-1, we detected both growth factors in all cases of glioblastoma examined. In cases of anaplastic astrocytoma, 4 tumors were positive for both factors; 2 contained only ET-1; 2 contained only TGF-beta 1; and 2 exhibited no tumor cell immunoreactivity for either factor. In low-grade astrocytoma, 4 of 10 tumors showed weak ET-1 immunoreactivity; 2 of those contained TGF-beta 1 immunopositive tumor astrocytes: 6 tumors were negative for both factors. In all tumors that expressed both factors, serial sections showed that regions of ET-1 immunopositivity also tended to be positive for TGF-beta 1. Endothelial cells within all tumors were positive for ET-1. ET-1 and TGF-beta 1 are present in human astrocytomas and their expression correlates with tumor vascularity and malignancy. These results suggest roles for both ET-1 and TGF-beta 1 in the growth and progressive angiogenesis of the human glioma.
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PMID:Correlation of endothelin-1 and transforming growth factor beta 1 with malignancy and vascularity in human gliomas. 910 Jun 74

Invasive proliferation is a critical biological characteristic of gliomas. We evaluated the activities of hepatocyte growth factor (HGF) on proliferation and motility of glioma cells, comparing them with the effects of other growth factors (EGF, bFGF, PDGF-BB, TGF-beta 1). Seven primary culture lines all expressed c-met and HGF mRNA, and secreted HGF. HGF stimulated 3H-thymidine uptake of every glioma cell line (30 to 70% upregulation). Boyden chamber assay and scattering assay revealed that HGF promoted cell motility with chemokinetic and strong chemotactic activities. Concentric circle assay showed that HGF promoted two-dimensional expansion (proliferation and motility) most strongly among the growth factors studied. Further, we analyzed 23 paraffin-embedded sections of surgically resected gliomas (7 grade II, 8 grade III, and 8 grade IV) by immunohistochemistry. Expression of HGF and Met increased with malignant progression of gliomas, suggesting that gliomas stimulated their invasive proliferation by autocrine HGF production. Neurons and vasculature were HGF-positive, and Met-positive glioma cells gathered around them. The data indicate that neurons and vasculature, which are the main tracks of glioma invasion, augment chemotactic invasion and proliferation of gliomas by paracrine HGF secretion. Clearly HGF plays a critical role in invasive proliferation of glioma cells and it is therefore a candidate target of therapeutic intervention.
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PMID:Modulation of motility and proliferation of glioma cells by hepatocyte growth factor. 926 34

Nitric oxide (NO) is thought to play an important role in neurotransmission, inflammation, and regulation of cell death in the mammalian brain. Here, we examined the synthesis and biological effects of NO in human malignant glioma cells. Exposure to cytokines such as interferon (IFN)-gamma, tumor necrosis factor (TNF)-alpha or interleukin (IL)-1beta and lipopolysaccharide (LPS) induced NO synthesis in rat C6 and A172 human glioma cells, but not in LN-229, T98G or LN-18 human malignant glioma cells. Induced release of NO involved enhanced expression of inducible NO synthase (iNOS). Failure to detect NO release in the latter cell lines was not overcome by neutralization of endogenous TGF-beta or by coexposure to cytokines, LPS, and antioxidants. Apoptosis induced by CD95 ligand (CD95L) did not involve NO formation. Neither NOS inhibitors nor NO donators modulated CD95L-induced apoptosis. Dexamethasone (DEX)-mediated protection of glioma cells from CD95L-induced apoptosis was also independent of DEX effects on NO metabolism. DEX inhibited not only cytokine/LPS-evoked NO release but also attenuated the toxicity of NO in three of five cell lines. Forced expression of temperature-sensitive p53 val135 in C6 cells in either mutant or wild-type conformation inhibited cytokine/LPS-induced NO synthesis. Further, accumulation of p53 in both mutant or wild-type conformation protected glioma cells from the toxicity of exogenous NO, consistent with a gain of p53 function associated with p53 accumulation. We conclude that resistance to NO-dependent immune defense mechanisms may contribute to the malignant progression of human cancers with p53 alterations, notably those associated with the accumulation of mutant p53 protein.
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PMID:Synthesis and biological effects of NO in malignant glioma cells: modulation by cytokines including CD95L and TGF-beta, dexamethasone, and p53 gene transfer. 981 63

