Padmaja Kunapuli scite author profile

Gliomas take a number of different genetic routes in the progression to glioblastoma multiforme, a highly invasive variant that is mostly unresponsive to current therapies. Gliomas express elevated levels of matrix metalloproteinases (MMPs), which have been implicated in the control of proliferation and invasion as well as neovascularization. Progressive loss of LGI1 expression has been associated with the development of high grade gliomas. We have shown previously that the forced re-expression of LGI1 in different glioma cells inhibits proliferation, invasiveness, and anchorage-independent growth in cells null for its expression. Here, using Affymetrix gene chip analysis, we show that reexpression of LGI1 in T98G cells results in the downregulation of several MMP genes, in particular MMP1 and MMP3. LGI1 expression also results in the inhibition of ERK1/2 phosphorylation but not p38 phosphorylation. Inhibition of the MAPK pathway using the pharmacological inhibitors PD98059, U0126, and SB203580 in T98GLGI1-null cells inhibits MMP1 and MMP3 production in an ERK1/2-dependent manner. Treatment of LGI1-expressing cells with phorbol myristate acetate prevents the inhibition of MMP1/3 and restores invasiveness and ERK1/2 phosphorylation, suggesting that LGI1 acts through the ERK/MAPK pathway. Furthermore, LGI1 expression promotes phosphorylation of AKT, which leads to phosphorylation of Raf1Ser-259 , an event shown previously to negatively regulate ERK1/2 signaling. These data suggest that LGI1 plays a major role in suppressing the production of MMP1/3 through the phosphatidylinositol 3-kinase/ERK pathway. Loss of LGI1 expression, therefore, may be an important event in the progression of gliomas that leads to a more invasive phenotype in these cells.Glioblastoma multiforme is the most common malignant tumor of the adult central nervous system and has a median survival time of less than 12 months (1-2). The highly lethal nature of this tumor results from the acquisition of an invasive phenotype that allows the tumor cells to infiltrate surrounding brain tissue. Despite considerable heterogeneity in the genetic abnormalities detected in the various etiologies and histopathologies of these tumors (3), 90% of glioblastoma multiformes share losses of regions on chromosome 10 (4 -8). Using a positional cloning strategy, Chernova et al. (9) identified the LGI1 gene associated with an apparently reciprocal t(10, 19)(q24;q13) chromosome translocation in the T98G glioma cell line.LGI1 is expressed in low grade tumors but not in most of the high grade gliomas or permanent cell lines tested (9 -10). The coincident loss of LGI1 expression with loss of chromosome 10 suggested that it might be important in the malignant progression of gliomas.LGI1 carries a leucine-rich repeat (LRR) 1 motif (9) that places it in the F20 family of LRR genes. Members of this family are predominantly involved in either receptor functions or attachment to the extracellular matrix (11). The strongest homology of the LGI1 LRR is with the slit genes (9),...

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The Oncogenic Fusion Protein-tyrosine Kinase ZNF198/Fibroblast Growth Factor Receptor-1 Has Signaling Function Comparable with Interleukin-6 Cytokine Receptors

Kunapuli

Tracy

Cowell

2003

Journal of Biological Chemistry

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The reciprocal t(8;13) chromosome translocation results in a fusion gene (FUS) in which the N-terminal half of the zinc finger protein ZNF198 is combined with the cytoplasmic domain of the fibroblast growth factor receptor-1 (FGFR1). Expression of FUS is suggested to provide growth-promoting activity to myeloid cells similar to the activity of hematopoietic cytokine receptors. This study determined the specificity of FUS to activate signal transduction pathways. Because no tumor cell line expressing FUS was available, the mode of FUS action was identified in cells transiently and stably transfected with an expression vector for FUS. FUS acted as a constitutively active protein-tyrosine kinase and mediated phosphorylation of STAT1, 3, and 5 but not STAT4 and 6. The same specificity but lower activity was determined for normal FGFR1. STAT activation by FUS, similar to that by interleukin-6-type cytokines, promoted STAT-specific induction of genes. The functionality of FUS, as well as the relative recruitment of STAT isoforms, was determined by the dimerizing function of the zinc finger domain. Replacement of the ZNF198 portion by the Bcr portion as present in the t(8;22) translocation shifted the signaling toward a more prominent STAT5 activation. This study documents that both gene partners forming the fusion oncogene define the activity and the signaling specificity of the proteintyrosine kinase of FGFR1.

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Suppression of the cell proliferation and invasion phenotypes in glioma cells by the LGI1 gene

2003

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The leucine-rich, glioma-inactivated (LGI1) gene, located in 10q24, was originally identified because it was interrupted and inactivated by a reciprocal chromosome translocation in the T98G glioma cell line. Loss of LGI1 expression in high-grade brain tumors is correlated with the frequent loss of chromosome 10 during progression of gliomas. To investigate whether this gene can suppress the malignant phenotype in glioma cells, we introduced the LGI1 gene into cells that do (U87) and do not (T98G and A172) express LGI1 endogenously. A172 and T98G cells showed a significant reduction in cell proliferation potential as a result of re-expression of LGI1, whereas U87 cells did not. Using BD matrigel matrix chamber assays we were also able to show that the migration ability of the reconstituted A172 and T98G cells was also reduced considerably. Finally, these reconstituted T98G and A172 cells showed a significant reduction in the ability to form colonies in soft agar compared with the parental cells. This analysis clearly demonstrates that re-expression of the LGI1 gene in glioma cells that were null for its activity can greatly reduce their malignant potential. These observations provide the opportunity to investigate the role of LGI1 in gliomagenesis and, since LGI1 is predicted to be a membrane-bound protein, potentially provides the opportunity to develop novel treatment strategies for malignant gliomas.

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