TXA11114: Discovery of an in vivo efficacious efflux pump inhibitor in Pseudomonas aeruginosa

Multi-drug resistance in Pseudomonas aeruginosa is often associated with overexpression of drug efflux pumps which limit antibiotics exposure. So far, successful development of efflux pump inhibitors (EPIs) has been plagued by undesirable toxicities and inconsequential in vivo efficacy. TAXIS Pharmaceuticals Inc. has discovered an effective anti-pseudomonal therapy involving a novel indole carboxamide class of EPI, TXA11114, with a fluorine substituted diamine sidechain, as an adjunctive to levofloxacin. TXA11114 has demonstrated excellent potentiation of levofloxacin MIC by ≥ 8-fold in 90% of Walter-Reed and CDC multi-drug resistant (MDR) isolates. Biophysical and genetic studies with TXA11114 support efflux inhibition while ruling out membrane disruption as a mechanism of action. TXA11114 enhanced the levofloxacin killing and diminished the frequency of resistance emergence to levofloxacin to undetectable levels. Moreover, in murine thigh and lung P. aeruginosa infection models, the TXA11114-levofloxacin combination showed pronounced killing compared to levofloxacin alone, achieving a validated in vivo efficacy milestone that previous EPIs could not. Most importantly, TXA11114 exhibits a safe toxicology profile when screened for cytotoxicity, hERG channel inhibition, in vitro nephrotoxicity, and acute toxicity. Further, pharmacokinetic (PK) parameters of TXA11114 have a complementary profile with that of levofloxacin in plasma and bronchoalveolar lavage fluid (BALF) samples of infected mice, maximizing pharmacodynamic (PD) benefits. Overall, studies on the TXA11114-levofloxacin combination highlight its potential as an anti-pseudomonal agent for combating multidrug-resistant infections.