Discovery of an Atropisomeric PI3Kβ Selective Inhibitor through Optimization of the Hinge Binding Motif

Stephane Perreault; Fatima Arjmand; Jayaraman Chandrasekhar; Jia Hao; Kathleen S Keegan; David Koditek; Eve-Irene Lepist; Clinton K Matson; Mary E McGrath; Leena Patel; Kassandra Sedillo; Joseph Therrien; Nicholas A Till; Adrian Tomkinson; Jennifer Treiberg; Yelena Zherebina; Gary Phillips

doi:10.1021/acsmedchemlett.0c00095

Discovery of an Atropisomeric PI3Kβ Selective Inhibitor through Optimization of the Hinge Binding Motif

ACS Med Chem Lett. 2020 Apr 13;11(6):1236-1243. doi: 10.1021/acsmedchemlett.0c00095. eCollection 2020 Jun 11.

Authors

Stephane Perreault¹, Fatima Arjmand², Jayaraman Chandrasekhar¹, Jia Hao¹, Kathleen S Keegan¹, David Koditek², Eve-Irene Lepist¹, Clinton K Matson¹, Mary E McGrath², Leena Patel¹, Kassandra Sedillo¹, Joseph Therrien¹, Nicholas A Till¹, Adrian Tomkinson², Jennifer Treiberg¹, Yelena Zherebina², Gary Phillips¹

Affiliations

¹ Gilead Sciences, Inc., 199 East Blaine Street, Seattle, Washington 98102, United States.
² Gilead Sciences, Inc., 333 Lakeside Drive, Foster City, California 94404, United States.

Abstract

A series of PI3Kβ selective inhibitors derived from a novel 4-(1H-benzo[d]imidazol-1-yl)quinoline chemotype has been rationally designed. Crucial to achieving the desired selectivity over the other class I PI3K isoforms, including the challenging δ-isoform, was the identification of a subset of substituted pyridine hinge binders. This work led to the discovery of (P)-14, a highly selective and orally bioavailable PI3Kβ inhibitor displaying an excellent pharmacokinetic profile in addition to great cellular potency in various PTEN-deficient tumor cell lines. Results from a dog toxicology study revealing structure-related, off-target ocular toxicity are also briefly discussed.