Computational Screening of Anti-Cancer Drugs Identifies a New BRCA Independent Gene Expression Signature to Predict Breast Cancer Sensitivity to Cisplatin

Berthelet, J; Foroutan, M; Bhuva, DD; Whitfield, HJ; El-Saafin, F; Cursons, J; Serrano, A; Merdas, M; Lim, E; Charafe-Jauffret, E; Ginestier, C; Ernst, M; Hollande, F; Anderson, RL; Pal, B; Yeo, B; Davis, MJ; Merino, D

Author(s): Berthelet, J; Foroutan, M; Bhuva, DD; Whitfield, HJ; El-Saafin, F; Cursons, J; Serrano, A; Merdas, M; Lim, E; Charafe-Jauffret, E; Ginestier, C; Ernst, M; Hollande, F; Anderson, RL; Pal, B; Yeo, B; Davis, MJ; Merino, D;
Details: Publication Year 2022-05-13,Volume 14,Issue #10,Page 2404
Journal Title: Cancers
Abstract: The development of therapies that target specific disease subtypes has dramatically improved outcomes for patients with breast cancer. However, survival gains have not been uniform across patients, even within a given molecular subtype. Large collections of publicly available drug screening data matched with transcriptomic measurements have facilitated the development of computational models that predict response to therapy. Here, we generated a series of predictive gene signatures to estimate the sensitivity of breast cancer samples to 90 drugs, comprising FDA-approved drugs or compounds in early development. To achieve this, we used a cell line-based drug screen with matched transcriptomic data to derive in silico models that we validated in large independent datasets obtained from cell lines and patient-derived xenograft (PDX) models. Robust computational signatures were obtained for 28 drugs and used to predict drug efficacy in a set of PDX models. We found that our signature for cisplatin can be used to identify tumors that are likely to respond to this drug, even in absence of the BRCA-1 mutation routinely used to select patients for platinum-based therapies. This clinically relevant observation was confirmed in multiple PDXs. Our study foreshadows an effective delivery approach for precision medicine.
Publisher: MDPI
Research Division(s): Bioinformatics
PubMed ID: 35626009
Publisher's Version: https://doi.org/10.3390/cancers14102404
Open Access at Publisher's Site: https://doi.org/10.3390/cancers14102404
Terms of Use/Rights Notice: Refer to copyright notice on published article.
Documents: cancers-14-02404.pdf - (2.34MB, application/pdf)

Creation Date: 2023-02-24 09:21:00

Last Modified: 2023-02-24 09:23:03