P1‐219: GSM treatment after the onset of Aβ deposition in mice reduces total Aβ load

Background:Alzheimer’s disease (AD) is a common, debilitating neurodegenerative disorder afflicting the aging population. Synaptic accumulation of Aß-protein oligomers and tau might be responsible for the neurological damage in AD. Thus, special interest has emerged in developing treatments that reduce the formation or facilitate the clearance of these oligomers. Utilizing molecular modeling and structure based design techniques we generated a series of novel organic heterocyclic compounds that are capable of recognizing the aggregated Aß-protein molecule and promoting clearance. Using cell-free and cell-based assays, a compound denominated NPT-400 with activity in the high nanomolar range was identified for pharmacokinetic (PK) and preliminary efficacy studies in APP transgenic (tg) mice. Methods: The mThy1-hAPP751 transgenic mouse was utilized for efficacy studies. This mouse combines the Swedish (K670M/N671L) and London (V717I) APPmutations, and these animals develop AD-like neuropathology and behavioral deficits starting at 3-4 months of age. Female non-tg and tg mice (w5 mo of age) received a single injection of vehicle or NPT-400-3 (IP, 10 mg/kg) three times per week for 6.5 weeks. Behavioral assessments were conducted during week 4 of treatment including locomotor activity and water maze. At the completion of treatment, brains were hemisected and tissue sections were processed for immunolabeling and confocal analysis, and homogenates were analyzed for levels of Abeta-protein by ELISA and immunoblot. For PK studies, wildtype C57Bl6 mice received IVor PO NPT-400-3 compound at 10 mg/kg and blood and plasma levels were analyzed at 0-24 hrs. Results: Treatment with NPT-400-3 resulted in a statistically significant normalization of locomotor activity accompanied by amelioration of the synaptic and dendritic pathology in the neocortex and hippocampus. By immunoblot and ELISA the levels of monomeric and oligomeric Aß-protein were statistically significantly reduced in the brains of the APP tg mice. PK studies showed that NPT400-3 is stable in plasma, is orally bioavailable and penetrates the brain with a B/P ratio of 0.8. Conclusions:NPT-400-3 is an orally bioavailable, brain penetrating Aß-protein stabilizing organic compound that reduces the accumulation of Aß-protein oligomers and ameliorates behavioral deficits and neuropathology in APP tg mice without overt adverse effects.