ZFTA (C11orf95)-a gene of unknown function-partners with a variety of transcriptional co-activators in translocations that drive supratentorial ependymoma, a frequently lethal brain tumor. Understanding the function of ZFTA is key to developing therapies that inhibit these fusion proteins. Here, using a combination of transcriptomics, chromatin immunoprecipitation-sequencing, and proteomics, we interrogated a series of deletion-mutant genes to identify a tri-partite transformation mechanism of ZFTA-containing fusions, including: spontaneous nuclear translocation, extensive chromatin binding, and SWI/SNF, SAGA and NuA4/Tip60 HAT chromatin modifier complex recruitment. Thereby, ZFTA tethers fusion proteins across the genome, modifying chromatin to an active state, and enabling its partner transcriptional co-activators to promote promiscuous expression of a transforming transcriptome. Using mouse models, we validate further those elements of ZFTA-fusion proteins that are critical for transformation-including ZFTA zinc fingers and partner gene transactivation domains-thereby unmasking vulnerabilities for therapeutic targeting.Copyright ©2021, American Association for Cancer Research.
About The Expert
Robert Kupp
Lisa Ruff
Sabrina Terranova
Erica Nathan
Stephane Ballereau
Rory Stark
Chandra Sekhar Reddy Chilamakuri
Nadin Hoffmann
Katherine Wickham-Rahrmann
Marcus Widdess
Amir Arabzade
Yanhua Zhao
Srinidhi Varadharajan
Tuyu Zheng
Mohankumar K Murugesan
Stefan M Pfister
Daisuke Kawauchi
Kristian W Pajtler
Benjamin Deneen
Stephen C Mack
Katherine E Masih
Berkley E Gryder
Javed Khan
Richard J Gilbertson
References
PubMed