1093980-71-2Relevant academic research and scientific papers
Discovery of novel triazolobenzazepinones as γ-secretase modulators with central Aβ42 lowering in rodents and rhesus monkeys
Fischer, Christian,Zultanski, Susan L.,Zhou, Hua,Methot, Joey L.,Shah, Sanjiv,Hayashi, Ikuo,Hughes, Bethany L.,Moxham, Christopher M.,Bays, Nathan W.,Smotrov, Nadya,Hill, Armetta D.,Pan, Bo-Sheng,Wu, Zhenhua,Moy, Lily Y.,Tanga, Flobert,Kenific, Candia,Cruz, Jonathan C.,Walker, Deborah,Bouthillette, Melanie,Nikov, George N.,Deshmukh, Sujal V.,Jeliazkova-Mecheva, Valentina V.,Diaz, Damaris,Michener, Maria S.,Cook, Jacquelynn J.,Munoz, Benito,Shearman, Mark S.
, p. 3488 - 3494 (2015/08/06)
Abstract Synthesis and SAR studies of novel triazolobenzazepinones as gamma secretase modulators (GSMs) are presented in this communication. Starting from our azepinone leads, optimization studies toward improving central lowering of Aβ42 led to the discovery of novel benzo-fused azepinones. Several benzazepinones were profiled in vivo and found to lower brain Aβ42 levels in Sprague Dawley rats and transgenic APP-YAC mice in a dose-dependent manner after a single oral dose. Compound 34 was further progressed into a pilot study in our cisterna-magna-ported rhesus monkey model, where we observed robust lowering of CSF Aβ42 levels.
TRIAZOLE DERIVATIVES FOR TREATING ALZHEIMER'S DISEASE AND RELATED CONDITIONS
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Page/Page column 38-39, (2009/01/23)
Compounds of formula I: Selectively attenuate production of Aβ(1-42) and hence find use in treatment or prevention of diseases associated with deposition of Aβ in the brain, in particular Alzheimer's disease.
