Discovery of cyclic sulfone hydroxyethylamines as potent and selective beta-site APP-cleaving enzyme 1 (BACE1) inhibitors: structure based design and in vivo reduction of amyloid beta-peptidesRueeger, H., Lueoend, R., Rogel, O., Rondeau, J.M., Mobitz, H., Machauer, R., Jacobson, L., Staufenbiel, M., Desrayaud, S., Neumann, U.
(2012) J.Med.Chem. 55: 3364-3386
- PubMed: 22380629
- DOI: 10.1021/jm300069y
- Primary Citation of Related Structures:
- PubMed Abstract:
- Structure-Based Design, synthesis and SAR of cyclic hydroxyethylamine (HEA) BACE-1 inhibitors
Rueeger, H.,Rondeau, J.M.,McCarthy, C.,Moebitz, H.,Tintelnot-Blomley, M.,Neumann, U.,Desrayaud, S.
(2011) Bioorg.Med.Chem.Lett. 21: 1942
Structure-based design of a series of cyclic hydroxyethylamine BACE1 inhibitors allowed the rational incorporation of prime- and nonprime-side fragments to a central core template without any amide functionality. The core scaffold selection and the s ...
Structure-based design of a series of cyclic hydroxyethylamine BACE1 inhibitors allowed the rational incorporation of prime- and nonprime-side fragments to a central core template without any amide functionality. The core scaffold selection and the structure-activity relationship development were supported by molecular modeling studies and by X-ray analysis of BACE1 complexes with various ligands to expedite the optimization of the series. The direct extension from P1-aryl- and heteroaryl moieties into the S3 binding pocket allowed the enhancement of potency and selectivity over cathepsin D. Restraining the design and synthesis of compounds to a physicochemical property space consistent with central nervous system drugs led to inhibitors with improved blood-brain barrier permeability. Guided by structure-based optimization, we were able to obtain highly potent compounds such as 60p with enzymatic and cellular IC(50) values of 2 and 50 nM, respectively, and with >200-fold selectivity over cathepsin D. Pharmacodynamic studies in APP51/16 transgenic mice at oral doses of 180 μmol/kg demonstrated significant reduction of brain Aβ levels.
Department of Global Discovery Chemistry, Institutes for BioMedical Research, Novartis Pharma AG, CH-4057 Basel, Switzerland. email@example.com