Ewing tumors (ET) are highly malignant, localized in bone or soft tissue, and are molecularly defined by ews/ets translocations. DNA microarray analysis revealed a relationship of ET to both endothelium and fetal neural crest. We identified expression of histone methyltransferase enhancer of Zeste, Drosophila, Homolog 2 (EZH2) to be increased in ET. Suppressive activity of EZH2 maintains stemness in normal and malignant cells. Here, we found EWS/FLI1 bound to the EZH2 promoter in vivo, and induced EZH2 expression in ET and mesenchymal stem cells. Down-regulation of EZH2 by RNA interference in ET suppressed oncogenic transformation by inhibiting clonogenicity in vitro. Similarly, tumor development and metastasis was suppressed in immunodeficient Rag2 ؊/؊ ␥C ؊/؊ mice. EZH2-mediated gene silencing was shown to be dependent on histone deacetylase (HDAC) activity. Subsequent microarray analysis of EZH2 knock down, HDAC-inhibitor treatment and confirmation in independent assays revealed an undifferentiated phenotype maintained by EZH2 in ET. EZH2 regulated stemness genes such as nerve growth factor receptor (NGFR), as well as genes involved in neuroectodermal and endothelial differentiation (EMP1, EPHB2, GFAP, and GAP43). These data suggest that EZH2 might have a central role in ET pathology by shaping the oncogenicity and stem cell phenotype of this tumor.epigenetic regulation ͉ Ewing tumor ͉ stemness E wing tumors (ET) are highly malignant tumors with an approximate incidence of 3.3/10 6 in children under the age of 15. ET are characterized by early metastases, and metastatic spread is commonly hematogeneous. ET were originally described by Ewing in 1921 as endothelioma of the bone (1), and we confirmed this endothelial signature by microarray analysis (2). ET are molecularly defined by ews/ets translocations. Translocation-derived chimeric transcription factors yield transactivation, transformation, and the highly malignant phenotype. In mice, EWS/FLI1 transforms bone marrow derived or mesenchymal progenitor cells, and generates tumors (3, 4), which have features of ET. Also, inhibition of EWS/FLI1 expression may allow ET cells to recover the phenotype of their presumed mesenchymal stem cell (MSC) progenitor (5). Multipotent MSCs represent a leading candidate for primary transformation in ET. We revealed a relationship of ET to both endothelial and fetal neural crest-derived cells (2), after having demonstrated neuroectodermal histogenesis of ET in 1985 (6). Based on our recent study, we postulated in 2004 that the ET stem cell is arrested at early mesenchyme development from the neuroectodermal germ layer, and, thus, the ET stem cell is a neuronal crest-derived stem cell at transition to mesenchymal endothelial development, residing in the bone marrow. However, ectopic EWS/FLI1 expression resulted in a neural phenotype, raising the possibility that transdifferentiation or lineage promiscuity may be an alternative to the MSC histogenetic origin hypothesis of ET (7).We used high density DNA microarrays for the ident...
Ewing tumors comprise the second most common type of bone-associated cancer in children and are characterized by oncogenic EWS/FLI1 fusion proteins and early metastasis. Compelling evidence suggests that elevated levels of intracellular oxidative stress contribute to enhanced aggressiveness of numerous cancers, possibly including Ewing tumors. Using comprehensive microarray analyses and RNA interference, we identified the six-transmembrane epithelial antigen of the prostate 1 (STEAP1)-a membrane-bound mesenchymal stem cell marker of unknown function-as a highly expressed protein in Ewing tumors compared with benign tissues and show its regulation by EWS/FLI1. In addition, we show that STEAP1 knockdown reduces Ewing tumor proliferation, anchorage-independent colony formation as well as invasion in vitro and decreases growth and metastasis of Ewing tumor xenografts in vivo. Moreover, transcriptome and proteome analyses as well as functional studies revealed that STEAP1 expression correlates with oxidative stress responses and elevated levels of reactive oxygen species that in turn are able to regulate redox-sensitive and proinvasive genes. In synopsis, our data suggest that STEAP1 is associated with the invasive behavior and oxidative stress phenotype of Ewing tumors and point to a hitherto unanticipated oncogenic function of STEAP1. Mol Cancer Res; 10(1); 52-65. Ó2011 AACR.
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