Huang Chen-Tsung, Hsieh Chiao-Hui, Oyang Yen-Jen, Huang Hsuan-Cheng, Juan Hsueh-Fen
Graduate Institute of Biomedical Electronics and Bioinformatics, National Taiwan University, Taipei 10617, Taiwan.
Institute of Molecular and Cellular Biology, National Taiwan University, Taipei 10617, Taiwan.
iScience. 2018 Sep 28;7:40-52. doi: 10.1016/j.isci.2018.08.017. Epub 2018 Aug 23.
Biological systems often respond to a specific environmental or genetic perturbation without pervasive gene expression changes. Such robustness to perturbations, however, is not reflected on the current computational strategies that utilize gene expression similarity metrics for drug discovery and repositioning. Here we propose a new expression-intensity-based similarity metric that consistently achieved better performance than other state-of-the-art similarity metrics with respect to the gold-standard clustering of drugs with known mechanisms of action. The new metric directly emphasizes the genes exhibiting the greatest changes in expression in response to a perturbation. Using the new framework to systematically compare 3,332 chemical and 3,934 genetic perturbations across 10 cell types representing diverse cellular signatures, we identified thousands of recurrent and cell type-specific connections. We also experimentally validated two drugs identified by the analysis as potential topoisomerase inhibitors. The new framework is a valuable resource for hypothesis generation, functional testing, and drug repositioning.
生物系统通常会对特定的环境或基因扰动做出反应,而不会出现普遍的基因表达变化。然而,这种对扰动的稳健性并未体现在当前利用基因表达相似性指标进行药物发现和重新定位的计算策略中。在此,我们提出了一种基于表达强度的新相似性指标,相对于具有已知作用机制的药物的金标准聚类,该指标始终比其他现有最先进的相似性指标表现更好。新指标直接强调了那些在受到扰动时表达变化最大的基因。利用新框架系统地比较了代表不同细胞特征的10种细胞类型中的3332种化学扰动和3934种基因扰动,我们识别出了数千种反复出现的和细胞类型特异性的关联。我们还通过实验验证了分析确定的两种作为潜在拓扑异构酶抑制剂的药物。新框架是用于假设生成、功能测试和药物重新定位的宝贵资源。
