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Cell Morphological Profiling Enables High-Throughput Screening for PROteolysis TArgeting Chimera (PROTAC) Phenotypic Signature

Maria‐Anna Trapotsi, Elizabeth Mouchet, Guy Williams, Tiziana Monteverde, Karolina Juhani, Riku Turkki, Filip Miljković, Anton Martinsson, Lewis Mervin, Kenneth R. Pryde, Erik Müllers, Ian P. Barrett, Ola Engkvist, Andreas Bender, Kévin Moreau

2022ACS Chemical Biology48 citationsDOIOpen Access PDF

Abstract

PROteolysis TArgeting Chimeras (PROTACs) use the ubiquitin-proteasome system to degrade a protein of interest for therapeutic benefit. Advances made in targeted protein degradation technology have been remarkable, with several molecules having moved into clinical studies. However, robust routes to assess and better understand the safety risks of PROTACs need to be identified, which is an essential step toward delivering efficacious and safe compounds to patients. In this work, we used Cell Painting, an unbiased high-content imaging method, to identify phenotypic signatures of PROTACs. Chemical clustering and model prediction allowed the identification of a mitotoxicity signature that could not be expected by screening the individual PROTAC components. The data highlighted the benefit of unbiased phenotypic methods for identifying toxic signatures and the potential to impact drug design.

Topics & Concepts

Chimera (genetics)PhenotypeProfiling (computer programming)Computational biologyBiologyPhenotypic screeningProteolysisGeneticsComputer scienceGeneEnzymeBiochemistryOperating systemCell Image Analysis TechniquesViral Infectious Diseases and Gene Expression in InsectsCAR-T cell therapy research
Cell Morphological Profiling Enables High-Throughput Screening for PROteolysis TArgeting Chimera (PROTAC) Phenotypic Signature | Litcius