Litcius/Paper detail

Targeted Protein Degradation through Recruitment of the CUL4 Complex Adaptor Protein DDB1

Margot Meyers, Sabine Cismoski, Anoohya Panidapu, B. Chie-Leon, Daniel K. Nomura

2024ACS Chemical Biology43 citationsDOIOpen Access PDF

Abstract

Targeted protein degradation has arisen as a powerful therapeutic modality for eliminating proteins. Thus far, most heterobifunctional proteolysis targeting chimeras (PROTACs) have utilized recruiters against substrate receptors of Cullin RING E3 ubiquitin ligases, such as cereblon and VHL. However, previous studies have surprisingly uncovered molecular glue degraders that exploit a CUL4 adaptor protein DDB1 to degrade neosubstrate proteins. Here, we sought to investigate whether DDB1 recruiters can be discovered that can be exploited for PROTAC applications. We utilized activity-based protein profiling and cysteine chemoproteomic screening to identify a covalent recruiter that targets C173 on DDB1 and exploited this recruiter to develop PROTACs against BRD4 and androgen receptor (AR). We demonstrated that the BRD4 PROTAC results in selective degradation of the short BRD4 isoform over the long isoform in a proteasome, NEDDylation, and DDB1-dependent manner. We also demonstrated degradation of AR with the AR PROTAC in prostate cancer cells. Our study demonstrated that covalent chemoproteomic approaches can be used to discover recruiters against Cullin RING adapter proteins and that these recruiters can be used for PROTAC applications to degrade neo-substrates.

Topics & Concepts

DDB1NeddylationCullinUbiquitin-Protein LigasesUbiquitinCOP9 signalosomeSignal transducing adaptor proteinProtein degradationProteasomeCereblonCell biologyNEDD8Protein–protein interactionBiologyChemistryUbiquitin ligaseBiochemistrySignal transductionProteaseEnzymePeptide HydrolasesGeneProtein Degradation and InhibitorsUbiquitin and proteasome pathwaysMultiple Myeloma Research and Treatments
Targeted Protein Degradation through Recruitment of the CUL4 Complex Adaptor Protein DDB1 | Litcius