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

doi:10.1016/j.xcrm.2024.101687

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^*

^*Corresponding author for this work

Research output: Contribution to journal › Article › Scientific › peer-review

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.

Original language	English
Article number	101687
Number of pages	18
Journal	Cell Reports Medicine
Volume	5
Issue number	8
DOIs	https://doi.org/10.1016/j.xcrm.2024.101687
Publication status	Published - 2024
Externally published	Yes

Keywords

Bliss
cell lines
combination benefit
drug combinations
drug efficacy
drug potency
high-throughput screening
independent drug action
synergy

UN SDGs

This output contributes to the following UN Sustainable Development Goals (SDGs)

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10.1016/j.xcrm.2024.101687

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Vis, D. J., Jaaks, P., Aben, N., Coker, E. A., Barthorpe, S., Beck, A., Hall, C., Hall, J., Lightfoot, H., Lleshi, E., Mironenko, T., Richardson, L., Tolley, C., Garnett, M. J., & Wessels, L. F. A. (2024). A pan-cancer screen identifies drug combination benefit in cancer cell lines at the individual and population level. Cell Reports Medicine, 5(8), Article 101687. https://doi.org/10.1016/j.xcrm.2024.101687

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title = "A pan-cancer screen identifies drug combination benefit in cancer cell lines at the individual and population level",

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.",

keywords = "Bliss, cell lines, combination benefit, drug combinations, drug efficacy, drug potency, high-throughput screening, independent drug action, synergy",

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

year = "2024",

doi = "10.1016/j.xcrm.2024.101687",

language = "English",

volume = "5",

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Vis, DJ, Jaaks, P, Aben, N, Coker, EA, Barthorpe, S, Beck, A, Hall, C, Hall, J, Lightfoot, H, Lleshi, E, Mironenko, T, Richardson, L, Tolley, C, Garnett, MJ & Wessels, LFA 2024, 'A pan-cancer screen identifies drug combination benefit in cancer cell lines at the individual and population level', Cell Reports Medicine, vol. 5, no. 8, 101687. https://doi.org/10.1016/j.xcrm.2024.101687

TY - JOUR

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AU - Vis, Daniel J.

AU - Jaaks, Patricia

AU - Aben, Nanne

AU - Coker, Elizabeth A.

AU - Barthorpe, Syd

AU - Beck, Alexandra

AU - Hall, Caitlin

AU - Hall, James

AU - Lightfoot, Howard

AU - Lleshi, Ermira

AU - Mironenko, Tatiana

AU - Richardson, Laura

AU - Tolley, Charlotte

AU - Garnett, Mathew J.

AU - Wessels, Lodewyk F.A.

PY - 2024

Y1 - 2024

N2 - 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.

AB - 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.

KW - Bliss

KW - cell lines

KW - combination benefit

KW - drug combinations

KW - drug efficacy

KW - drug potency

KW - high-throughput screening

KW - independent drug action

KW - synergy

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DO - 10.1016/j.xcrm.2024.101687

M3 - Article

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AN - SCOPUS:85201429863

SN - 2666-3791

VL - 5

JO - Cell Reports Medicine

JF - Cell Reports Medicine

IS - 8

M1 - 101687

ER -

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

Abstract

Keywords

UN SDGs

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