Discovery of an Extremely Potent Thiazine-Based β-Secretase Inhibitor with Reduced Cardiovascular and Liver Toxicity at a Low Projected Human Dose.
Genta TadanoKazuo KomanoShuhei YoshidaShinji SuzukiKenji NakaharaKouki FuchinoKazuki FujimotoEriko MatsuokaTakahiko YamamotoNaoya AsadaHisanori ItoGaku SakaguchiNaoki KanegawaYasuto KidoShigeru AndoTamio FukushimaArd TeismanVijay UrmaliyaDeborah DhuyvetterHerman BorghysAn Van Den BerghNigel AustinHarrie J M GijsenYoshinori YamanoYasuyoshi IsoKen-Ichi KusakabePublished in: Journal of medicinal chemistry (2019)
Genetic evidence points to deposition of amyloid-β (Aβ) as a causal factor for Alzheimer's disease. Aβ generation is initiated when β-secretase (BACE1) cleaves the amyloid precursor protein. Starting with an oxazine lead 1, we describe the discovery of a thiazine-based BACE1 inhibitor 5 with robust Aβ reduction in vivo at low concentrations, leading to a low projected human dose of 14 mg/day where 5 achieved sustained Aβ reduction of 80% at trough level.