Modeling Cellular Response in Large-Scale Radiogenomic Databases to Advance Precision Radiotherapy

放射治疗 辐射敏感性 电离辐射 计算生物学 放射生物学 生物标志物 医学 生物 内科学 辐照 遗传学 物理 核物理学
作者
Venkata SK. Manem,Meghan Lambie,Ian C. P. Smith,Петр Смирнов,Victor Kofia,Mark Freeman,Marianne Koritzinsky,Mohamed E. Abazeed,Benjamin Haibe‐Kains,Scott V. Bratman
出处
期刊:Cancer Research [American Association for Cancer Research]
卷期号:79 (24): 6227-6237 被引量:22
标识
DOI:10.1158/0008-5472.can-19-0179
摘要

Abstract Radiotherapy is integral to the care of a majority of patients with cancer. Despite differences in tumor responses to radiation (radioresponse), dose prescriptions are not currently tailored to individual patients. Recent large-scale cancer cell line databases hold the promise of unravelling the complex molecular arrangements underlying cellular response to radiation, which is critical for novel predictive biomarker discovery. Here, we present RadioGx, a computational platform for integrative analyses of radioresponse using radiogenomic databases. We fit the dose–response data within RadioGx to the linear-quadratic model. The imputed survival across a range of dose levels (AUC) was a robust radioresponse indicator that correlated with biological processes known to underpin the cellular response to radiation. Using AUC as a metric for further investigations, we found that radiation sensitivity was significantly associated with disruptive mutations in genes related to nonhomologous end joining. Next, by simulating the effects of different oxygen levels, we identified putative genes that may influence radioresponse specifically under hypoxic conditions. Furthermore, using transcriptomic data, we found evidence for tissue-specific determinants of radioresponse, suggesting that tumor type could influence the validity of putative predictive biomarkers of radioresponse. Finally, integrating radioresponse with drug response data, we found that drug classes impacting the cytoskeleton, DNA replication, and mitosis display similar therapeutic effects to ionizing radiation on cancer cell lines. In summary, RadioGx provides a unique computational toolbox for hypothesis generation to advance preclinical research for radiation oncology and precision medicine. Significance: The RadioGx computational platform enables integrative analyses of cellular response to radiation with drug responses and genome-wide molecular data.

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