EPEN-01. ZFTA-RELA FUSION PROGRAMS CONVERGE ON YAP PATHWAY ACTIVATION IN EPENDYMOMA

Abstract

Abstract Approximately two thirds of supratentorial ependymoma are driven by the ZFTA-RELA gene fusion. ZFTA is a recently described gene with a role in DNA binding and transcriptional regulation, while RELA (p65) is a known principal mediator of the canonical NFkB pathway, a pathway activated many human malignancies. The underlying mechanism of NFkB pathway protein interaction with the ZFTA-RELA fusion to drive tumorgenesis has not yet been described. In this study, we utilized our autochthonous mouse tumor model using in utero electroporation (IUE) of the embryonic mouse brain to explore these questions. Using rapid immunoprecipitation mass spectrometry of endogenous proteins (RIME) targeting HA-tagged ZFTA-RELA fusion in our IUE model, we demonstrate that both canonical and non-canonical NFkB proteins interact with ZFTA-RELA protein in ZFTA-RELA fusion ependymoma. Focusing on select key NFkB proteins, we performed chromatin immunoprecipitation sequencing (ChIP-Seq) targeting p50/NFkB1, a protein that partners with RELA/p65 in the canonical NFkB pathway, revealing that p50/NFkB1 regulatory programs define active genes that are both distinct from and shared with the ZFTA-RELA fusion protein. Functionally, we performed CRISPR-CAS9 knock out (KO) of p50/NFkB1 and identified no phenotypic effect, as KO lines demonstrated no growth impairment. Furthermore, NFkB targeting drugs did not impair tumor growth. Given these findings, suggesting redundant transcriptional programing, we identified that ZFTA and RELA intersect with TEAD transcription factor programs to activate YAP signaling and that p50 localizes to YAP-TEAD pathway members. Targeting TEAD 1 and 4 with ChIP-Seq, we found that TEAD 1 and 4 co-regulate p50/NFkB1 and ZFTA-RELA target genes. Finally, we demonstrate YAP pathway activation across all supratentorial ependymoma, including ZFTA-RELA ependymoma. Our pathway analysis consistently converged on YAP/TEAD pathways, suggesting collaboration of ZFTA-RELA fusion with YAP/TEAD in transcriptional regulation for these tumors. Targeting YAP/TEAD may therefore represent a promising therapeutic strategy for ZFTA-RELA fusion ependymoma.