Using an intracranial rat C6 glioma model, we tested the hypothesis that gene modification of glioma cells to block the expression of the immunosuppressive cytokine TGF-beta (transforming growth factor beta) may enhance anti-tumor immune responses and thereby prolong survival of tumor-bearing animals. The cDNA for simian TGF-beta 2 was ligated in antisense orientation into the episomal plasmid mammalian expression vector pCEP-4. This TGF-beta-antisense vector was transfected into C6 glioma cells by standard electroporation techniques. PCR was used to determine that the rat C6 clones were successfully transfected with the antisense-TGF beta construct. Twenty-nine adult female Wistar rats harboring 7-day-old intracranial C6 tumors were then subcutaneously injected with either saline (n = 9), unmodified C6 glioma cells (n = 10), or TGF-beta-antisense-modified C6 cells (n = 10). Animals were followed for survival, and Fisher's exact method was used to interpret the significance of difference between experimental groups. The survival of tumor-bearing rats injected with TGF-beta-antisense-modified C6 cells was significantly prolonged, relative to the survival of rats receiving injections of saline or unmodified C6 cells alone. Six of the ten (60%) TGF-beta-antisense treated animals survived for 12 weeks, whereas none of the nine (0%) animals treated with saline and none of ten (0%) of those treated with C6 cells alone survived past 5 weeks. These results indicate that the genetic inhibition of immunosuppressive cytokines (such as TGF-beta) may reverse the phenotypic immunosuppression caused by such factors, and thereby prolong the survival of C6 tumor-bearing animals. Future investigations using cytokine gene modifications in other brain tumor models are warranted.
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PMID:Prolonged survival of rats with intracranial C6 gliomas by treatment with TGF-beta antisense gene. 986 41

Transforming growth factor-beta1 (TGF-beta1) is widely recognized for its multiple roles in development, cellular maintenance, and protection against injury. In the brain, TGF-beta1 upregulation in microglia/macrophages is a predominant response to lesion and during pathology. However, the precise functions of TGF-beta1 in this context are still enigmatic. The present study investigates changes in astroglial gene expression as a major target of TGF-beta1 signaling in the brain. Differential display reverse transcription-polymerase chain reaction (DDRT-PCR) was used to identify several gene fragments differentially regulated by TGF-beta1 in rat astrocytes and C6 glioma cells. Among the cDNAs regulated by TGF-beta1 in C6 cells two cDNAs showed homology to alpha-tropomyosin and glycerol-3-phosphate dehydrogenase, respectively. Cloning of a full length cDNA corresponding to a differentially regulated gene fragment revealed close homology to latent TGF-beta binding protein (LTBP)-2. Data using antisense LTBP-2 oligonucleotides to decrease LTBP-2 expression suggest that LTBP-2 functions to activate TGF-beta. Therefore, it is likely that upregulation of the rat LTBP-2 homolog mRNA in C6 cells and cortical astrocytes by TGF-1 might lead to self-activation and exaggeration of TGF-beta signaling. These data will extend our current understanding of TGF-beta1 functioning on lesion-related features of glial cells.
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PMID:TGF-beta1-dependent differential expression of a rat homolog for latent TGF-beta binding protein in astrocytes and C6 glioma cells. 1002 16

