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Metapath-aggregated heterogeneous graph neural network for drug–target interaction prediction

Li Mei, Xiangrui Cai, Sihan Xu, Hua Ji

2023Briefings in Bioinformatics70 citationsDOIOpen Access PDF

Abstract

Drug-target interaction (DTI) prediction is an essential step in drug repositioning. A few graph neural network (GNN)-based methods have been proposed for DTI prediction using heterogeneous biological data. However, existing GNN-based methods only aggregate information from directly connected nodes restricted in a drug-related or a target-related network and are incapable of capturing high-order dependencies in the biological heterogeneous graph. In this paper, we propose a metapath-aggregated heterogeneous graph neural network (MHGNN) to capture complex structures and rich semantics in the biological heterogeneous graph for DTI prediction. Specifically, MHGNN enhances heterogeneous graph structure learning and high-order semantics learning by modeling high-order relations via metapaths. Additionally, MHGNN enriches high-order correlations between drug-target pairs (DTPs) by constructing a DTP correlation graph with DTPs as nodes. We conduct extensive experiments on three biological heterogeneous datasets. MHGNN favorably surpasses 17 state-of-the-art methods over 6 evaluation metrics, which verifies its efficacy for DTI prediction. The code is available at https://github.com/Zora-LM/MHGNN-DTI.

Topics & Concepts

Computer scienceGraphHeterogeneous networkArtificial neural networkBiological networkSemantics (computer science)Artificial intelligenceDrug targetMachine learningData miningTheoretical computer scienceBioinformaticsProgramming languageWireless networkBiologyTelecommunicationsWirelessMedicinePharmacologyComputational Drug Discovery MethodsBioinformatics and Genomic NetworksPharmacogenetics and Drug Metabolism
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