Tyrosine Kinase 2-mediated Signal Transduction in T Lymphocytes Is Blocked by Pharmacological Stabilization of Its Pseudokinase Domain

  • J Biol Chem. 2015 Apr 24;290(17):11061-74. doi: 10.1074/jbc.M114.619502.
John S Tokarski  1 Adriana Zupa-Fernandez  2 Jeffrey A Tredup  3 Kristen Pike  4 ChiehYing Chang  1 Dianlin Xie  3 Lihong Cheng  2 Donna Pedicord  5 Jodi Muckelbauer  1 Stephen R Johnson  1 Sophie Wu  3 Suzanne C Edavettal  3 Yang Hong  6 Mark R Witmer  3 Lisa L Elkin  4 Yuval Blat  5 William J Pitts  6 David S Weinstein  6 James R Burke  7
Affiliations
  • 1. From the Departments of Molecular Structure and Design.
  • 2. Immunosciences Biology.
  • 3. Protein Science.
  • 4. the Department of Leads Discovery and Optimization, Bristol-Myers Squibb Research and Development, Wallingford, Connecticut 06492.
  • 5. Leads Discovery and Optimization, and.
  • 6. Discovery Chemistry, Bristol-Myers Squibb Research and Development, Princeton, New Jersey 08543 and.
  • 7. Immunosciences Biology, [email protected].
Abstract

Inhibition of signal transduction downstream of the IL-23 Receptor represents an intriguing approach to the treatment of autoimmunity. Using a chemogenomics approach marrying kinome-wide inhibitory profiles of a compound library with the cellular activity against an IL-23-stimulated transcriptional response in T lymphocytes, a class of inhibitors was identified that bind to and stabilize the pseudokinase domain of the Janus kinase tyrosine kinase 2 (Tyk2), resulting in blockade of receptor-mediated activation of the adjacent catalytic domain. These Tyk2 pseudokinase domain stabilizers were also shown to inhibit Tyk2-dependent signaling through the Type I interferon receptor but not Tyk2-independent signaling and transcriptional cellular assays, including stimulation through the receptors for IL-2 (JAK1- and JAK3-dependent) and thrombopoietin (JAK2-dependent), demonstrating the high functional selectivity of this approach. A crystal structure of the pseudokinase domain liganded with a representative example showed the compound bound to a site analogous to the ATP-binding site in catalytic kinases with features consistent with high ligand selectivity. The results support a model where the pseudokinase domain regulates activation of the catalytic domain by forming receptor-regulated inhibitory interactions. Tyk2 pseudokinase stabilizers, therefore, represent a novel approach to the design of potent and selective agents for the treatment of autoimmunity.

Keywords
Allosteric Regulation; Janus Kinase (JAK); Molecular Pharmacology; Pseudokinase; Signal Transduction; Structural Biology.
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