DNA-Encoded Library (DEL) Selection Identifies a Distinct DDB1 Ligand Binding Site

Shiva Krishna Reddy Guduru; John P. Caldwell; Katherine M. Digianantonio; Sarah Prophet; Song Yang; Peter C. Gareiss; Christine Jones; Alicia Harbin; Brittany Driscoll; Md Fazlul Karim; Alexander Scott; Avani Patel; Amanda Chapman; Marci Crandall; Gabriella Miklóssy; Nicholas T. Barczak; Antonella P. Stroppa; John Corradi; Jordan J. Clark; Mee-Kyung Chung; Natalie RG. Reinhardt; William E. Butcher; Rashaun S. Wilson; Cory M. Stiff; Arman Fathizadeh; Lin Yuan; Gan Wang; Hanqing Dong; Brett R. Beno; Kurt Zimmermann (327735); David R. Langley; Angela M. Cacace; Miklós Békés

doi:10.1021/acsmedchemlett.6c00003

DNA-Encoded Library (DEL) Selection Identifies a Distinct DDB1 Ligand Binding Site

Shiva Krishna Reddy Guduru(Arvinas (United States)), John P. Caldwell(Arvinas (United States)), Katherine M. Digianantonio(Arvinas (United States)), Sarah Prophet(Arvinas (United States)), Song Yang(Arvinas (United States)), Peter C. Gareiss(Arvinas (United States)), Christine Jones(Arvinas (United States)), Alicia Harbin(Arvinas (United States)), Brittany Driscoll(Arvinas (United States)), Md Fazlul Karim(Arvinas (United States)), Alexander Scott(Arvinas (United States)), Avani Patel(Arvinas (United States)), Amanda Chapman(Arvinas (United States)), Marci Crandall(Arvinas (United States)), Gabriella Miklóssy(Arvinas (United States)), Nicholas T. Barczak(Arvinas (United States)), Antonella P. Stroppa(Arvinas (United States)), John Corradi(Arvinas (United States)), Jordan J. Clark(Arvinas (United States)), Mee-Kyung Chung(Arvinas (United States)), Natalie RG. Reinhardt(Arvinas (United States)), William E. Butcher(Arvinas (United States)), Rashaun S. Wilson(Arvinas (United States)), Cory M. Stiff(Arvinas (United States)), Arman Fathizadeh(Arvinas (United States)), Lin Yuan(Arvinas (United States)), Gan Wang(Arvinas (United States)), Hanqing Dong(Arvinas (United States)), Brett R. Beno(Arvinas (United States)), Kurt Zimmermann (327735)(Arvinas (United States)), David R. Langley(Arvinas (United States)), Angela M. Cacace(Arvinas (United States)), Miklós Békés(Arvinas (United States))

ACS Medicinal Chemistry Letters

March 27, 2026

10.1021/acsmedchemlett.6c00003

Cited by 1Open Access

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Abstract

Heterobifunctional proteolysis targeting chimeras (PROTACs) are proven to degrade disease-causing proteins, and many PROTACs have already entered into clinical trials. The majority of these PROTACs recruit cereblon (CRBN) or von Hippel-Lindau (VHL) substrate receptors of cullin RING E3 ubiquitin ligases, but there remains a need for alternative E3 ligase ligands. In this study, we enable DDB1 as an E3 ligase adapter protein for PROTAC drug discovery, describe a DNA-encoded library (DEL) ligand discovery campaign, and report the identification of a novel DDB1 ligand. Structure-guided modifications allowed DDB1 ligands to be developed from the initial DEL hit with nanomolar potency. Biochemical assays, cellular target engagement, and X-ray crystallography analysis demonstrated binding of the ligand to a unique pocket within DDB1. This chemical series furthers our understanding of ligand binding pockets within DDB1 and expands the repertoire of small molecules that may be suitable for the incorporation into PROTACs.

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