1. Academic Validation
  2. Design and Synthesis of a Pan-Janus Kinase Inhibitor Clinical Candidate (PF-06263276) Suitable for Inhaled and Topical Delivery for the Treatment of Inflammatory Diseases of the Lungs and Skin

Design and Synthesis of a Pan-Janus Kinase Inhibitor Clinical Candidate (PF-06263276) Suitable for Inhaled and Topical Delivery for the Treatment of Inflammatory Diseases of the Lungs and Skin

  • J Med Chem. 2017 Jan 26;60(2):767-786. doi: 10.1021/acs.jmedchem.6b01634.
Peter Jones 1 2 3 R Ian Storer 1 2 3 Yogesh A Sabnis 1 2 3 Florian M Wakenhut 1 2 3 Gavin A Whitlock 1 2 3 Katherine S England 1 2 3 Takasuke Mukaiyama 1 2 3 Christoph M Dehnhardt 1 2 3 Jotham W Coe 1 2 3 Steve W Kortum 1 2 3 Jill E Chrencik 1 2 3 David G Brown 1 2 3 Rhys M Jones 1 2 3 John R Murphy 1 2 3 Thean Yeoh 1 2 3 Paul Morgan 1 2 3 Iain Kilty 1 2 3
Affiliations

Affiliations

  • 1 Medicine Design, ‡Pharmacokinetics, Dynamics and Metabolism, and §Inflammation and Immunology Research Unit, Pfizer Inc. , 610 Main Street, Cambridge, Massachusetts 02139, United States.
  • 2 Medicine Design, and ⊥Medicinal Sciences, Pfizer Inc. , 445 Eastern Point Road, Groton, Connecticut 06340, United States.
  • 3 Worldwide Medicinal Chemistry, ∇Structural Biology and Biophysics, and ○Pharmaceutical Sciences, Pfizer Ltd. , Ramsgate Road, Sandwich, CT13 9NJ, U.K.
Abstract

By use of a structure-based computational method for identification of structurally novel Janus kinase (JAK) inhibitors predicted to bind beyond the ATP binding site, a potent series of indazoles was identified as selective pan-JAK inhibitors with a type 1.5 binding mode. Optimization of the series for potency and increased duration of action commensurate with inhaled or topical delivery resulted in potent pan-JAK inhibitor 2 (PF-06263276), which was advanced into clinical studies.

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