Anti-schistosomal activities of quinoxaline-containing compounds: From hit identification to lead optimisation

Gilda Padalino, Nelly El-Sakkary, Lawrence J. Liu, Chenxi Liu, Danielle S.G. Harte, Rachel E. Barnes, Edward Sayers, Josephine Forde-Thomas, Helen Whiteland, Marcella Bassetto, Salvatore Ferla, George Johnson, Arwyn T. Jones, Conor R. Caffrey, Iain Chalmers, Andrea Brancale, Karl F. Hoffmann*

*Corresponding author for this work

Research output: Contribution to journalArticlepeer-review

7 Citations (Scopus)
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Abstract

Schistosomiasis is a neglected disease of poverty that is caused by infection with blood fluke species contained within the genus Schistosoma. For the last 40 years, control of schistosomiasis in endemic regions has predominantly been facilitated by administration of a single drug, praziquantel. Due to limitations in this mono-chemotherapeutic approach for sustaining schistosomiasis control into the future, alternative anti-schistosomal compounds are increasingly being sought by the drug discovery community. Herein, we describe a multi-pronged, integrated strategy that led to the identification and further exploration of the quinoxaline core as a promising anti-schistosomal scaffold. Firstly, phenotypic screening of commercially available small molecules resulted in the identification of a moderately active hit compound against Schistosoma mansoni (1, EC50 = 4.59 μM on schistosomula). Secondary exploration of the chemical space around compound 1 led to the identification of a quinoxaline-core containing, non-genotoxic lead (compound 22). Compound 22 demonstrated substantially improved activities on both intra-mammalian (EC50 = 0.44 μM, 0.20 μM and 84.7 nM, on schistosomula, juvenile and adult worms, respectively) and intra-molluscan (sporocyst) S. mansoni lifecycle stages. Further medicinal chemistry optimisation of compound 22, resulting in the generation of 20 additional analogues, improved our understanding of the structure-activity relationship and resulted in considerable improvements in both anti-schistosome potency and selectivity (e.g. compound 30; EC50 = 2.59 nM on adult worms; selectivity index compared to the HepG2 cell line = 348). Some derivatives of compound 22 (e.g. 31 and 33) also demonstrated significant activity against the two other medically important species, Schistosoma haematobium and Schistosoma japonicum. Further optimisation of this class of anti-schistosomal is ongoing and could lead to the development of an urgently needed alternative to praziquantel for assisting in schistosomiasis elimination strategies.

Original languageEnglish
Article number113823
Number of pages19
JournalEuropean Journal of Medicinal Chemistry
Volume226
Early online date15 Sept 2021
DOIs
Publication statusPublished - 15 Dec 2021

Keywords

  • Drug discovery
  • Quinoxaline
  • SAR
  • Schistosomiasis
  • Schistosoma haematobium/drug effects
  • Humans
  • Schistosomiasis mansoni/drug therapy
  • Structure-Activity Relationship
  • Cell Survival/drug effects
  • Dose-Response Relationship, Drug
  • Animals
  • Schistosoma mansoni/drug effects
  • Schistosoma japonicum/drug effects
  • Cell Line, Tumor
  • Molecular Structure
  • Quinoxalines/chemical synthesis

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