| Literature DB >> 26937601 |
Mihirbaran Mandal1, Yusheng Wu1, Jeffrey Misiaszek1, Guoqing Li1, Alexei Buevich1, John P Caldwell1, Xiaoxiang Liu1, Robert D Mazzola1, Peter Orth1, Corey Strickland1, Johannes Voigt1, Hongwu Wang1, Zhaoning Zhu1, Xia Chen1, Michael Grzelak1, Lynn A Hyde1, Reshma Kuvelkar1, Prescott T Leach1, Giuseppe Terracina1, Lili Zhang1, Qi Zhang1, Maria S Michener1, Brad Smith1, Kathleen Cox1, Diane Grotz1, Leonard Favreau1, Kaushik Mitra1, Irina Kazakevich1, Brian A McKittrick1, William Greenlee1, Matthew E Kennedy1, Eric M Parker1, Jared N Cumming1, Andrew W Stamford1.
Abstract
We describe successful efforts to optimize the in vivo profile and address off-target liabilities of a series of BACE1 inhibitors represented by 6 that embodies the recently validated fused pyrrolidine iminopyrimidinone scaffold. Employing structure-based design, truncation of the cyanophenyl group of 6 that binds in the S3 pocket of BACE1 followed by modification of the thienyl group in S1 was pursued. Optimization of the pyrimidine substituent that binds in the S2'-S2″ pocket of BACE1 remediated time-dependent CYP3A4 inhibition of earlier analogues in this series and imparted high BACE1 affinity. These efforts resulted in the discovery of difluorophenyl analogue 9 (MBi-4), which robustly lowered CSF and cortex Aβ40 in both rats and cynomolgus monkeys following a single oral dose. Compound 9 represents a unique molecular shape among BACE inhibitors reported to potently lower central Aβ in nonrodent preclinical species.Entities:
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Year: 2016 PMID: 26937601 DOI: 10.1021/acs.jmedchem.5b01995
Source DB: PubMed Journal: J Med Chem ISSN: 0022-2623 Impact factor: 7.446