Author
Listed:
- Patricia Jaaks
(Wellcome Sanger Institute)
- Elizabeth A. Coker
(Wellcome Sanger Institute)
- Daniel J. Vis
(The Netherlands Cancer Institute
Oncode Institute)
- Olivia Edwards
(Wellcome Sanger Institute)
- Emma F. Carpenter
(Wellcome Sanger Institute)
- Simonetta M. Leto
(Candiolo Cancer Institute, FPO–IRCCS)
- Lisa Dwane
(Wellcome Sanger Institute)
- Francesco Sassi
(Candiolo Cancer Institute, FPO–IRCCS)
- Howard Lightfoot
(Wellcome Sanger Institute)
- Syd Barthorpe
(Wellcome Sanger Institute)
- Dieudonne Meer
(Wellcome Sanger Institute)
- Wanjuan Yang
(Wellcome Sanger Institute)
- Alexandra Beck
(Wellcome Sanger Institute)
- Tatiana Mironenko
(Wellcome Sanger Institute)
- Caitlin Hall
(Wellcome Sanger Institute)
- James Hall
(Wellcome Sanger Institute)
- Iman Mali
(Wellcome Sanger Institute)
- Laura Richardson
(Wellcome Sanger Institute)
- Charlotte Tolley
(Wellcome Sanger Institute)
- James Morris
(Wellcome Sanger Institute)
- Frances Thomas
(Wellcome Sanger Institute)
- Ermira Lleshi
(Wellcome Sanger Institute)
- Nanne Aben
(The Netherlands Cancer Institute)
- Cyril H. Benes
(Harvard Medical School)
- Andrea Bertotti
(Candiolo Cancer Institute, FPO–IRCCS
University of Torino School of Medicine)
- Livio Trusolino
(Candiolo Cancer Institute, FPO–IRCCS
University of Torino School of Medicine)
- Lodewyk Wessels
(The Netherlands Cancer Institute
Delft University of Technology
Oncode Institute)
- Mathew J. Garnett
(Wellcome Sanger Institute)
Abstract
Combinations of anti-cancer drugs can overcome resistance and provide new treatments1,2. The number of possible drug combinations vastly exceeds what could be tested clinically. Efforts to systematically identify active combinations and the tissues and molecular contexts in which they are most effective could accelerate the development of combination treatments. Here we evaluate the potency and efficacy of 2,025 clinically relevant two-drug combinations, generating a dataset encompassing 125 molecularly characterized breast, colorectal and pancreatic cancer cell lines. We show that synergy between drugs is rare and highly context-dependent, and that combinations of targeted agents are most likely to be synergistic. We incorporate multi-omic molecular features to identify combination biomarkers and specify synergistic drug combinations and their active contexts, including in basal-like breast cancer, and microsatellite-stable or KRAS-mutant colon cancer. Our results show that irinotecan and CHEK1 inhibition have synergistic effects in microsatellite-stable or KRAS–TP53 double-mutant colon cancer cells, leading to apoptosis and suppression of tumour xenograft growth. This study identifies clinically relevant effective drug combinations in distinct molecular subpopulations and is a resource to guide rational efforts to develop combinatorial drug treatments.
Suggested Citation
Patricia Jaaks & Elizabeth A. Coker & Daniel J. Vis & Olivia Edwards & Emma F. Carpenter & Simonetta M. Leto & Lisa Dwane & Francesco Sassi & Howard Lightfoot & Syd Barthorpe & Dieudonne Meer & Wanjua, 2022.
"Effective drug combinations in breast, colon and pancreatic cancer cells,"
Nature, Nature, vol. 603(7899), pages 166-173, March.
Handle:
RePEc:nat:nature:v:603:y:2022:i:7899:d:10.1038_s41586-022-04437-2
DOI: 10.1038/s41586-022-04437-2
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Cited by:
- Nishanth Ulhas Nair & Patricia Greninger & Xiaohu Zhang & Adam A. Friedman & Arnaud Amzallag & Eliane Cortez & Avinash Das Sahu & Joo Sang Lee & Anahita Dastur & Regina K. Egan & Ellen Murchie & Miche, 2023.
"A landscape of response to drug combinations in non-small cell lung cancer,"
Nature Communications, Nature, vol. 14(1), pages 1-19, December.
- Hyeong-Min Lee & William C. Wright & Min Pan & Jonathan Low & Duane Currier & Jie Fang & Shivendra Singh & Stephanie Nance & Ian Delahunty & Yuna Kim & Richard H. Chapple & Yinwen Zhang & Xueying Liu , 2023.
"A CRISPR-drug perturbational map for identifying compounds to combine with commonly used chemotherapeutics,"
Nature Communications, Nature, vol. 14(1), pages 1-18, December.
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