American Association for Cancer Research
00085472can163351-sup-175850_2_supp_3929464_xn96lx.xlsx (238.65 kB)

Supplemental Table S3 from CIC-DUX4 Induces Small Round Cell Sarcomas Distinct from Ewing Sarcoma

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posted on 2023-03-31, 00:21 authored by Toyoki Yoshimoto, Miwa Tanaka, Mizuki Homme, Yukari Yamazaki, Yutaka Takazawa, Cristina R. Antonescu, Takuro Nakamura

Unregulated genes in eMCs expressing CIC-DUX4 vs eMCs with an empty vector


Scientific Research from Japan Society for the Promotion of Science

Cancer Center Support grants




CIC-DUX4 sarcoma (CDS) or CIC-rearranged sarcoma is a subcategory of small round cell sarcoma resembling the morphological phenotypes of Ewing sarcoma (ES). However, recent clinicopathologic and molecular genetic analyses indicate that CDS is an independent disease entity from ES. Few ancillary markers have been used in the differential diagnosis of CDS, and additional CDS-specific biomarkers are needed for more definitive classification. Here, we report the generation of an ex vivo mouse model for CDS by transducing embryonic mesenchymal cells (eMC) with human CIC-DUX4 cDNA. Recipient mice transplanted with eMC-expressing CIC-DUX4 rapidly developed an aggressive, undifferentiated sarcoma composed of small round to short spindle cells. Gene-expression profiles of CDS and eMC revealed upregulation of CIC-DUX4 downstream genes such as PEA3 family genes, Ccnd2, Crh, and Zic1. IHC analyses for both mouse and human tumors showed that CCND2 and MUC5AC are reliable biomarkers to distinguish CDS from ES. Gene silencing of CIC-DUX4 as well as Ccnd2, Ret, and Bcl2 effectively inhibited CDS tumor growth in vitro. The CDK4/6 inhibitor palbociclib and the soft tissue sarcoma drug trabectedin also blocked the growth of mouse CDS. In summary, our mouse model provides important biological information about CDS and provides a useful platform to explore biomarkers and therapeutic agents for CDS. Cancer Res; 77(11); 2927–37. ©2017 AACR.