A panel of 6 human glioma cell lines was examined for TGF-beta1 responsiveness. U-178 MG and U-251 MG AgCl1 were significantly inhibited by TGF-beta1, while U-343 MGa 31L and U-343 MGa 35L were potently stimulated to proliferate. TGF-beta1 induced endogenous PAI-1 protein synthesis, Smad binding element/(CAGA)12-luciferase-reporter activity, as well as mRNA expression of Smad6 and Smad7 in all gliomas. Interestingly, TGF-beta1 differentially stimulated or inhibited the expression of TbetaR-I and TbetaR-II mRNA in the gliomas. Affinity cross-linking studies using 125I-TGF-beta1 revealed that the gliomas expressed TGF-beta-type-I(TbetaR-I) and -type-II(TbetaR-II) receptors, although binding to TbetaR-II in U-343 MGa 31L and U-251 MG AgCl1 was low to undetectable. Smad2 protein was abundantly present in U-178 MG, U-343 MG, and U-343 MGa 35L, while Smad3 was readily detectable in U-178 MG, U-343 MG, U-343 MGa 35L and U-251 MG AgCl1. In all gliomas, TGF-beta1 induced phosphorylation of Smad2. The level to which TGF-beta1 could activate the pathway leading to induction of the (CAGA)12-luciferase reporter seemed to correlate to the expression levels of TGF-beta receptors, Smad3 and Smad4 proteins. However, despite the plethora of data regarding TGF-beta1 signalling in the different glioma cell lines, the mechanism underlying the differential growth effects mediated by TGF-beta1 is still unclear. The results suggest that a complex balance between several components in the TGF-beta signalling pathway controls glioma responsiveness to TGF-beta1, and extend reports indicating that distinct signal transduction pathways are involved in growth inhibition and other cellular responses.
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PMID:Expression of transforming-growth-factor (TGF)-beta receptors and Smad proteins in glioblastoma cell lines with distinct responses to TGF-beta1. 1004 79

The migratory behaviour of malignant gliomas relies on the interaction of integrins with extracellular matrix (ECM) components. Transforming growth factor-beta(1) (TGF-beta(1)) potently stimulates glioma cell motility whereas TGF-beta(2) is known for its immunosuppressive properties. Here, we show that both TGF-beta(1) and TGF-beta(2) promote migration of glioma cells. In parallel, TGF-beta(1) and TGF-beta(2) induce alpha(V) and beta(3) intergrin mRNA expression and enhance cell surface expression of alpha(V)beta(3) integrin. TGF-beta-mediated promotion of migration is abrogated by echistatin, a Arg-Gly-Asp (RGD) peptide antagonist of alpha(V)beta(3) integrin, and by a neutralizing anti-alpha(V)beta(3) integrin antibody. Taken together, we report a novel mechanism by which TGF-beta modulates cell ECM interactions and promotes glioma cell motility.
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PMID:Transforming growth factors beta(1) (TGF-beta(1)) and TGF-beta(2) promote glioma cell migration via Up-regulation of alpha(V)beta(3) integrin expression. 1067 51

BACKGROUND: Antisense oligodeoxynucleotides (ODNs) have been proposed as a new therapy for patients with cancer, including malignant brain tumors. Antisense ODNs are taken up by tumor cells and selectively block gene expression. Use of ODNs for brain tumors is attractive due to their theoretical specificity, relative ease of production and, to date, paucity of reported adverse effects. This article presents current information regarding antisense ODNs and their possible future use for the treatment of brain tumors. METHODS: The available published experimental and clinical information regarding antisense ODN treatment of glioblastoma cells and administration into the central nervous system (CNS) was reviewed. Other clinically relevant information pertaining to the molecular biology of antisense ODNs was also collected and summarized. RESULTS: Targets for antisense ODN therapy in malignant glioma cells have included c-myc, c-myb, c-sis, c-erb B, CD44, p34cdc2, bFGF, PDGF, TGF-beta, IGF-1, PKC-alpha tumor necrosis factor, urokinase, and S100beta protein. Few in vivo studies of ODN treatment of brain tumors have yet been reported. Systemically administered ODNs enter the brain only in extremely small quantities; therefore, microinfusion into the brain has been recommended. CONCLUSIONS: Antisense ODNs have been used successfully to block glioblastoma gene expression in vitro and expression of multiple genes within the CNS of experimental animals. Upcoming clinical trials will address the safety of antisense ODN use against malignant brain tumors.
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PMID:Antisense Oligodeoxynucleotide Technology: Potential Use for the Treatment of Malignant Brain Tumors. 1076 Oct 27

