MUSCLE: multi-view and multi-scale attentional feature fusion for microRNA–disease associations prediction

Author:

Ji Boya1,Zou Haitao12,Xu Liwen1,Xie Xiaolan2,Peng Shaoliang1

Affiliation:

1. College of Computer Science and Electronic Engineering, Hunan University , Changsha 410082 , China

2. College of Information Science and Engineering, Guilin University of Technology , Guilin 541006 , China

Abstract

Abstract MicroRNAs (miRNAs) synergize with various biomolecules in human cells resulting in diverse functions in regulating a wide range of biological processes. Predicting potential disease-associated miRNAs as valuable biomarkers contributes to the treatment of human diseases. However, few previous methods take a holistic perspective and only concentrate on isolated miRNA and disease objects, thereby ignoring that human cells are responsible for multiple relationships. In this work, we first constructed a multi-view graph based on the relationships between miRNAs and various biomolecules, and then utilized graph attention neural network to learn the graph topology features of miRNAs and diseases for each view. Next, we added an attention mechanism again, and developed a multi-scale feature fusion module, aiming to determine the optimal fusion results for the multi-view topology features of miRNAs and diseases. In addition, the prior attribute knowledge of miRNAs and diseases was simultaneously added to achieve better prediction results and solve the cold start problem. Finally, the learned miRNA and disease representations were then concatenated and fed into a multi-layer perceptron for end-to-end training and predicting potential miRNA–disease associations. To assess the efficacy of our model (called MUSCLE), we performed 5- and 10-fold cross-validation (CV), which got average the Area under ROC curves of 0.966${\pm }$0.0102 and 0.973${\pm }$0.0135, respectively, outperforming most current state-of-the-art models. We then examined the impact of crucial parameters on prediction performance and performed ablation experiments on the feature combination and model architecture. Furthermore, the case studies about colon cancer, lung cancer and breast cancer also fully demonstrate the good inductive capability of MUSCLE. Our data and code are free available at a public GitHub repository: https://github.com/zht-code/MUSCLE.git.

Funder

NSFC-FDCT

National Key R&D Program of China

Innovative Research Group Project of Hunan Province

Key R&D Program of Hunan Province

Top 10 Technical Key Project in Hunan Province

Key Technologies R&D Program of Guangdong Province

Funds of State Key Laboratory of Chemo/Biosensing and Chemometrics

National Supercomputing Center in Changsha

Peng Cheng Lab

Publisher

Oxford University Press (OUP)

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