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)

We have previously reported on the anti-invasive and angiosuppressive effects of SI-27, an anti-matrix metalloproteinase (MMP) agent. The molecular mechanism of its anti-MMP action, however, has not yet been determined. The purpose of this study was to investigate the effects of SI-27 on MMP- 1, -2, -3, -9, and TIMP-1, -2 secreted by human glioma cell lines (U87MG, U251MG, U373MG, and Y98G). When cells were exposed to non-cytotoxic concentrations of SI-27 (preliminarily determined by the MTT assay), expressions of mRNAs for the enzymes was not inhibited. For an MMP activity assay, we employed the fact that active MMPs could cleave modified pro-urokinase to form active urokinase, which then acted on S-2444 peptide to create a chromogenic product. Secretion of all pro-MMPs from glioma cells was not significantly reduced by SI-27. However, activation of pro-MMPs was significantly inhibited in a dose-dependent manner ((IC50 values for MMP-2; U87MG, 3.5 microg/ml; U25 IMG, 4.2 microg/ml; U373MG, 4.8 microg/ml; Y98G, 4.0 degreesg/ml); (IC50 values for MMP-9; 251MG, 7.2 microg/ml, U373MG, 2.8 microg/ml). In addition, active MMPs were not inhibited by SI-27. These findings were supported by zymographic analysis and by collagenolysis assay data. TIMP-1 and -2 were also not inactivated by SI-27. These findings suggest that SI-27 targets the activation process of pro-MMP. S-2444, a specific chromogenic peptide, was useful for quantitative analysis of the activity of MMP subtypes in this study.
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PMID:Suppression of matrix metalloproteinase activity by SI-27: detection by a new activity assay with S-2444, a specific chromogenic peptide. 1216 Jan 35

Glioma, the most common form of brain tumor, has been shown mostly by in vitro studies to utilize matrix metalloproteinase (MMP) for invasive growth through degradation of the extracellular matrix. In order to examine the in vivo role of MMP, we established a rodent model of glioma progression using C6 rat glioma cells and analyzed the effect of tissue inhibitors of metalloproteinases (TIMPs). TIMP-2 rather than TIMP-1 caused significant reduction of the tumor size accompanied by the presence of degenerated blood vessels and ischemic necrosis. Because TIMP-2 inhibits MMP-2 preferentially, we then examined glioma growth in MMP-2-deficient mice and observed essentially identical consequences. While MMP-2 activity was present in the tumor and adjacent tissues of the wild-type mice, no MMP-2 activity was detected even in the tumor of the null mice, although C6 cells are known to express MMP-2. These observations suggest that glioma induces MMP-2 and utilizes its activity in the host tissue to support angiogenesis and to maintain angioarchitecture.
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PMID:In vivo glioma growth requires host-derived matrix metalloproteinase 2 for maintenance of angioarchitecture. 1222 Sep 55

Primary brain tumors (gliomas) have the unusual ability to diffusely infiltrate the normal brain thereby evading surgical treatment. Chlorotoxin is a scorpion toxin that specifically binds to the surface of glioma cells and impairs their ability to invade. Using a recombinant His-Cltx we isolated and identified the principal Cltx receptor on the surface of glioma cells as matrix metalloproteinase-2 (MMP-2). MMP-2 is specifically up-regulated in gliomas and related cancers, but is not normally expressed in brain. We demonstrate that Cltx specifically and selectively interacts with MMP-2 isoforms, but not with MMP-1, -3, and -9, which are also expressed in malignant glioma cells. Importantly, we show that the anti-invasive effect of Cltx on glioma cells can be explained by its interactions with MMP-2. Cltx exerts a dual effect on MMP-2: it inhibits the enzymatic activity of MMP-2 and causes a reduction in the surface expression of MMP-2. These findings suggest that Cltx is a specific MMP-2 inhibitor with significant therapeutic potential for gliomas and other diseases that invoke the activity of MMP-2.
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PMID:Chlorotoxin inhibits glioma cell invasion via matrix metalloproteinase-2. 1245 20

