A Degron Blocking Strategy Towards Improved CRL4CRBN Recruiting PROTAC Selectivity

Small molecules inducing protein degradation are important pharmacological tools to interrogate complex biology and are rapidly translating into clinical agents. However, to fully realise the potential of these molecules, selectivity remains a limiting challenge. Herein, we addressed the issue of se...

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Veröffentlicht in:	Chembiochem : a European journal of chemical biology 2023-12, Vol.24 (23), p.e202300351-e202300351
Hauptverfasser:	Habib Bouguenina, Scarpino, Andrea, O'Hanlon, Jack A, Warne, Justin, Wang, Hannah Z, Laura Chan Wah Hak, Sadok, Amine, McAndrew, P Craig, Stubbs, Mark, Pierrat, Olivier A, Hahner, Tamas, Cabry, Marc P, Yann‐Vaï Le Bihan, Mitsopoulos, Costas, Sialana, Fernando J, Roumeliotis, Theodoros I, Burke, Rosemary, Rob L M van Montfort, Choudhari, Jyoti, Chopra, Rajesh, Caldwell, John J, Collins, Ian
Format:	Artikel
Sprache:	eng
Schlagworte:	Biodegradation Chimeras Complex formation Degradation Design Glues Ikaros protein Principles Proteins Proteolysis Substrates Thalidomide
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creator	Habib Bouguenina Scarpino, Andrea O'Hanlon, Jack A Warne, Justin Wang, Hannah Z Laura Chan Wah Hak Sadok, Amine McAndrew, P Craig Stubbs, Mark Pierrat, Olivier A Hahner, Tamas Cabry, Marc P Yann‐Vaï Le Bihan Mitsopoulos, Costas Sialana, Fernando J Roumeliotis, Theodoros I Burke, Rosemary Rob L M van Montfort Choudhari, Jyoti Chopra, Rajesh Caldwell, John J Collins, Ian
description	Small molecules inducing protein degradation are important pharmacological tools to interrogate complex biology and are rapidly translating into clinical agents. However, to fully realise the potential of these molecules, selectivity remains a limiting challenge. Herein, we addressed the issue of selectivity in the design of CRL4CRBN recruiting PROteolysis TArgeting Chimeras (PROTACs). Thalidomide derivatives used to generate CRL4CRBN recruiting PROTACs have well described intrinsic monovalent degradation profiles by inducing the recruitment of neo‐substrates, such as GSPT1, Ikaros and Aiolos. We leveraged structural insights from known CRL4CRBN neo‐substrates to attenuate and indeed remove this monovalent degradation function in well‐known CRL4CRBN molecular glues degraders, namely CC‐885 and Pomalidomide. We then applied these design principles on a previously published BRD9 PROTAC (dBRD9‐A) and generated an analogue with improved selectivity profile. Finally, we implemented a computational modelling pipeline to show that our degron blocking design does not impact PROTAC‐induced ternary complex formation. We believe that the tools and principles presented in this work will be valuable to support the development of targeted protein degradation.
doi_str_mv	10.1002/cbic.202300351
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subjects	Biodegradation Chimeras Complex formation Degradation Design Glues Ikaros protein Principles Proteins Proteolysis Substrates Thalidomide
title	A Degron Blocking Strategy Towards Improved CRL4CRBN Recruiting PROTAC Selectivity
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