Literature DB >> 26853626

Cell-Line Selectivity Improves the Predictive Power of Pharmacogenomic Analyses and Helps Identify NADPH as Biomarker for Ferroptosis Sensitivity.

Kenichi Shimada1, Miki Hayano2, Nen C Pagano3, Brent R Stockwell4.   

Abstract

Precision medicine in oncology requires not only identification of cancer-associated mutations but also effective drugs for each cancer genotype, which is still a largely unsolved problem. One approach for the latter challenge has been large-scale testing of small molecules in genetically characterized cell lines. We hypothesized that compounds with high cell-line-selective lethality exhibited consistent results across such pharmacogenomic studies. We analyzed the compound sensitivity data of 6,259 lethal compounds from the NCI-60 project. A total of 2,565 cell-line-selective lethal compounds were identified and grouped into 18 clusters based on their median growth inhibitory GI50 profiles across the 60 cell lines, which were shown to represent distinct mechanisms of action. Further transcriptome analysis revealed a biomarker, NADPH abundance, for predicting sensitivity to ferroptosis-inducing compounds, which we experimentally validated. In summary, incorporating cell-line-selectivity filters improves the predictive power of pharmacogenomic analyses and enables discovery of biomarkers that predict the sensitivity of cells to specific cell death inducers.
Copyright © 2016 Elsevier Ltd. All rights reserved.

Entities:  

Keywords:  NADPH; cancer pharmacology; drug mechanisms of action; ferroptosis; pharmacogenomics; tumor biomarkers

Mesh:

Substances:

Year:  2016        PMID: 26853626      PMCID: PMC4792701          DOI: 10.1016/j.chembiol.2015.11.016

Source DB:  PubMed          Journal:  Cell Chem Biol        ISSN: 2451-9448            Impact factor:   8.116


  25 in total

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Authors:  Robert H Shoemaker
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5.  Copper-Binding Small Molecule Induces Oxidative Stress and Cell-Cycle Arrest in Glioblastoma-Patient-Derived Cells.

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Review 10.  Ferroptosis: A Regulated Cell Death Nexus Linking Metabolism, Redox Biology, and Disease.

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