There have been many ways to approach the problem of creating new antibiotics, particularly non-β-lactam types (to circumvent resistance). Inevitably, these methods call for screening some large collections of molecules. I was intrigued by a paper in JACS published by Chang and co-workers from the University of Notre Dame. Looking for potential inhibitors, the authors screened 1.2 million compounds from the ZINC database against the X-ray structure of PBP2a of MRSA. The ZINC database was created by the Shoichet lab at the UCSF (Brian is now at the University of Toronto, and is also a member of the SAB of Encycle Therapeutics, a company I started in 2012). The complexes obtained using this method were scored using DOCK, Gold, FlexX, and ChemScore. Subsequently, 29 molecules were synthesized and/or purchased. The lead compound shown below was generated using a comparatively small-scale synthetic campaign, which is the main attractive feature here. This substituted oxadiazole is an exciting entity that offers a new avenue for exploring non-β-lactam inhibitors of PBPs. What is the main lesson here, you might ask? I think it is a clear and demonstrable promise of addressing important problems using modern docking algorithms. Papers such as this underscore the power of screening virtual collections.

http://pubs.acs.org/doi/abs/10.1021/ja500053x