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  • Responding to the challenge of untreatable gonorrhea: ETX0914, a first-in-class agent with a distinct mechanism-of-action against bacterial Type II topoisomerases.

Responding to the challenge of untreatable gonorrhea: ETX0914, a first-in-class agent with a distinct mechanism-of-action against bacterial Type II topoisomerases.

Scientific reports (2015-07-15)
Gregory S Basarab, Gunther H Kern, John McNulty, John P Mueller, Kenneth Lawrence, Karthick Vishwanathan, Richard A Alm, Kevin Barvian, Peter Doig, Vincent Galullo, Humphrey Gardner, Madhusudhan Gowravaram, Michael Huband, Amy Kimzey, Marshall Morningstar, Amy Kutschke, Sushmita D Lahiri, Manos Perros, Renu Singh, Virna J A Schuck, Ruben Tommasi, Grant Walkup, Joseph V Newman
ABSTRACT

With the diminishing effectiveness of current antibacterial therapies, it is critically important to discover agents that operate by a mechanism that circumvents existing resistance. ETX0914, the first of a new class of antibacterial agent targeted for the treatment of gonorrhea, operates by a novel mode-of-inhibition against bacterial type II topoisomerases. Incorporating an oxazolidinone on the scaffold mitigated toxicological issues often seen with topoisomerase inhibitors. Organisms resistant to other topoisomerase inhibitors were not cross-resistant with ETX0914 nor were spontaneous resistant mutants to ETX0914 cross-resistant with other topoisomerase inhibitor classes, including the widely used fluoroquinolone class. Preclinical evaluation of ETX0914 pharmacokinetics and pharmacodynamics showed distribution into vascular tissues and efficacy in a murine Staphylococcus aureus infection model that served as a surrogate for predicting efficacious exposures for the treatment of Neisseria gonorrhoeae infections. A wide safety margin to the efficacious exposure in toxicological evaluations supported progression to Phase 1. Dosing ETX0914 in human volunteers showed sufficient exposure and minimal adverse effects to expect a highly efficacious anti-gonorrhea therapy.

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Sigma-Aldrich
Levofloxacin, 98.0-102.0% anhydrous basis (HPLC)