1. Academic Validation
  2. Discovery of Monovalent Direct Degraders of BRD4 That Act Via the Recruitment of DCAF11

Discovery of Monovalent Direct Degraders of BRD4 That Act Via the Recruitment of DCAF11

  • Mol Cancer Ther. 2024 Jun 22. doi: 10.1158/1535-7163.MCT-24-0219.
Gregory S Parker 1 Julia I Toth 1 Sarah Fish 1 Gabrielle A Blanco 1 Taylor Kampert 1 Xiaoming Li 2 Linette Yang 1 Craig R Stumpf 1 Kenneth Steadman 1 Aleksandar Jamborcic 1 Stephen Chien 1 Elizabeth Daniele 1 Alejandro Dearie 1 Geoffray Leriche 1 Simon Bailey 1 Peggy A Thompson 1
Affiliations

Affiliations

  • 1 Plexium, San Diego, CA, United States.
  • 2 Halozyme Therapeutics, Inc., United States.
Abstract

Targeted protein degradation (TPD) using the ubiquitin Proteasome system (UPS) is a rapidly growing drug discovery modality to eliminate pathogenic proteins. Strategies for TPD have focused on heterobifunctional degraders that often suffer from poor drug-like properties, and Molecular Glues that rely on serendipitous discovery. Monovalent "direct" degraders represent an alternative approach, in which small molecules bind to a target protein and induce degradation of that protein through the recruitment of an E3 Ligase complex. Using an ultra-high throughput cell-based screening platform, degraders of the bromodomain extra-terminal (BET) protein BRD4 were identified and optimized to yield a lead compound, PLX-3618. In this paper, we demonstrate that PLX-3618 elicited UPS-mediated selective degradation of BRD4, resulting in potent anti-tumor activity in vitro and in vivo. Characterization of the degradation mechanism identified DCAF11 as the E3 Ligase required for PLX-3618-mediated degradation of BRD4. Protein-protein interaction studies verified a BRD4:PLX-3618:DCAF11 ternary complex, and mutational studies provided further insights into the DCAF11-mediated degradation mechanism. Collectively, these results demonstrate the discovery and characterization of a novel small molecule that selectively degrades BRD4 through the recruitment of the E3 substrate receptor, DCAF11, and promotes potent anti-tumor activity in vivo.

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