Persistent expression of green fluorescent protein (GFP) in human malignant glioma cell clones (U87MG, U251MG, and U373MG) was established using the pEGFP-Cl vector. Tumor spheroid was implanted into the caudate nucleus-putamen of a severely compromised immunodeficient (SCID) mouse brain slice. To allow quantitative assessment of tumor cell invasion, the invasion area index was measured on days 1, 3, 5, and 7 by a fluorescence stereomicroscope and an image analyzer in the presence of varying concentrations of SI-27. In the control group (0 microg/ml), all glioma cell lines invaded in a fingerlike fashion, reaching the contralateral hemisphere via the corpus callosum. SI-27 at concentrations of 10, 50, or 100 microg/ml significantly suppressed the index on days 5 and 7 in a dose-dependent manner, whereas 1 microg/ml had no effect. Laser confocal microscopy indicated that the tumor cells penetrated through the brain slice. This model enabled unequivocal periodic tracking of individual invading tumor cells in the normal brain. The significant suppression of glioma cell invasion by SI-27 indicates that anti-matrix metalloproteinase (MMP) treatment may represent an important future therapeutic strategy for malignant cerebral neoplasms.
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PMID:Tracking cell invasion of human glioma cells and suppression by anti-matrix metalloproteinase agent in rodent brain-slice model. 1262 36

Fusogenic membrane glycoproteins (FMG) are potent therapeutic transgenes with potential utility in the gene therapy of gliomas. FMG expression constructs caused massive syncytia formation followed by cytotoxic cell death in glioma cell lines, and antitumor activity has been shown in glioma xenografts. FMG-induced fusion in glioma cells can involve heterologous cell lines including normal astrocytes and fibroblasts, therefore making targeting important. Here we report on the use of matrix metalloproteinase (MMP) cleavable linkers to target cytotoxicity of FMGs against gliomas. Expression constructs were made expressing the hyperfusogenic version of the Gibbon Ape Leukemia Virus envelope glycoprotein (GALV) linked to a blocking ligand (the C-terminal extracellular domain of CD40 ligand) via either an MMP cleavable linker (GALV M40), a factor Xa protease cleavable linker (GALV X40), or a noncleavable linker (GALV N40). Unmodified GALV expressing constructs were used as positive controls. The glioma cell lines U87, U118, and U251 previously characterized by zymography and MMP-2 activity assay as high, medium, and low MMP expressors, respectively; normal human astrocytes and the MMP-poor cell line TE671 were transfected with the GALV, GALV N40, GALV X40, and GALV M40 constructs. In contrast to unmodified GALV constructs, transfection with GALV X40 and GALV N40 constructs blocked fusion and cytotoxic cell death. Fusion occurred, however, after transfection with constructs containing MMP cleavable linkers to an extent dependent on MMP expression in the specific cell line. Use of the broad-spectrum MMP inhibitors, 1,10-phenanthroline and N-hydroxy-piperazine-carboxamide completely abolished the ability of MMP constructs to induce fusion. In cell mixing experiments, mixing of MMP-poor cell lines transfected with GALV M40 constructs with the MMP overexpressing untransfected U87 glioma cells led to partial restoration of fusion. Use of U87 supernatant did result in a similar effect. Establishment of stable tranfectants expressing the membrane-type MMPs, MT-1 MMP and MT-2 MMP did restore fusion in the MMP-poor cell line TE671 after transfection with GALV M40, thus indicating that both membrane-type MMPs and soluble MMPs activate the MMP cleavable constructs. In addition, the GALV M40 construct retained its cytotoxic activity against U87 cells in vivo, although less effectively as compared to unmodified GALV. Our data indicate that GALV-induced cytotoxicity in glioma cell lines can be blocked by display of the CD40 ligand. Incorporation of an MMP cleavable linker can selectively restore cytotoxicity in MMP expressing glioma cell lines both in vitro and in vivo, while sparing normal human astrocytes. Given the high frequency of MMP overexpression in gliomas, this represents a promising targeting strategy.
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PMID:Targeting the cytotoxicity of fusogenic membrane glycoproteins in gliomas through protease-substrate interaction. 1270 11

