Fluorine-containing benzothiazole as a novel trypanocidal agent: design, in silico study, synthesis and activity evaluation

“…This work supports the fact that the kDNA seems to be the main target to explain the anti-T. cruzi effect of BT3 and BT10. Indeed, the concentrations required to inhibit the triosephosphate isomerase are higher than those required to kill trypanosomatids (14,15,23). These data break the paradigm that the trypanocidal effect of benzothiazoles is due to the inhibition of triosephosphate isomerase, as traditionally proposed (13,24,25).…”

“…S1 in the supplemental material). Because BT3 was used as the lead (14) for choosing and synthesizing BT1 to BT14, it was selected for further experiments so as to use this information to unveil the structure/activity relationship of these compounds.…”

“…In the present work, we obtained and evaluated a collection of 14 benzothiazoles (BT1 to BT14) related to previously studied 4-[5-(trifluoromethyl)-1,3-benzothiazol-2-yl] benzoic acid (BT3), which showed relevant anti-T. cruzi trypomastigote activity (14). The antiproliferation activity for all these compounds was initially evaluated in a screening with 25 M each compound.…”

“…In the last 2 decades, large libraries of compounds of diverse chemical nature have been screened for trypanocidal agents (12). Among the selected chemical structures, benzothiazoles (BZTs) have been studied in detail and have been suggested as trypanocides (13)(14)(15). BZTs are a class of bicyclic compounds with a broad spectrum of biological applications, such as neuroprotectors (16), anticonvulsants (17), antioxidants (18), kinase inhibitors (19), anticancer agents (20,21), antimicrobials (22), and leishmanicidals (23).…”

“…In particular, it has been suggested that the trypanocidal effects of benzothiazoles are related to the inhibition of triosephosphate isomerase (TIM) (24,25). In previous work, we reported the development of 4-[5-(trifluoromethyl)-1,3benzothiazol-2-yl] benzoic acid, named BT3, which showed excellent trypanocidal activity on bloodstream trypomastigotes of T. cruzi (14); thus, it was proposed as a new nucleus for the development of trypanocidal agents. The aim of this contribution was to determine the trypanocidal activity of a collection of 14 benzothiazoles structurally related to BT3.…”

A Fluorinated Phenylbenzothiazole Arrests the Trypanosoma cruzi Cell Cycle and Diminishes the Infection of Mammalian Host Cells

“…This work supports the fact that the kDNA seems to be the main target to explain the anti-T. cruzi effect of BT3 and BT10. Indeed, the concentrations required to inhibit the triosephosphate isomerase are higher than those required to kill trypanosomatids (14,15,23). These data break the paradigm that the trypanocidal effect of benzothiazoles is due to the inhibition of triosephosphate isomerase, as traditionally proposed (13,24,25).…”

“…S1 in the supplemental material). Because BT3 was used as the lead (14) for choosing and synthesizing BT1 to BT14, it was selected for further experiments so as to use this information to unveil the structure/activity relationship of these compounds.…”

“…In the present work, we obtained and evaluated a collection of 14 benzothiazoles (BT1 to BT14) related to previously studied 4-[5-(trifluoromethyl)-1,3-benzothiazol-2-yl] benzoic acid (BT3), which showed relevant anti-T. cruzi trypomastigote activity (14). The antiproliferation activity for all these compounds was initially evaluated in a screening with 25 M each compound.…”

“…In the last 2 decades, large libraries of compounds of diverse chemical nature have been screened for trypanocidal agents (12). Among the selected chemical structures, benzothiazoles (BZTs) have been studied in detail and have been suggested as trypanocides (13)(14)(15). BZTs are a class of bicyclic compounds with a broad spectrum of biological applications, such as neuroprotectors (16), anticonvulsants (17), antioxidants (18), kinase inhibitors (19), anticancer agents (20,21), antimicrobials (22), and leishmanicidals (23).…”

“…In particular, it has been suggested that the trypanocidal effects of benzothiazoles are related to the inhibition of triosephosphate isomerase (TIM) (24,25). In previous work, we reported the development of 4-[5-(trifluoromethyl)-1,3benzothiazol-2-yl] benzoic acid, named BT3, which showed excellent trypanocidal activity on bloodstream trypomastigotes of T. cruzi (14); thus, it was proposed as a new nucleus for the development of trypanocidal agents. The aim of this contribution was to determine the trypanocidal activity of a collection of 14 benzothiazoles structurally related to BT3.…”

A Fluorinated Phenylbenzothiazole Arrests the Trypanosoma cruzi Cell Cycle and Diminishes the Infection of Mammalian Host Cells

Phenylbenzothiazole derivatives: effects against a Trypanosoma cruzi infection and toxicological profiles

Design, synthesis and evaluation of benzothiazole derivatives as multifunctional agents