Abstract LB-209: Neuroblastoma is biphasic with classical neuro-epithelial cells and chemoresistant mesenchymal cells controlled by PRRX1-NOTCH signaling

Most high stage neuroblastoma initially respond to chemotherapy, but ultimately relapse as therapy-resistant tumor. The mechanisms driving relapse and resistance remain elusive. We observed that new neuroblastoma cell lines cultured in defined medium always include two phenotypically divergent cell types. Whole genome sequencing showed that both types were genetically identical. One cell type has a neuro-epithelial (NE) phenotype and expresses all classical and diagnostically used neuroblastoma markers. The other type has a mesenchymal (MES) character, lacks all neuroblastoma markers and is highly motile. MES cells are more chemo-resistant in vitro as compared to NE cells. Immunohistochemistry (IHC) of primary neuroblastoma detected a small fraction of MES cells in most tumors. However, MES cells were strongly enriched in surgically removed post-chemotherapy samples. Moreover, neuroblastoma patients that had been tumor-free for several years but relapsed, also showed a strong accumulation of MES type cells in their relapses as compared to the primary tumors. As these data suggest a major role for this new neuroblastoma cell type in development of therapy-resistant relapses, we analyzed their key regulatory pathways. In multiple cell line models, the homeobox gene PRRX1 was identified as a master regulator that converted the NE phenotype in a MES phenotype. PRRX1 concomitantly induced a chemo-resistant phenotype in vitro. PRRX1 activated a cascade of MEK, NOTCH and PDGFRβ signaling. Also NOTCH was able to induce the mesenchymal phenotype, as well as chemo-resistance. Analysis of the PRRX1-induced downstream signaling pathway identified several drugable key-players, like MEK and PDGFRβ. Targeting them with small-molecule inhibitors specifically killed MES cells in vitro. Our data suggest that neuroblastoma is a bi-phasic tumor. MES and NE cells have very different characteristics, but can transdifferentiate into each other. MES cells strongly accumulate after chemo-therapy and in relapses. They may survive classical therapy and seed relapses, that ultimately become heterogeneous again. Targeted elimination of MES cells with small molecule inhibitors shows how cells with a potential key role in relapse development are amenable to therapy. Note: This abstract was not presented at the meeting. Citation Format: Tim van Groningen, Natalia E. Nowakowska, Nurdan Akogul, Marloes Broekmans, Johannes Bras, Jan Booij, Marli E. Ebus, Jan J. Molenaar, Ellen M. Westerhout, Mohamed Hamdi, Peter van Sluis, Jan Koster, Bart A. Westerman, Godelieve A. Tytgat, Rogier Versteeg, Johan van Nes. Neuroblastoma is biphasic with classical neuro-epithelial cells and chemoresistant mesenchymal cells controlled by PRRX1-NOTCH signaling. [abstract]. In: Proceedings of the 106th Annual Meeting of the American Association for Cancer Research; 2015 Apr 18-22; Philadelphia, PA. Philadelphia (PA): AACR; Cancer Res 2015;75(15 Suppl):Abstract nr LB-209. doi:10.1158/1538-7445.AM2015-LB-209