Ependymomas driven by the ZFTA-RELA fusion account for >70% of all supratentorial ependymomas. These tumours are now recognised in the WHO classification of CNS tumours and have been associated with a poor prognosis. Seven ZFTA-RELA fusion variants have been described: around two thirds of cases are fusion 1. No spontaneous genetically modified mouse models (GEMMS) have been described and current models require invasive intracranial injection (of transduced cells or RCAS-TVA system). Here we describe the first spontaneous GEMM of ZFTA-RELA fusion-driven ependymoma. Nestin-Flx-STOP-Flx-ZFTA-RELA (Fusion 1) or E1alpha-Flx-STOP-Flx-ZFTA-RELA open reading frames were targeted together with luciferase to the Rosa-26 locus. Breeding these mice with Nestin-CreERT2 or Blbp-Cre lines that drive recombination in neural progenitor cells resulted in forebrain tumours that could be tracked with bioluminescence imaging from P20. Tumours displayed NF-kB and L1CAM expression and ZFTA-RELA protein was detected using a novel in-house antibody. Tumours display expression of a known ZFTA-RELA fusion ependymoma transcriptomic signature. ZFTA-RELA tumours can be grown as neurospheres and passaged as allografts in nude mice. We provide the first spontaneous GEMM of this important group of ependymomas. We are now characterising these tumours histologically and transcriptomically relative to the human disease and using these to understand the lineage origins of ependymoma and plan use of conventional and novel treatments.
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