| Literature DB >> 28322556 |
Mihirbaran Mandal1, Zheng Tan1, Christina Madsen-Duggan1, Alexei V Buevich1, John P Caldwell1, Reynalda Dejesus1, Amy Flattery1, Charles G Garlisi1, Charles Gill1, Sookhee Nicole Ha1, Ginny Ho1, Sandra Koseoglu1, Marc Labroli1, Kallol Basu1, Sang Ho Lee1, Lianzhu Liang1, Jenny Liu1, Todd Mayhood1, Debra McGuinness1, David G McLaren1, Xiujuan Wen1, Emma Parmee1, Diane Rindgen1, Terry Roemer1, Payal Sheth1, Paul Tawa1, James Tata1, Christine Yang1, Shu-Wei Yang1, Li Xiao1, Hao Wang1, Christopher Tan1, Haifeng Tang1, Paul Walsh1, Erika Walsh1, Jin Wu1, Jing Su1.
Abstract
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.Entities:
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Year: 2017 PMID: 28322556 DOI: 10.1021/acs.jmedchem.7b00113
Source DB: PubMed Journal: J Med Chem ISSN: 0022-2623 Impact factor: 7.446