Therapeutic Potential of Coumestan Pks13 Inhibitors for Tuberculosis

Polyketide synthase 13 (Pks13) is an important enzyme found in Mycobacterium tuberculosis ( M. tuberculosis ) that condenses two fatty acyl chains to produce α-alkyl β-ketoesters, which in turn serve as the precursors for the synthesis of mycolic acids that are essential building blocks for maintaining the cell wall integrity of M. tuberculosis Coumestan derivatives have recently been identified in our group as a new chemotype that exert their antitubercular effects via targeting of Pks13. These compounds were active on both drug-susceptible and drug-resistant strains of M. tuberculosis as well as showing low cytotoxicity to healthy cells and a promising selectivity profile. No cross-resistance was found between the coumestan derivatives and first-line TB drugs. Here we report that treatment of M. tuberculosis bacilli with 15 times the MIC of compound 1 , an optimized lead coumestan compound, resulted in a colony forming unit (CFU) reduction from 6.0 log 10 units to below the limit of detection (1.0 log 10 units) per mL culture, demonstrating a bactericidal mechanism of action. Single dose (10 mg/kg) pharmacokinetic studies revealed favorable parameters with a relative bioavailability of 19.4%. In a mouse infection and chemotherapy model, treatment with 1 showed dose-dependent mono-therapeutic activity, whereas treatment with 1 in combination with rifampin showed clear synergistic effects. Together these data suggest that coumestan derivatives are promising agents for further TB drug development.