Pyrazole Urea-Based Inhibitors of p38 MAP Kinase:  From Lead Compound to Clinical Candidate

John R. Regan(Boehringer Ingelheim (United States)), Steffen Breitfelder(Boehringer Ingelheim (United States)), Pier F. Cirillo(Boehringer Ingelheim (United States)), Thomas D. Gilmore(Boehringer Ingelheim (United States)), Anne G. Graham(Boehringer Ingelheim (United States)), Eugene R. Hickey(Boehringer Ingelheim (United States)), Klaus Bernhard(Boehringer Ingelheim (United States)), Jeffrey B. Madwed(Boehringer Ingelheim (United States)), Monica Moriak(Boehringer Ingelheim (United States)), Neil Moss(Boehringer Ingelheim (United States)), Chris Pargellis(Boehringer Ingelheim (United States)), Sue Pav(Boehringer Ingelheim (United States)), Alfred Proto(Boehringer Ingelheim (United States)), Alan Swinamer(Boehringer Ingelheim (United States)), Liang Tong(Boehringer Ingelheim (United States)), Carol Torcellini(Boehringer Ingelheim (United States))
Journal of Medicinal Chemistry
May 25, 2002
10.1021/jm020057r
Cited by 350Open Access
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Abstract

We report on a series of N-pyrazole, N'-aryl ureas and their mode of binding to p38 mitogen activated protein kinase. Importantly, a key binding domain that is distinct from the adenosine 5'-triphoshate (ATP) binding site is exposed when the conserved activation loop, consisting in part of Asp168-Phe169-Gly170, adopts a conformation permitting lipophilic and hydrogen bonding interactions between this class of inhibitors and the protein. We describe the correlation of the structure-activity relationships and crystallographic structures of these inhibitors with p38. In addition, we incorporated another binding pharmacophore that forms a hydrogen bond at the ATP binding site. This modification affords significant improvements in binding, cellular, and in vivo potencies resulting in the selection of 45 (BIRB 796) as a clinical candidate for the treatment of inflammatory diseases.

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