Discovery and characterization of QPT-1, the progenitor of a new class of bacterial topoisomerase inhibitors |
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| Authors: | Miller Alita A Bundy Gordon L Mott John E Skepner Jill E Boyle Timothy P Harris Douglas W Hromockyj Alexander E Marotti Keith R Zurenko Gary E Munzner Jennifer B Sweeney Michael T Bammert Gary F Hamel Judith C Ford Charles W Zhong Wei-Zhu Graber David R Martin Gary E Han Fusen Dolak Lester A Seest Eric P Ruble J Craig Kamilar Gregg M Palmer John R Banitt Lee S Hurd Alexander R Barbachyn Michael R |
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| Affiliation: | Infectious Diseases Biology and Medicinal Chemistry, Pharmacia Corporation, 301 Henrietta St., Kalamazoo, Michigan 49001, USA. alita.a.miller@pfizer.com |
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| Abstract: | ![]()
QPT-1 was discovered in a compound library by high-throughput screening and triage for substances with whole-cell antibacterial activity. This totally synthetic compound is an unusual barbituric acid derivative whose activity resides in the (-)-enantiomer. QPT-1 had activity against a broad spectrum of pathogenic, antibiotic-resistant bacteria, was nontoxic to eukaryotic cells, and showed oral efficacy in a murine infection model, all before any medicinal chemistry optimization. Biochemical and genetic characterization showed that the QPT-1 targets the beta subunit of bacterial type II topoisomerases via a mechanism of inhibition distinct from the mechanisms of fluoroquinolones and novobiocin. Given these attributes, this compound represents a promising new class of antibacterial agents. The success of this reverse genomics effort demonstrates the utility of exploring strategies that are alternatives to target-based screens in antibacterial drug discovery. |
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