Discovery of Selective and Orally Bioavailable Protein Kinase Cθ (PKCθ) Inhibitors from a Fragment Hit
Dawn M. George(AbbVie (United States)), Eric C. Breinlinger(AbbVie (United States)), Michael Friedman(AbbVie (United States)), Yang Zhang(WuXi AppTec (China)), Jianfei Wang(WuXi AppTec (China)), M.A. Argiriadi(AbbVie (United States)), Pratima Bansal‐Pakala(AbbVie (United States)), Martine Barth(Inventiva (France)), David B. Duignan(AbbVie (United States)), Prisca Honoré(AbbVie (United States)), Qingyu Lang, Scott W. Mittelstadt(AbbVie (United States)), Dominique Potin(Inventiva (France)), Lian Rundell(AbbVie (United States)), Jeremy J. Edmunds(AbbVie (United States))
Cited by 44Open Access
Abstract
Protein kinase Cθ (PKCθ) regulates a key step in the activation of T cells. On the basis of its mechanism of action, inhibition of this kinase is hypothesized to serve as an effective therapy for autoimmune diseases such as rheumatoid arthritis (RA), inflammatory bowel disease (IBD), and psoriasis. Herein, the discovery of a small molecule PKCθ inhibitor is described, starting from a fragment hit 1 and advancing to compound 41 through the use of structure-based drug design. Compound 41 demonstrates excellent in vitro activity, good oral pharmacokinetics, and efficacy in both an acute in vivo mechanistic model and a chronic in vivo disease model but suffers from tolerability issues upon chronic dosing.
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