1. NCH-DDA: Neighborhood contrastive learning heterogeneous network for drug–disease association prediction.
- Author
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Zhang, Peiliang, Che, Chao, Jin, Bo, Yuan, Jingling, Li, Ruixin, and Zhu, Yongjun
- Subjects
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NEIGHBORHOODS , *DRUG repositioning , *ALZHEIMER'S disease , *FEATURE extraction , *DRUG development , *IMAGE segmentation - Abstract
Exploring new therapeutic diseases for existing drugs plays an essential role in reducing drug development costs. However, existing methods for predicting drug–disease association (DDA) lack fusion to multi-neighborhood information, which limits their ability to generalize and forces them to rely on prior knowledge. To this end, we propose a novel DDA model called the Neighborhood Contrastive Learning Heterogeneous Networks (NCH-DDA). NCH-DDA uses both single-neighborhood and multi-neighborhood feature extraction modules to extract important features of drugs and diseases in parallel from multiple potential spaces, such as heterogeneous networks and similarity networks. NCH-DDA fuses single-neighborhood and multi-neighborhood features using contrastive learning to enhance information interaction in different neighborhood spaces, ultimately obtaining universal domain features of drugs and diseases. NCH-DDA uses a combination of predictive loss and triplet loss to reduce dependence on prior knowledge. In different partition schemes of multiple datasets, NCH-DDA achieved the best performance in predicting DDA, outperforming several current state-of-the-art methods. Moreover, NCH-DDA demonstrated better performance in experiments on data sparsity and drug repositioning for Alzheimer's disease, indicating its greater potential in DDA prediction with sparse omics data and drug repositioning applications. • Neighborhood contrastive model for heterogeneous representation and DDA prediction. • MNFEM and SNFEM capture the important features in multiple potential spaces. • Contrast learning aggregated generic neighborhood features of drugs and diseases. • Presented a mixing optimization strategy to reduce the dependence on prior knowledge. • Four of the top five drugs recommended for AD by NCH-DDA were proved to be effective. [ABSTRACT FROM AUTHOR]
- Published
- 2024
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