Loss of Ewing sarcoma EWS allele promotes tumorigenesis by inducing chromosomal instability in zebrafish.

The Ewing sarcoma family of tumors expresses aberrant EWSR1- (EWS) fusion genes that are derived from chromosomal translocation. Although these fusion genes are well characterized as transcription factors, their formation leaves a single EWS allele in the sarcoma cells, and the contribution that the loss of EWS makes towards disease pathogenesis is unknown. To address this question, we utilized zebrafish mutants for ewsa and tp53. The zebrafish tp53(M214K)(w/m) line and the ewsa(w/m), zygotic ewsa(m/m), and Maternal-Zygotic (MZ) ewsa(m/m) lines all displayed zero to low incidence of tumorigenesis. However, when the ewsa and tp53 mutant lines were crossed with each other, the incidence of tumorigenesis drastically increased. Furthermore, 27 hour post fertilization (hpf) MZ ewsa(m/m) mutant embryos displayed a higher incidence of aberrant chromosome numbers and mitotic dysfunction compared to wildtype zebrafish embryos. Consistent with this finding, tumor samples obtained from ewsa(m/m);tp53(w/m) zebrafish displayed loss of heterozygosity (LOH) for the wildtype tp53 locus. These results suggest that wildtype Ewsa inhibits LOH induction, possibly by maintaining chromosomal stability. We propose that the loss of ewsa promotes tumorigenesis, and EWS deficiency may contribute to the pathogenesis of EWS-fusion-expressing sarcomas.

The impact of Meth A fibrosarcoma derived EMAP II on dendritic cell migration.

Studies have suggested that tumors are capable of modulating dendritic cell (DC) phenotype. A soluble protein produced by certain tumors, endothelial monocyte-activating polypeptide II (EMAP II) has been suggested as an anti-tumor agent based on its anti-angiogenic activity. However, this factor has not been evaluated for effects on DC. In this study, we analyzed the effect of Meth A fibrosarcoma supernatant and recombinant human EMAP II on DC migration. This included the migration of Langerhans cells from mouse ear skin sections and the migration of cells of a dendritic cell line (JAWS II) in a transwell culture system. The results of these studies indicated that EMAP II stimulates the migration of DC. Additional studies showed that the presence of the ascites form of the Meth A tumor led to a decrease in Langerhans cell (LC) numbers in the skin, and this decrease could be partially blocked by neutralizing antibody specific for EMAP II. Subcutaneous injection at the base of the ear of recombinant human EMAP II also led to a decrease in epidermal LC similar to that observed in tumor bearing mice. Together, these results suggest novel roles for EMAP II in modulating the migration of DC and suggest that these effects may modify Meth A tumor/host interactions.