Human gliomas express TGF-beta but, so far the expression of downstream mediators has been investigated in only a few cell lines. We have examined tissue specimens of 23 gliomas: 3 astrocytomas grade II (AST), 8 anaplastic astrocytomas grade III (AAST), and 12 glioblastoma multiforme grade IV (GBM). We analyzed the mRNA expression of TGF-beta1, TGF-beta2, TGF-beta3, the TGF-beta receptors type I (TbetaR-I) and type II (TbetaR-II), Smad2, Smad3, and Smad4. mRNA expression of IL-10 and CD95 (FAS/APO-1) were also studied. We detected increased mRNA levels of the 3 TGF-beta isoforms, correlating with the degree of malignancy. TGF-beta3 mRNA was increased, particularly in AST and AAST, while TGF-beta1 and TGF-beta2 mRNAs were strongly expressed in GBM. TGF-beta normally up-regulates the TGF-beta receptors, and TbetaR-I and TbetaR-II showed stronger expression in all gliomas when compared to normal tissues. However, the mRNA expression of Smad2, Smad3, and Smad4 was decreased in GBM. IL-10 mRNA expression was detected in glioma tissues but not in glioma cell lines. No marked increase in the expression of soluble CD95 splicing variants was found in the gliomas compared with normal tissue. However, total CD95 mRNA was elevated among GBM tissues.
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PMID:Expression of TGF-beta isoforms, TGF-beta receptors, and SMAD molecules at different stages of human glioma. 1086 1

The expression of thrombospondin-1 (TSP-1) and its role in gliomas have not been well examined. In the present study TSP-1 expression in a panel of malignant glioma cell lines and the expression of TSP-1 and transforming growth factor (TGF-beta) proteins in low-grade and malignant glioma tissues were investigated. Reverse transcription-polymerase chain reaction analysis showed that nine of nine malignant glioma cell lines expressed TSP-1 mRNA, and seven of nine glioma lines expressed TSP-2 mRNA. Production and secretion of TSP-1 were examined in the T98G glioblastoma cell line by western blot analysis. Total TSP-1 protein content in the supernatant was 10 times higher than that in the cell lysate. Secretion of TSP-1 was examined in these glioma cell lines by western blot analysis. All glioma lines secreted significant levels of TSP-1. Bioassay showed that all tumor lines had the capacity to activate latent TGF-beta. Localization of TSP-1, TGF-beta1, -beta2, and -beta3 was examined immunohistochemically in surgically resected glioma tissues, including 11 glioblastomas, six anaplastic astrocytomas, and eight astrocytomas. Most glioblastomas expressed high levels of both TSP-1 and TGF-beta. Anaplastic astrocytomas expressed moderate levels of TSP-1 and TGF-beta. Most malignant gliomas expressed various levels of TGF-beta1, -beta2, and -beta3. The expression of both proteins, however, was weak in low-grade gliomas. Normal brain tissues around the tumors were negatively or very weakly positively stained for TSP-1 and TGF-beta. These results indicate that most malignant glioma cells express TSP-1 in vitro and in vivo, and the expression of TSP-1 and TGF-beta in vivo correlates with the histologic malignancy of glioma. Overexpression of both TSP-1 and TGF-beta may increase the biologic malignancy of malignant gliomas, through generating the active form of TGF-beta in tumor tissues.
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PMID:Correlation of thrombospondin-1 and transforming growth factor-beta expression with malignancy of glioma. 1113 30


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