LAUSR

A fundamental biological understanding of the individual contributions of functional domains within multidomain proteins is critical to inform therapeutic approaches to targeting mechanisms driving human disease. TRIM24 is a multi-domain protein that has been broadly characterized as a co-regulator of transcription. It is therapeutically relevant as it is implicated as a dependency in many human cancers, however, the potent and selective inhibitors of the TRIM24 bromodomain do not have well-characterized phenotypic consequences. Where inhibition of one activity of a protein does not appear to be efficacious, chemical knockdown tools allow for the acute depletion of the entire protein, therefore eliminating all protein activities. In this study, we have used chemical degradation as one strategy to target the entire TRIM24 protein, where we have shown that a bifunctional degrader molecule hijacks the ubiquitin ligase machinery for targeted TRIM24 degradation. We have shown that TRIM24 degradation is required to perturb the oncogenic state in leukemia. In this context, TRIM24 degradation rather than bromodomain inhibition alone is required to displace TRIM24 from chromatin. Using this probe, a further understanding of the contribution of TRIM24 domains to its transcriptional activation function will provide mechanistic insight as to how TRIM24 promotes a gene expression program permissive of the oncogenic state, as well as inform a therapeutic approach to target multidomain proteins, such as TRIM24, that are tightly linked to disease. Citation Format: Lara N. Gechijian, Dennis Buckley, Matthew Lawlor, Thomas Scott, Joshiawa Paulk, Jaime Reyes, Georg Winter, Michael Erb, Chris Ott, Sirano Dhe-Paganon, James Bradner. The design and characterization of a selective TRIM24 degrader [abstract]. In: Proceedings of the American Association for Cancer Research Annual Meeting 2017; 2017 Apr 1-5; Washington, DC. Philadelphia (PA): AACR; Cancer Res 2017;77(13 Suppl):Abstract nr 981. doi:10.1158/1538-7445.AM2017-981