TY - JOUR A2 - Wolf, Bethany AU - Kamath, Vidya P. AU - Torres-Roca, Javier F. AU - Eschrich, Steven A. PY - 2017 DA - 2017/02/08 TI - Integrating Biological Covariates into Gene Expression-Based Predictors of Radiation Sensitivity SP - 6576840 VL - 2017 AB - The use of gene expression-based classifiers has resulted in a number of promising potential signatures of patient diagnosis, prognosis, and response to therapy. However, these approaches have also created difficulties in trying to use gene expression alone to predict a complex trait. A practical approach to this problem is to integrate existing biological knowledge with gene expression to build a composite predictor. We studied the problem of predicting radiation sensitivity within human cancer cell lines from gene expression. First, we present evidence for the need to integrate known biological conditions (tissue of origin, RAS, and p53 mutational status) into a gene expression prediction problem involving radiation sensitivity. Next, we demonstrate using linear regression, a technique for incorporating this knowledge. The resulting correlations between gene expression and radiation sensitivity improved through the use of this technique (best-fit adjusted R2 increased from 0.3 to 0.84). Overfitting of data was examined through the use of simulation. The results reinforce the concept that radiation sensitivity is not driven solely by gene expression, but rather by a combination of distinct parameters. We show that accounting for biological heterogeneity significantly improves the ability of the model to identify genes that are associated with radiosensitivity. SN - 2314-436X UR - https://doi.org/10.1155/2017/6576840 DO - 10.1155/2017/6576840 JF - International Journal of Genomics PB - Hindawi KW - ER -