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Synthesis and Anti- Trypanosoma cruzi Activity of New Pyrazole-Thiadiazole Scaffolds.

Thamyris Perez de SouzaLorraine Martins Rocha OrlandoLeonardo da Silva LaraVitoria Barbosa PaesLucas Penha DutraMaurício Silva Dos SantosMirian Claudia de Souza Pereira
Published in: Molecules (Basel, Switzerland) (2024)
Chagas disease, a silent but widespread disease that mainly affects a socioeconomically vulnerable population, lacks innovative safe drug therapy. The available drugs, benznidazole and nifurtimox, are more than fifty years old, have limited efficacy, and carry harmful side effects, highlighting the need for new therapeutics. This study presents two new series of pyrazole-thiadiazole compounds evaluated for trypanocidal activity using cellular models predictive of efficacy. Derivatives 1c (2,4-diCl) and 2k (4-NO 2 ) were the most active against intracellular amastigotes. Derivative 1c also showed activity against trypomastigotes, with the detachment of the flagellum from the parasite body being a predominant effect at the ultrastructural level. Analogs have favorable physicochemical parameters and are predicted to be orally available. Drug efficacy was also evaluated in 3D cardiac microtissue, an important target tissue of Trypanosoma cruzi , with derivative 2k showing potent antiparasitic activity and a significant reduction in parasite load. Although 2k potentially reduced parasite load in the washout assay, it did not prevent parasite recrudescence. Drug combination analysis revealed an additive profile, which may lead to favorable clinical outcomes. Our data demonstrate the antiparasitic activity of pyrazole-thiadiazole derivatives and support the development of these compounds using new optimization strategies.
Keyphrases
  • trypanosoma cruzi
  • molecular docking
  • heart failure
  • drug induced
  • left ventricular
  • small molecule
  • single cell
  • high throughput
  • electronic health record
  • cell therapy
  • molecular dynamics simulations