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A pan-cancer screen identifies drug combination benefit in cancer cell lines at the individual and population level.

Daniel J Vis ,
Patricia Jaaks ,
Nanne Aben ,
Elizabeth A Coker ,
Syd Barthorpe ,
Alexandra Beck ,
Caitlin Hall ,
James Hall ,
Howard Lightfoot ,
Ermira Lleshi ,
Tatiana Mironenko ,
Laura Richardson ,
Charlotte Tolley ,
Mathew J Garnett ,
Lodewyk F A Wessels

Abstract

Combining drugs can enhance their clinical efficacy, but the number of possible combinations and inter-tumor heterogeneity make identifying effective combinations challenging, while existing approaches often overlook clinically relevant activity. We screen one of the largest cell line panels (N = 757) with 51 clinically relevant combinations and identify responses at the level of individual cell lines and tissue populations. We establish three response classes to model cellular effects beyond monotherapy: synergy, Bliss additivity, and independent drug action (IDA). Synergy is rare (11% of responses) and frequently efficacious (>50% viability reduction), whereas Bliss and IDA are more frequent but less frequently efficacious. We introduce "efficacious combination benefit" (ECB) to describe high-efficacy responses classified as either synergy, Bliss, or IDA. We identify ECB biomarkers in vitro and show that ECB predicts response in patient-derived xenografts better than synergy alone. Our work here provides a valuable resource and framework for preclinical evaluation and the development of combination treatments.

More about this publication

Cell reports. Medicine

Volume 5
Issue nr. 8
Pages 101687
Publication date 20-08-2024

Full text links

Publisher website (DOI) 10.1016/j.xcrm.2024.101687
Europe PubMed Central 39168097
Pubmed 39168097

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