Aminomethyl-Derived Beta Secretase (BACE1) Inhibitors: Engaging Gly230 without an Anilide Functionality


Journal of Medicinal Chemistry


Christopher R. Butler*† , Kevin Ogilvie§, Luis Martinez-Alsina§, Gabriela Barreiro†, Elizabeth M. Beck†, Charles E. Nolan‡, Kevin Atchison‡, Eric Benvenuti⊥, Leanne Buzon§, Shawn Doran⊥, Cathleen Gonzales‡, Christopher J. Helal§, Xinjun Hou†, Mei-Hui Hsu#, Eric F. Johnson#, Kimberly Lapham⊥, Lorraine Lanyon⊥, Kevin Parris∥, Brian T. O’Neill§, David Riddell‡, Ashley Robshaw‡, Felix Vajdos∥, and Michael A. Brodney†



A growing subset of β-secretase (BACE1) inhibitors for the treatment of Alzheimer’s disease (AD) utilizes an anilide chemotype that engages a key residue (Gly230) in the BACE1 binding site. Although the anilide moiety affords excellent potency, it simultaneously introduces a third hydrogen bond donor that limits brain availability and provides a potential metabolic site leading to the formation of an aniline, a structural motif of prospective safety concern. We report herein an alternative aminomethyl linker that delivers similar potency and improved brain penetration relative to the amide moiety. Optimization of this series identified analogues with an excellent balance of ADME properties and potency; however, potential drug–drug interactions (DDI) were predicted based on CYP 2D6 affinities. Generation and analysis of key BACE1 and CYP 2D6 crystal structures identified strategies to obviate the DDI liability, leading to compound 16, which exhibits robust in vivo efficacy as a BACE1 inhibitor.

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