Recent evidence indicates that bone-marrow-derived stromal cells (MSCs) have a histology coherent with endothelial cells that may enable them to contribute to tumor angiogenesis through yet undefined mechanisms. In this work, we investigated the angiogenic properties of murine MSCs involved in extracellular matrix degradation and in neovascularization that could take place in a hypoxic environment such as that encountered in tumor masses. MSCs were cultured in normoxia (95% air and 5% CO(2)) or in hypoxia (1% oxygen, 5% CO(2), and 94% nitrogen). We found that hypoxic culture conditions rapidly induced MSC migration and three-dimensional capillary-like structure formation on Matrigel. In vitro, MSC migration was induced by growth-factor- and cytokine-enriched conditioned media isolated from U-87 glioma cells as well as from MSCs cultured in hypoxic conditions, suggesting both paracrine and autocrine regulatory mechanisms. Although greater vascular endothelial growth factor levels were secreted by MSCs in hypoxic conditions, this growth factor alone could not explain their greater migration. Interestingly, matrix metalloproteinase (MMP)-2 mRNA expression and protein secretion were downregulated, while those of membrane-type (MT)1-MMP were strongly induced by hypoxia. Functional inhibition of MT1-MMP by a blocking antibody strongly suppressed MSC ability to migrate and generate capillary-like structures. Collectively, these data suggest that MSCs may have the capacity to participate in tumor angiogenesis through regulation of their angiogenic properties under an atmosphere of low oxygen that closely approximates the tumor microenvironment.
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PMID:Hypoxia promotes murine bone-marrow-derived stromal cell migration and tube formation. 1274 28

The binding of urokinase plasminogen activator (uPA) to its receptor (uPAR) initiates a proteolytic cascade facilitating the activation of matrix metalloproteinase-9 (MMP-9), which in turn degrades the extracellular matrix. These processes have an established role in tumor invasion and metastasis. Our previous work revealed an inverse association between glioma invasion and the expression of uPAR and MMP-9. In the present study, we used the adenovirus serotype 5 vector system to generate a replication-deficient recombinant adenovirus capable of simultaneously expressing antisense uPAR and antisense MMP-9 (Ad-uPAR-MMP-9). This adenoviral construct is driven by the independent promoter elements cytomegalovirus and bovine growth hormone and SV40 polyadenylation signals to down-regulate key steps in the proteolytic cascade. Ad-uPAR-MMP-9 infection of SNB19 cells significantly decreased uPAR and MMP-9 expression as determined by immunohistochemical and Western blotting analyses. A Matrigel invasion assay revealed marked reduction in the invasiveness of the Ad-uPAR-MMP-9-infected cells compared with parental and vector controls. Tumor spheroids infected with Ad-uPAR-MMP-9 and cocultured with fetal rat brain aggregates did not invade rat brain aggregates, whereas 90-95% of the mock and empty vector-infected cells invaded the rat brain aggregates. Intracranial injection of SNB19 cells infected ex vivo with the Ad-uPAR-MMP-9 antisense bicistronic construct showed decreased invasiveness and tumorigenicity. s.c. injections of the bicistronic antisense construct into established tumors (U87 MG) caused tumor regression. These results support the therapeutic potential of targeting the individual components of the uPAR-MMP-9 by using a single adenovirus construct for the treatment of gliomas and other cancers.
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PMID:Synergistic down-regulation of urokinase plasminogen activator receptor and matrix metalloproteinase-9 in SNB19 glioblastoma cells efficiently inhibits glioma cell invasion, angiogenesis, and tumor growth. 1275 Feb 66

