Hubei Key Laboratory of Agricultural Bioinformatics, College of Informatics, Huazhong Agricultural University, Wuhan, People's Republic of China.
Key Laboratory of Smart Farming for Agricultural Animals, Ministry of Agriculture and Rural Affairs, People's Republic of China.
PLoS Comput Biol. 2024 Aug 26;20(8):e1012389. doi: 10.1371/journal.pcbi.1012389. eCollection 2024 Aug.
The identification of cancer driver genes is crucial for early detection, effective therapy, and precision medicine of cancer. Cancer is caused by the dysregulation of several genes at various levels of regulation. However, current techniques only capture a limited amount of regulatory information, which may hinder their efficacy. In this study, we present IMI-driver, a model that integrates multi-omics data into eight biological networks and applies Multi-view Collaborative Network Embedding to embed the gene regulation information from the biological networks into a low-dimensional vector space to identify cancer drivers. We apply IMI-driver to 29 cancer types from The Cancer Genome Atlas (TCGA) and compare its performance with nine other methods on nine benchmark datasets. IMI-driver outperforms the other methods, demonstrating that multi-level network integration enhances prediction accuracy. We also perform a pan-cancer analysis using the genes identified by IMI-driver, which confirms almost all our selected candidate genes as known or potential drivers. Case studies of the new positive genes suggest their roles in cancer development and progression.
鉴定癌症驱动基因对于癌症的早期检测、有效治疗和精准医疗至关重要。癌症是由多个基因在不同调控水平的失调引起的。然而,目前的技术仅捕获了有限数量的调控信息,这可能会限制其效果。在这项研究中,我们提出了 IMI-driver,这是一种将多组学数据整合到八个生物网络中,并应用多视图协同网络嵌入将生物网络中的基因调控信息嵌入到低维向量空间中以识别癌症驱动基因的模型。我们将 IMI-driver 应用于来自癌症基因组图谱(TCGA)的 29 种癌症类型,并在九个基准数据集上与其他九种方法进行性能比较。IMI-driver 优于其他方法,表明多层次网络集成提高了预测准确性。我们还使用 IMI-driver 鉴定的基因进行了泛癌分析,这几乎证实了我们选择的所有候选基因都是已知或潜在的驱动基因。新阳性基因的案例研究表明了它们在癌症发展和进展中的作用。
