Discovery of Cyclic Acylguanidines As Highly Potent and Selective Beta-site Amyloid Cleaving Enzyme (BACE) Inhibitors: Part I--inhibitor Design and Validation

Overview

Journal J Med Chem

Publisher American Chemical Society

Specialty Chemistry

Date 2010 Jan 2

PMID 20043696

Citations 29

Authors

Zhaoning Zhu

Zhong-Yue Sun

Yuanzan Ye

Johannes Voigt

Corey Strickland

Elizabeth M Smith

Jared Cumming

Lingyan Wang

Jesse Wong

Yu-Sen Wang

Daniel F Wyss

Xia Chen

Reshma Kuvelkar

Matthew E Kennedy

Leonard Favreau

Eric Parker

Brian A McKittrick

Andrew Stamford

Michael Czarniecki

William Greenlee

John C Hunter

Affiliations

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Abstract

A number of novel amidine containing heterocycles were designed to reproduce the unique interaction pattern, revealed by X-ray crystallography, between the BACE-1 catalytic diad and a weak NMR screening hit (3), with special attention paid to maintaining the appropriate basicity and limiting the number of H-bonding donors of these scaffolds. The iminohydantoin cores (10 and 23) were examined first and found to interact with the catalytic diad in one of two binding modes (A and B), each with the iminohydantoin core flipped 180 degrees in relation to the other. The amidine structural motif within each core forms a bidentate interaction with a different aspartic acid of the catalytic diad. Both modes reproduced a highly conserved interaction pattern between the inhibitors and the catalytic aspartates, as revealed by 3. Potent iminohydantoin BACE-1 inhibitors have been obtained, validating the molecular design as aspartyl protease catalytic site inhibitors. Brain penetrant small molecule BACE inhibitors with high ligand efficiencies have been discovered, enabling multiple strategies for further development of these inhibitors into highly potent, selective and in vivo efficacious BACE inhibitors.

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