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Benchmarking heterogeneous network-based methods for drug repurposing.

Thi Trang Nguyen1, Yudi Pawitan1, Stefano Calza2

  • 1Department of Medical Epidemiology and Biostatistics, Karolinska Institutet, Stockholm, Sweden.

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Summary
This summary is machine-generated.

This study benchmarks ten heterogeneous network methods for drug repurposing (DR). OMC achieved the best performance, highlighting the need for standardized evaluation in DR research.

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Area of Science:

  • Computational biology
  • Pharmacology
  • Bioinformatics

Background:

  • Drug repurposing (DR) offers a cost-effective approach to discover new drug applications.
  • Heterogeneous network-based methods show promise for DR by leveraging complex biological interactions.
  • A lack of comprehensive benchmarking hinders the assessment of reliability and generalizability of these DR methods.

Purpose of the Study:

  • To systematically evaluate and compare ten advanced heterogeneous network-based drug repurposing methods.
  • To assess method performance across diverse datasets, including newly introduced ones.
  • To analyze the impact of data sparsity and cross-validation strategies on performance metrics.

Main Methods:

  • Evaluation of ten drug repurposing methods: matrix factorization (NMF, NMF-PDR, NMF-DR, VDA-GKSBMF), matrix completion (BNNR, OMC, HGIMC), recommendation systems (IBCF, LIBMF), and deep learning (DRDM).
  • Systematic benchmarking across eight datasets (six public, two new drug-disease datasets).
  • Performance assessment using Area Under the ROC Curve (AUC) and Area Under the Precision-Recall Curve (AUPR).

Main Results:

  • OMC consistently demonstrated the highest AUC and AUPR across most datasets.
  • BNNR, DRDM, HGIMC, VDA-GKSBMF, and NMF-PDR showed competitive performance.
  • NMF-PDR outperformed other NMF-based methods; cross-validation strategies significantly impact AUPR, with prior studies potentially overestimating performance.

Conclusions:

  • This work establishes a reliable benchmarking framework and provides new datasets for drug repurposing research.
  • OMC emerges as a top-performing method for heterogeneous network-based drug repurposing.
  • Standardized evaluation protocols, particularly concerning negative instance handling in cross-validation, are crucial for accurate performance assessment in DR.