Abstract
Bedaquiline is a novel drug approved in 2012 by the FDA for treatment of drug-resistant tuberculosis (TB). Although it shows high efficacy towards drug-resistant forms of TB, its use has been limited by the potential for significant side effects. In particular, bedaquiline is a very lipophilic compound with an associated long terminal half-life and shows potent inhibition of the cardiac potassium hERG channel, resulting in QTc interval prolongation in humans that may result in cardiac arrhythmia. To address these issues, we carried out a drug discovery programme to develop an improved second generation analogue of bedaquiline. From this medicinal chemistry program, a candidate (TBAJ-876) has been selected to undergo further preclinical evaluation. During this evaluation, three major metabolites arising from TBAJ-876 were observed in several preclinical animal models. We report here our synthetic efforts to unequivocally structurally characterize these three metabolites through their independent directed synthesis.
Highlights
Tuberculosis (TB) is one of the top ten leading causes of death in the world and is the leading cause of death from a single infectious agent
There were no species difference between rat and mouse metabolism of TBAJ-876 and were selected as they were well represented across various preclinical studies
24 [14] was treated with methyl iodide for 72 h to form quaternary ammonium iodide salt which was was washed with water and subsequent elimination liberated pure vinyl compound (Scheme washed with water and subsequent elimination liberated pure vinyl compound 12 (Scheme 7)
Summary
Tuberculosis (TB) is one of the top ten leading causes of death in the world and is the leading cause of death from a single infectious agent. The discovery and regulatory approval of the novel antitubercular agent bedaquiline 1 (TMC207, Sirturo; Figure 1) has been of great significance within the TB community. It has a unique diarylquinoline (DARQ) structure and a novel mechanism of action (inhibition of the mycobacterial ATP synthase [3]), and has shown significant activity against drug-resistant tuberculosis strains (MDR TB, and XDR TB). There were no species difference between rat and mouse metabolism of TBAJ-876 and were selected as they were well represented across various preclinical studies.
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