Journal of Cheminformatics (Nov 2023)

Towards a partial order graph for interactive pharmacophore exploration: extraction of pharmacophores activity delta

  • Etienne Lehembre,
  • Johanna Giovannini,
  • Damien Geslin,
  • Alban Lepailleur,
  • Jean-Luc Lamotte,
  • David Auber,
  • Abdelkader Ouali,
  • Bruno Cremilleux,
  • Albrecht Zimmermann,
  • Bertrand Cuissart,
  • Ronan Bureau

DOI
https://doi.org/10.1186/s13321-023-00782-0
Journal volume & issue
Vol. 15, no. 1
pp. 1 – 18

Abstract

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Abstract This paper presents a novel approach called Pharmacophore Activity Delta for extracting outstanding pharmacophores from a chemogenomic dataset, with a specific focus on a kinase target known as BCR-ABL. The method involves constructing a Hasse diagram, referred to as the pharmacophore network, by utilizing the subgraph partial order as an initial step, leading to the identification of pharmacophores for further evaluation. A pharmacophore is classified as a ‘Pharmacophore Activity Delta’ if its capability to effectively discriminate between active vs inactive molecules significantly deviates (by at least δ standard deviations) from the mean capability of its related pharmacophores. Among the 1479 molecules associated to BCR-ABL binding data, 130 Pharmacophore Activity Delta were identified. The pharmacophore network reveals distinct regions associated with active and inactive molecules. The study includes a discussion on representative key areas linked to different pharmacophores, emphasizing structure–activity relationships.

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