Journal of Cheminformatics (Apr 2024)

Comprehensive machine learning boosts structure-based virtual screening for PARP1 inhibitors

  • Klaudia Caba,
  • Viet-Khoa Tran-Nguyen,
  • Taufiq Rahman,
  • Pedro J. Ballester

DOI
https://doi.org/10.1186/s13321-024-00832-1
Journal volume & issue
Vol. 16, no. 1
pp. 1 – 17

Abstract

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Abstract Poly ADP-ribose polymerase 1 (PARP1) is an attractive therapeutic target for cancer treatment. Machine-learning scoring functions constitute a promising approach to discovering novel PARP1 inhibitors. Cutting-edge PARP1-specific machine-learning scoring functions were investigated using semi-synthetic training data from docking activity-labelled molecules: known PARP1 inhibitors, hard-to-discriminate decoys property-matched to them with generative graph neural networks and confirmed inactives. We further made test sets harder by including only molecules dissimilar to those in the training set. Comprehensive analysis of these datasets using five supervised learning algorithms, and protein–ligand fingerprints extracted from docking poses and ligand only features revealed one highly predictive scoring function. This is the PARP1-specific support vector machine-based regressor, when employing PLEC fingerprints, which achieved a high Normalized Enrichment Factor at the top 1% on the hardest test set (NEF1% = 0.588, median of 10 repetitions), and was more predictive than any other investigated scoring function, especially the classical scoring function employed as baseline.

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