Trypanosoma brucei, the causative agent of Human African Trypanosomiasis (HAT) and animal trypanosomiases, cycles between a bloodstream form in mammals and a procyclic form in the gut of its insect vector. We previously discovered that the human bromodomain inhibitor I-BET151 causes transcriptome changes that resemble the transition from the bloodstream to the procyclic form. In particular, I-BET151 induces replacement of variant surface glycoprotein (VSG) with procyclin protein. While modest binding of I-BET151 to TbBdf2 and TbBdf3 has been demonstrated, it is unknown whether I-BET151 binds to other identified T. brucei bromodomain proteins and/or other targets. To identify target(s) in T. brucei, we have synthesized I-BET151 derivatives maintaining the key pharmacophoric elements with functionality useful for chemoproteomic approaches. We identified compounds that are potent in inducing expression of procyclin, delineating a strategy towards the design of drugs against HAT and other trypanosomiases. Furthermore, these derivatives represent useful chemical probes to elucidate the molecular mechanism underlying I-BET151-induced differentiation.
Keywords: Bromodomain; Chemical probes; Human African trypanosomiasis; Inhibitor.