UMLS:C0017638 - FACTA Search

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Query: UMLS:C0017638 (glioma)
30,880 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Protease inhibitors regulate a variety of physiological and pathological processes including angiogenesis, embryo implantation, intravascular fibrinolysis, wound healing, and tumor invasion. Tissue factor pathway inhibitor (TFPI) 2 is a Mr 32,000 Kunitz-type serine protease inhibitor that inhibits plasmin, trypsin, chymotrypsin, cathepsin G, and plasma kallikrein but not urokinase-type plasminogen activator, tissue plasminogen activator, or thrombin. In this study, we determined the relative amounts of TFPI-2 in low-, intermediate-, and high-grade human glioma cell lines and tumor tissue samples. TFPI-2 protein and mRNA levels (measured by Western and Northern blotting) were highest in low-grade glioma cells (Hs683), lower in anaplastic astrocytoma cells (SW1088 and SW1783), and undetectable in high-grade glioma cells (SNB19). Analysis of TFPI-2 protein in human normal brain and in glioma tumor tissues for TFPI-2 revealed the highest levels in normal brain, lesser amounts in low-grade gliomas and anaplastic astrocytomas, and undetectable amounts in glioblastomas. In situ hybridization of TFPI-2 mRNA with normal brain tissues revealed the greatest positivity in neurons, with moderate positivity in both glial and endothelial cells and moderate, little, or no TFPI-2 mRNA in low-grade glioma, anaplastic astrocytoma, and glioblastoma tumor tissue samples, respectively. We also found that recombinant TFPI-2 inhibited the invasiveness of SNB19 glioblastoma cells in a Matrigel assay in a dose-dependent manner. Collectively, these results suggest that TFPI-2 has a regulatory role in the invasiveness of gliomas in vitro and in vivo.
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PMID:Expression of tissue factor pathway inhibitor 2 inversely correlates during the progression of human gliomas. 1129 50

Human tissue factor pathway inhibitor-2 (TFPI-2) is a Kunitz-type serine protease inhibitor that inhibits plasmin, trypsin, chymotrypsin, cathepsin G, and plasma kallikrein but not urokinase-type plasminogen activator, tissue plasminogen activator, or thrombin. Preliminary findings in our laboratory suggested that the expression of TFPI-2 is downregulated or lost during tumor progression in human gliomas. To investigate the role of TFPI-2 in the invasiveness of brain tumors, we stably transfected the human high-grade glioma cell line SNB19 and the human low-grade glioma cell line Hs683 with a vector capable of expressing a transcript complementary to the full-length TFPI-2 mRNA in either sense (0.7 kb) or antisense (1 kb) orientations. Parental cells and stably transfected cell lines were analysed for TFPI-2 protein by Western blotting and for TFPI-2 mRNA by Northern blotting. The levels of TFPI-2 protein and mRNA were higher in the sense clones (SNB19) and decreased in the antisense (Hs683) clones than in the corresponding parental and vector controls. In spheroid and matrigel invasion assays, the SNB19 parental cells were highly invasive, but the sense-transfected SNB-19 clones were much less invasive; the antisense-transfected Hs683 clones were more invasive than their parental and vector controls. After intracerebral injection in mice, the sense-transfected SNB19 clones were less able to form tumors than were their parental and vector controls, and the antisense-Hs683 clones but not the parental or vector controls formed small tumors. This is the first study to demonstrate that down- or upregulation of TFPI-2 plays a significant role in the invasive behavior of human gliomas.
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PMID:A novel function of tissue factor pathway inhibitor-2 (TFPI-2) in human glioma invasion. 1168 73

Thrombin (THR) plays a key role in the brain under physiological and pathological conditions. Several of the biological activities of thrombin have been shown to be mainly driven through activation of protease-activated receptor-1 (PAR-1)-type thrombin receptor. Here we have studied the effect of THR and PAR-1-activating peptide (PAR1-AP), SFLLRN, on cytokine-induced expression of inducible nitric oxide (iNOS), a prominent marker of astroglial activation using the rat C6 glioma cells. In this cell line, THR (1-10 U/mL) and PAR1-AP (1-100 microM) induced a significant concentration-dependent increase both of IFN-gamma- (250 U/mL) or TNF-alpha- (500 U/mL) induced NO release. The observed increase of NO production was related to an enhancement of iNOS expression as measured in cell lysates prepared from different treatments by using SDS-PAGE followed by western blot analysis. The effect of THR, but not that of PAR1-AP, was significantly inhibited by hirulog(TM) (60 microg/mL), a specific and stochiometric THR inhibitor or by cathepsin-G (40 mU/mL), an inhibitor of PAR-1. In conclusion our data suggest a role for THR through activation of PAR-1 in the induction of astroglial iNOS, and further support the hypothesis that THR may function as an important pathophysiological modulator of the inflammatory response.
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PMID:Thrombin and PAR-1 activating peptide increase iNOS expression in cytokine-stimulated C6 glioma cells. 1170 59

