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HampDTI: a heterogeneous graph automatic meta-path learning method for drug-target interaction prediction

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arxiv 2112.08567 v1 pith:6VOPWFFX submitted 2021-12-16 cs.LG cs.AIq-bio.MN

HampDTI: a heterogeneous graph automatic meta-path learning method for drug-target interaction prediction

classification cs.LG cs.AIq-bio.MN
keywords hampdtimeta-pathdrugsdtisgraphheterogeneouspredictiontargets
verification ladder T0 review T1 audit T2 compute T3 formal T4 reserved
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Motivation: Identifying drug-target interactions (DTIs) is a key step in drug repositioning. In recent years, the accumulation of a large number of genomics and pharmacology data has formed mass drug and target related heterogeneous networks (HNs), which provides new opportunities of developing HN-based computational models to accurately predict DTIs. The HN implies lots of useful information about DTIs but also contains irrelevant data, and how to make the best of heterogeneous networks remains a challenge. Results: In this paper, we propose a heterogeneous graph automatic meta-path learning based DTI prediction method (HampDTI). HampDTI automatically learns the important meta-paths between drugs and targets from the HN, and generates meta-path graphs. For each meta-path graph, the features learned from drug molecule graphs and target protein sequences serve as the node attributes, and then a node-type specific graph convolutional network (NSGCN) which efficiently considers node type information (drugs or targets) is designed to learn embeddings of drugs and targets. Finally, the embeddings from multiple meta-path graphs are combined to predict novel DTIs. The experiments on benchmark datasets show that our proposed HampDTI achieves superior performance compared with state-of-the-art DTI prediction methods. More importantly, HampDTI identifies the important meta-paths for DTI prediction, which could explain how drugs connect with targets in HNs.

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