Structure–Activity Relationship for the 4(3<i>H</i>)-Quinazolinone Antibacterials

Renee A. Bouley; Derong Ding; Zhihong Peng; Maria Bastian; Elena Lastochkin; Wei Song; Mark A. Suckow; Valerie A. Schroeder; William R. Wolter; Shahriar Mobashery; Mayland Chang

doi:10.1021/acs.jmedchem.6b00372

Structure–Activity Relationship for the 4(3<i>H</i>)-Quinazolinone Antibacterials

Renee A. Bouley(University of Notre Dame), Derong Ding(University of Notre Dame), Zhihong Peng(University of Notre Dame), Maria Bastian(University of Notre Dame), Elena Lastochkin(University of Notre Dame), Wei Song(University of Notre Dame), Mark A. Suckow(University of Notre Dame), Valerie A. Schroeder(University of Notre Dame), William R. Wolter(University of Notre Dame), Shahriar Mobashery(University of Notre Dame), Mayland Chang(University of Notre Dame)

Journal of Medicinal Chemistry

April 18, 2016

10.1021/acs.jmedchem.6b00372

Cited by 160Open Access

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Abstract

We recently reported on the discovery of a novel antibacterial (2) with a 4(3H)-quinazolinone core. This discovery was made by in silico screening of 1.2 million compounds for binding to a penicillin-binding protein and the subsequent demonstration of antibacterial activity against Staphylococcus aureus. The first structure-activity relationship for this antibacterial scaffold is explored in this report with evaluation of 77 variants of the structural class. Eleven promising compounds were further evaluated for in vitro toxicity, pharmacokinetics, and efficacy in a mouse peritonitis model of infection, which led to the discovery of compound 27. This new quinazolinone has potent activity against methicillin-resistant (MRSA) strains, low clearance, oral bioavailability and shows efficacy in a mouse neutropenic thigh infection model.

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