| Literature DB >> 29166618 |
Takayuki Kondo1, Keiko Imamura1, Misato Funayama2, Kayoko Tsukita2, Michiyo Miyake1, Akira Ohta2, Knut Woltjen3, Masato Nakagawa2, Takashi Asada4, Tetsuaki Arai4, Shinobu Kawakatsu5, Yuishin Izumi6, Ryuji Kaji6, Nobuhisa Iwata7, Haruhisa Inoue8.
Abstract
In the process of drug development, in vitro studies do not always adequately predict human-specific drug responsiveness in clinical trials. Here, we applied the advantage of human iPSC-derived neurons, which offer human-specific drug responsiveness, to screen and evaluate therapeutic candidates for Alzheimer's disease (AD). Using AD patient neurons with nearly 100% purity from iPSCs, we established a robust and reproducible assay for amyloid β peptide (Aβ), a pathogenic molecule in AD, and screened a pharmaceutical compound library. We acquired 27 Aβ-lowering screen hits, prioritized hits by chemical structure-based clustering, and selected 6 leading compounds. Next, to maximize the anti-Aβ effect, we selected a synergistic combination of bromocriptine, cromolyn, and topiramate as an anti-Aβ cocktail. Finally, using neurons from familial and sporadic AD patients, we found that the cocktail showed a significant and potent anti-Aβ effect on patient cells. This human iPSC-based platform promises to be useful for AD drug development.Entities:
Keywords: Alzheimer’s disease; amyloid β; anti-Aβ cocktail; chemical clustering; compound screening; drug repositioning; in vitro trial; patient iPS cells
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Year: 2017 PMID: 29166618 DOI: 10.1016/j.celrep.2017.10.109
Source DB: PubMed Journal: Cell Rep Impact factor: 9.423