The presence of reactive astrocytes around glioma cells in the CNS suggests the possibility that these two cell types could be interacting. We addressed whether glioma cells use the astrocyte environment to modulate matrix metalloproteinase-2 (MMP-2), a proteolytic enzyme implicated in the invasiveness of glioma cells. We found that astrocytes in culture produce significant amounts of the pro-form of MMP-2 but undetectable levels of active MMP-2. However, after coculture with the U251N glioma line, astrocyte pro-MMP-2 was converted to the active form. The mechanism of pro-MMP-2 activation in glioma-astrocyte coculture was investigated and was found to involve the urokinase-type plasminogen activator (uPA)-plasmin cascade whereby uPA bound to uPA receptor (uPAR), leading to the conversion of plasminogen to plasmin. The latter cleaved pro-MMP-2 to generate its active form. Furthermore, key components (i.e., uPAR, uPA, and pro-MMP-2) were contributed principally by astrocytes, whereas the U251N glioma cells provided plasminogen. In correspondence with this biochemical cascade, the transmigration of U251N cells through Boyden invasion chambers coated with an extracellular matrix barrier was increased significantly in the presence of astrocytes, and this was inhibited by agents that disrupted the uPA-plasmin cascade. Finally, using resected human glioblastoma specimens, we found that tumor cells, but not astrocytes, expressed plasminogen in situ. We conclude that glioma cells exploit their astrocyte environment to activate MMP-2 and that this leads to the increased invasiveness of glioma cells.
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PMID:Exploitation of astrocytes by glioma cells to facilitate invasiveness: a mechanism involving matrix metalloproteinase-2 and the urokinase-type plasminogen activator-plasmin cascade. 1276 90

The metastatic spread of cancer is a complex process that involves the combination of different cellular actions including cell adhesion to the extracellular matrix (ECM), breakdown of the ECM by specific matrix-degrading proteinases, and active cell locomotion. Contortrostatin (CN), a homodimeric snake venom disintegrin, has previously been demonstrated to be effective in blocking vitronectin/fibronectin-dependent adhesion and invasion of T98G human glioblastoma cells through Matrigel using in vitro studies. However, it is not known at what step of the invasion process CN exerts its inhibitory effect. In the present report, CN is shown to decrease invasion of various glioma cell lines through Matrigel affecting neither cell adhesion, nor cell viability. While CN had no effect on cell binding to laminin and type IV collagen, it blocked adhesion of alphav beta3-positive, but not alphav beta3-negative cells, to vitronectin and fibronectin. Furthermore, members of the matrix metalloproteinase (MMP) family and their physiological inhibitors, and of the plasminogen activator (PA)/plasmin system were demonstrated not to be involved in CN-induced loss of glioma cell invasiveness. Instead, CN inhibited active locomotion of cells on Matrigel. These data suggest that CN-mediated inhibition of glioma cell invasion through Matrigel is a direct result of impaired cell motility. Moreover, use of several glioma cell lines and integrin antibodies strongly indicates the versatility of CN in inhibiting the invasion process based on the ability of CN to interact with different integrins, including alphav beta3, alphav beta5, and alpha5beta1.
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PMID:Functional effect of contortrostatin, a snake venom disintegrin, on human glioma cell invasion in vitro. 1288 Oct 36

Comparison of gene expressing profiles between gliomas with different grades revealed frequent overexpression of insulin-like growth factor binding protein 2 (IGFBP2) in glioblastoma (GBM), the most advanced stage of glioma. To determine whether IGFBP2 is involved in the proliferative and invasive nature of GBM, we established stable SNB19 GBM cell lines that overexpress IGFBP2. Although there was no marked difference in the cell growth between IGFBP2 overexpressing SNB19(BP2) lines when compared with the control cells, these clones showed significantly increased invasive rates when compared with the parental or vector transfected SNB19 cells. Total RNAs from controls and SNB19(BP2) clones were used for microarray analysis to detect IGFBP2-mediated alterations in gene expression. When compared with parental or vector-transfected control cells, SNB19(BP2) cells consistently showed 3-5-fold increase in the expression of matrix metalloproteinase-2 (MMP-2) as well as other invasion related genes. Increased MMP-2 expression in SNB19(BP2) cells was subsequently confirmed by real time reverse-transcription PCR, Western blotting, and gelatin zymography. Furthermore, consistent with increased MMP-2 expression in SNB19(BP2) cells, transient transfection of a MMP-2 promoter/luciferase reporter also resulted in 3-6-fold higher luciferase activity in SNB19(BP2) cells than in parental or vector-transfected control cells. Finally, tissue microarray analysis of 68 GBM tissue specimens showed a significant correlation between the overexpression of IGFBP2 and elevated MMP-2 expression. Taken together, our data provide evidence that IGFBP2 contributes to glioma progression in part by enhancing MMP-2 gene transcription and in turn tumor cell invasion.
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PMID:Insulin-like growth factor binding protein 2 enhances glioblastoma invasion by activating invasion-enhancing genes. 1290 97


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