Thrombin is a key enzyme in the blood coagulation system where it converts fibrinogen to fibrin. It participates in a variety of biological processes such as the induction of mitogenesis and of morphological changes, the production of cytokines and growth factors, and apoptosis. To clarify the role of thrombin in the proliferation of human malignant gliomas, we investigated its effect on the expression of vascular endothelial growth factor (VEGF) in vitro and determined its intrinsic expression in human glioma tissues. In 3 human glioma cell lines tested, U-87 MG, U-251 MG, and U-105 MG, thrombin induced the VEGF mRNA expression and protein in a dose- and time-dependent manner. The thrombin receptor expression was detectable by RT-PCR and immunoblot. The secretion of VEGF protein in glioma cells was stimulated by the thrombin receptor agonist peptide and the induction of VEGF was significantly blocked by the thrombin inhibitor hirudin, indicating that the up-regulation of VEGF was mediated by the thrombin/thrombin receptor pathway. Immunoblot analysis demonstrated that prothrombin, the precursor of thrombin, was distributed in all 10 glioma tissues examined. In situ hybridization and immunohistochemical analysis revealed the co-localization of prothrombin mRNA-positive and GFAP-positive cells in the glioma tissues. Although various factors may be involved in the up-regulation of VEGF, our results suggest that human gliomas per se express prothrombin, and that thrombin, converted from prothrombin in glioma tissues, substantially stimulates angiogenesis in an autocrine fashion.
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PMID:The role of thrombin in the neo-vascularization of malignant gliomas: an intrinsic modulator for the up-regulation of vascular endothelial growth factor. 1195 84

Although thrombin is a critical enzyme in the coagulation cascade, it has become apparent that it has many other effects. Thus, it may induce brain edema formation, angiogenesis and cell proliferation. Because of the importance of these three factors in the extremely poor prognosis of glioma patients, the present study examined the role of thrombin in that disease state. We found that thrombin activity is increased in a rat glioma model and thrombin positive cells were present in the tumor. Anti-thrombin treatment with argatroban reduced brain edema, tumor growth, and tumor-related neurological deficits. Our results suggest that thrombin is a new target for glioma treatment.
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PMID:A thrombin inhibitor reduces brain edema, glioma mass and neurological deficits in a rat glioma model. 1475 95

5-Hydroxytryptamine 2A (5-HT(2A)) serotonin receptors are important for a variety of functions including vascular smooth muscle contraction, platelet aggregation, and the modulation of perception, cognition, and emotion. In a search for 5-HT(2A) receptor-interacting proteins, we discovered that caveolin-1 (Cav-1), a scaffolding protein enriched in caveolae, complexes with 5-HT(2A) receptors in a number of cell types including C6 glioma cells, transfected HEK-293 cells, and rat brain synaptic membrane preparations. To address the functional significance of this interaction, we performed RNA interference-mediated knockdown of Cav-1 in C6 glioma cells, a cell type that endogenously expresses both 5-HT(2A) receptors and Cav-1. We discovered that the in vitro knockdown of Cav-1 in C6 glioma cells nearly abolished 5-HT(2A) receptor-mediated signal transduction as measured by calcium flux assays. RNA interference-mediated knockdown of Cav-1 also greatly attenuated endogenous Galpha(q)-coupled P2Y purinergic receptor-mediated signaling without altering the signaling of PAR-1 thrombin receptors. Cav-1 appeared to modulate 5-HT(2A) signaling by facilitating the interaction of 5-HT(2A) receptors with Galpha(q). These studies provide compelling evidence for a prominent role of Cav-1 in regulating the functional activity of not only 5-HT(2A) serotonin receptors but also selected Galpha(q)-coupled receptors.
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PMID:Caveolin-1 interacts with 5-HT2A serotonin receptors and profoundly modulates the signaling of selected Galphaq-coupled protein receptors. 1519 56

Our previous studies showed that intracerebral infusion of argatroban, a specific thrombin inhibitor, reduces brain edema and neurological deficits in a C6 glioma model. The present study investigated whether systemic argatroban administration can reduce glioma mass and neurological deficits and extend survival time in C6 and F98 gliomas. Rat C6 or F98 glioma cells were infused into the right caudate of adult male Fischer 344 rats. Osmotic minipump loaded with argatroban (0.3 mg/hour) or vehicle was implanted into abdomen immediately after glioma implantation. Tumor mass was determined at day 9. Over the period of the experiment, the animals underwent behavioral testing (forelimb placing and forelimb use asymmetry). In addition, survival time was tested in the F98 glioma model. In C6 glioma, argatroban reduced glioma mass (p < 0.05) and neurological deficits (p < 0.05) at day 9. In F98 glioma, agratroban prolonged the survival time (p < 0.05) and reduced the body weight loss (84 +/- 15 gram vs. 99 +/- 2 gram in the vehicle group, P < 0.05). In conclusion, systemic use of argatroban reduced tumor mass and neurological deficits, and prolonged survival time. These results suggest that thrombin plays a key role in glioma growth and thrombin inhibition with argatroban may be a novel treatment for gliomas.
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PMID:Systemic use of argatroban reduces tumor mass, attenuates neurological deficits and prolongs survival time in rat glioma models. 1646 90

