Temporal and Spatial Characterization of CUL3KLHL20-driven Targeted Degradation of BET family, BRD Proteins by the Macrocycle-based Degrader BTR2004

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Abstract

Targeted protein degradation (TPD) is a promising new therapeutic modality that leverages the endogenous cellular protein degradation machinery of the ubiquitin-proteasome system (UPS) to degrade selected proteins. Recently, we developed a synthetic macrocycle ligand to recruit CUL3 KLHL20 E3 ligase for TPD. Using this KLHL20 ligand, we constructed the PROTAC BTR2004, which demonstrated potent degradation of BET family proteins BRD 2, 3, and 4. As the TPD field expands, it is important to understand the cellular and biochemical properties of all utilized E3 ligases. Herein we report the temporal and spatial processes of BTR2004-facilitated BET family protein degradation by KLHL20: The target protein degradation kinetics, BTR2004 intracellular activity half-life, and the onset of BTR2004 cell permeabilization. Employing proximity ligation and confocal microscopy techniques, we also illustrate the subcellular location of the ternary complex assembly upon BTR2004 treatment. These characterizations provide further insight into the processes that govern TPD and features that could be incorporated when designing future PROTAC molecules.
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Abstract Targeted protein degradation (TPD) is a promising new therapeutic modality that leverages the endogenous cellular protein degradation machinery of the ubiquitin-proteasome system (UPS) to degrade selected proteins. Recently, we developed a synthetic macrocycle ligand to recruit CUL3KLHL20 E3 ligase for TPD. Using this KLHL20 ligand, we constructed the PROTAC BTR2004, which demonstrated potent degradation of BET family proteins BRD 2, 3, and 4. As the TPD field expands, it is important to understand the cellular and biochemical properties of all utilized E3 ligases. Herein we report the temporal and spatial processes of BTR2004-facilitated BET family protein degradation by KLHL20: The target protein degradation kinetics, BTR2004 intracellular activity half-life, and the onset of BTR2004 cell permeabilization. Employing proximity ligation and confocal microscopy techniques, we also illustrate the subcellular location of the ternary complex assembly upon BTR2004 treatment. These characterizations provide further insight into the processes that govern TPD and features that could be incorporated when designing future PROTAC molecules. Competing Interest Statement The authors have declared no competing interest.

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last seen: 2026-05-20T01:45:00.602351+00:00