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MSDAFL: molecular substructure-based dual attention feature learning framework for predicting drug–drug interactions

Chao Hou, Guihua Duan, Cheng Yan

2024Bioinformatics7 citationsDOIOpen Access PDF

Abstract

MOTIVATION: Drug-drug interactions (DDIs) can cause unexpected adverse drug reactions, affecting treatment efficacy and patient safety. The need for computational methods to predict DDIs has been growing due to the necessity of identifying potential risks associated with drug combinations in advance. Although several deep learning methods have been recently proposed to predict DDIs, many overlook feature learning based on interactions between the substructures of drug pairs. RESULTS: In this work, we introduce a molecular Substructure-based Dual Attention Feature Learning framework (MSDAFL), designed to fully utilize the information between substructures of drug pairs to enhance the performance of DDI prediction. We employ a self-attention module to obtain a set number of self-attention vectors, which are associated with various substructural patterns of the drug molecule itself, while also extracting interaction vectors representing inter-substructure interactions between drugs through an interactive attention module. Subsequently, an interaction module based on cosine similarity is used to further capture the interactive characteristics between the self-attention vectors of drug pairs. We also perform normalization after the interaction feature extraction to mitigate overfitting. After applying three-fold cross-validation, the MSDAFL model achieved average precision scores of 0.9707, 0.9991, and 0.9987, and area under the receiver operating characteristic curve scores of 0.9874, 0.9934, and 0.9974 on three datasets, respectively. In addition, the experiment results of five-fold cross-validation and cross-datum study also indicate that MSDAFL performs well in predicting DDIs. AVAILABILITY AND IMPLEMENTATION: Data and source codes are available at https://github.com/27167199/MSDAFL.

Topics & Concepts

SubstructureFeature (linguistics)DrugDual (grammatical number)Computer scienceComputational biologyArtificial intelligenceMachine learningPharmacologyMedicineBiologyEngineeringLinguisticsStructural engineeringPhilosophyArtLiteratureComputational Drug Discovery MethodsMachine Learning in HealthcareMachine Learning in Materials Science
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