ATP is co-stored in neurosecretory vesicles together with aminergic compounds and is released from neural cells and synaptic terminals via regulated exocytosis. ATP also is released from non-neuronal cells including astrocytes and astrocyte-like cell lines. However, the mechanism(s) involved in ATP release from astrocytes and other non-secretory cells remains unclear. ATP release from primary astrocytes, astrocytoma, and glioma cells is accompanied by enhanced accumulation of extracellular UTP, and we have recently discovered that in addition to adenine and uridine nucleotides, astrocytoma cells release UDP-glucose. It has been illustrated that agonists that promote Ca2+ mobilization, e.g. thrombin, promote robust release of ATP from 1321N1 astrocytoma cells. Agonist-promoted release of ATP from 1321N1 astrocytoma cells also results in the release of UDP-glucose but, unlike fast hydrolysable ATP, UDP-glucose was hydrolysed at a markedly slow rate. Since UDP-sugars and ATP are concentrated up to 20 times in the lumen of the secretory pathway to serve as substrates for glycosyl transferase and phosphorylation reactions, respectively, we propose that both constitutive and regulated release of nucleotides and nucleotide-sugars from astrocytes involves a vesicular mechanism. Observation that adenine nucleotides, uridine nucleotides, and UDP-sugars are released from both resting and stimulated astrocytes provides support for the physiological significance of nucleotide- and UDP-sugar-sensing P2Y receptors in the brain. These findings also suggest that slow hydrolysable UDP-glucose may accomplish long lasting signalling on P2Y14 receptors expressed in astrocytes.
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PMID:Regulated release of nucleotides and UDP sugars from astrocytoma cells. 1680 24

Treatment of rat glioma C6 cells with the beta-receptor agonist isoproterenol induces a massive increase in cAMP. Concomitantly the cells change their morphology from a fibroblast-type to an astrocyte-like (stellated) cell shape. The stellated morphology can be completely reverted by thrombin and sphingosine-1-phosphate (S-1-P) but also to a certain extent by clinical concentrations of volatile anesthetics. The anesthetic-induced reversion of the stellated cell shape seems to be mediated by a number of cellular alterations. Central to the effect is most likely a RhoA/Rho-kinase activation, but also the MAPKK/MEK and the Akt/protein kinase B pathway are activated by the anesthetics. With the use of specific inhibitors we were able to show that activation of the MAPKK/MEK pathway inhibits, whereas activation of the Akt/protein kinase B pathway stimulates the reversal of the stellated cell shape by the anesthetics. In summary, volatile anesthetics affect the morphology of rat glioma C6 cells by activation of the RhoA/Rho kinase, the MAPKK/MEK, and the Akt/protein kinase B signaling pathways.
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PMID:Volatile anesthetics affect the morphology of rat glioma C6 cells via RhoA, ERK, and Akt activation. 1749 63

Glial-derived tumors, gliomas, are highly invasive cancers that invade normal brain through the extracellular space. To navigate the tortuous extracellular spaces, cells undergo dynamic changes in cell volume, which entails water flux across the membrane through aquaporins (AQPs). Two members of this family, AQP1 and AQP4 are highly expressed in primary brain tumor biopsies and both have a consensus phosphorylation site for protein kinase C (PKC), which is a known regulator of glioma cell invasion. AQP4 colocalizes with PKC to the leading edge of invading processes and clustered with chloride channel (ClC2) and K(+)-Cl(-) cotransporter 1 (KCC1), believed to provide the pathways for Cl(-) and K(+) secretion to accomplish volume changes. Using D54MG glioma cells stably transfected with either AQP1 or AQP4, we show that PKC activity regulates water permeability through phosphorylation of AQP4. Activation of PKC with either phorbol 12-myristate 13-acetate or thrombin enhanced AQP4 phosphorylation, reduced water permeability and significantly decreased cell invasion. Conversely, inhibition of PKC activity with chelerythrine reduced AQP4 phosphorylation, enhanced water permeability and significantly enhanced tumor invasion. PKC regulation of AQP4 was lost after mutational inactivation of the consensus PKC phosphorylation site S180A. Interestingly, AQP1 expressing glioma cells, by contrast, were completely unaffected by changes in PKC activity. To demonstrate a role for AQPs in glioma invasion in vivo, cells selectively expressing AQP1, AQP4 or the mutated S180A-AQP4 were implanted intracranially into SCID mice. AQP4 expressing glioma cells showed significantly reduced invasion compared to AQP1 and S180 expressing tumors as determined by quantitative stereology, consistent with a differential role for AQP1 and AQP4 in this process.
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PMID:Water permeability through aquaporin-4 is regulated by protein kinase C and becomes rate-limiting for glioma invasion. 1976 16

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