Synthesis, in vitro Toxicity, and Antitrypanosomal Activity of Arylated and Diarylated Thiazoles

Chagas disease is a relevant public health threat that affects over 6 million people worldwide, resulting in devastating social and economic consequences. Moreover, the therapeutic options are limited, highlighting the urgency in searching for novel active antitrypanosomal molecules. Compounds with either thiazole or biaryl units have been described as possessing anti Trypanosoma cruzi activities. Therefore, here, we describe the synthesis of nine arylated and diarylated thiazole derivatives and the evaluation of their in vitro toxicity on mammalian cells as well as their anti T. cruzi activity. The compounds were prepared in straightforward synthetic routes, using Hantzsch thiazole synthesis and cross-coupling reactions as key steps. A pyridyl-phenyl-thiazole (PPT) derivative (4c) presented 76% of T. cruzi growth inhibition in preliminary tests using a fixed concentration of 20 µM. This compound was used as a scaffold for the synthesis of two novel PPT analogs (4g and 4h). Dose-response assays on intracellular forms of T. cruzi demonstrated that these three compounds presented high antiparasitic potency (half maximal effective concentration (EC₅₀) values ranging from 1.15 to 2.38 μM) and low toxic profile against L929 cell lines. Hence, these findings highlight the pyridyl-phenyl-thiazole backbone as a novel privileged scaffold in the search for active molecules against T. cruzi.

Keywords:
thiazole; Suzuki cross-coupling; pyridine; Trypanosoma cruzi; antitrypanosomal activity