Can We Make Small Molecules Lean? Optimization of a Highly Lipophilic TarO Inhibitor.
Mihirbaran MandalZheng TanChristina Madsen-DugganAlexei V BuevichJohn P CaldwellReynalda DejesusAmy FlatteryCharles G GarlisiCharles GillSookhee Nicole HaGinny HoSandra KoseogluMarc LabroliKallol BasuSang Ho LeeLianzhu LiangJenny LiuTodd MayhoodDebra McGuinnessDavid G McLarenXiujuan WenEmma ParmeeDiane RindgenTerry RoemerPayal ShethPaul TawaJames TataChristine YangShu-Wei YangLi XiaoHao WangChristopher TanHaifeng TangPaul WalshErika WalshJin WuJing SuPublished in: Journal of medicinal chemistry (2017)
We describe our optimization efforts to improve the physicochemical properties, solubility, and off-target profile of 1, an inhibitor of TarO, an early stage enzyme in the biosynthetic pathway for wall teichoic acid (WTA) synthesis. Compound 1 displayed a TarO IC50 of 125 nM in an enzyme assay and possessed very high lipophilicity (clogP = 7.1) with no measurable solubility in PBS buffer. Structure-activity relationship (SAR) studies resulted in a series of compounds with improved lipophilic ligand efficiency (LLE) consistent with the reduction of clogP. From these efforts, analog 9 was selected for our initial in vivo study, which in combination with subefficacious dose of imipenem (IPM) robustly lowered the bacterial burden in a neutropenic Staphylococci murine infection model. Concurrent with our in vivo optimization effort using 9, we further improved LLE as exemplified by a much more druglike analog 26.