| Literature DB >> 29952567 |
James Reuberson1, Helen Horsley1, Richard J Franklin1, Daniel Ford1, Judi Neuss1, Daniel Brookings1, Qiuya Huang2, Bart Vanderhoydonck2, Ling-Jie Gao2, Mi-Yeon Jang2, Piet Herdewijn2, Anant Ghawalkar3, Farnaz Fallah-Arani1, Adnan R Khan1, Jamie Henshall1, Mark Jairaj1, Sarah Malcolm1, Eleanor Ward1, Lindsay Shuttleworth1, Yuan Lin2, Shengqiao Li2, Thierry Louat2, Mark Waer2, Jean Herman2, Andrew Payne1, Tom Ceska1, Carl Doyle1, Will Pitt1, Mark Calmiano1, Martin Augustin4, Stefan Steinbacher4, Alfred Lammens4, Rodger Allen1.
Abstract
The primary target of a novel series of immunosuppressive 7-piperazin-1-ylthiazolo[5,4- d]pyrimidin-5-amines was identified as the lipid kinase, PI4KIIIβ. Evaluation of the series highlighted their poor solubility and unwanted off-target activities. A medicinal chemistry strategy was put in place to optimize physicochemical properties within the series, while maintaining potency and improving selectivity over other lipid kinases. Compound 22 was initially identified and profiled in vivo, before further modifications led to the discovery of 44 (UCB9608), a vastly more soluble, selective compound with improved metabolic stability and excellent pharmacokinetic profile. A co-crystal structure of 44 with PI4KIIIβ was solved, confirming the binding mode of this class of inhibitor. The much-improved in vivo profile of 44 positions it as an ideal tool compound to further establish the link between PI4KIIIβ inhibition and prolonged allogeneic organ engraftment, and suppression of immune responses in vivo.Entities:
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Year: 2018 PMID: 29952567 DOI: 10.1021/acs.jmedchem.8b00521
Source DB: PubMed Journal: J Med Chem ISSN: 0022-2623 Impact factor: 7.446