Your search keyword '"ChiehYing, Chang"' showing total 2 results

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

Author

Stephen R. Johnson, Dianlin Xie, Lihong Cheng, Yang Hong, John S. Tokarski, Adriana Zupa-Fernandez, Jodi K. Muckelbauer, Mark R. Witmer, Sophie Wu, Chiehying Chang, Donna L. Pedicord, Suzanne C. Edavettal, David S. Weinstein, William J. Pitts, Yuval Blat, James R. Burke, Lisa Elkin, Kristen Pike, and Jeffrey Tredup

Subjects

Models, Molecular, T-Lymphocytes, Allosteric regulation, Biology, Crystallography, X-Ray, Biochemistry, TYK2 Kinase, Enzyme Stability, Functional selectivity, Humans, Molecular Biology, Janus kinase 1, Janus kinase 3, Janus Kinase 3, Receptors, Interleukin-2, Janus Kinase 1, Cell Biology, Protein Structure, Tertiary, Cell biology, Tyrosine kinase 2, Signal transduction, Janus kinase, Receptors, Thrombopoietin, Signal Transduction

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.

Published

2015

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

Author

Tokarski, John S., Zupa-Fernandez, Adriana, Tredup, Jeffrey A., Pike, Kristen, ChiehYing Chang, Dianlin Xie, Lihong Cheng, Pedicord, Donna, Muckelbauer, Jodi, Johnson, Stephen R., Wu, Sophie, Edavettal, Suzanne C., Yang Hong, Witmer, Mark R., Elkin, Lisa L., Blat, Yuval, Pitts, William J., Weinstein, David S., and Burke, James R.

Subjects

*PROTEIN-tyrosine kinases, *CELLULAR signal transduction, *T cells, *AUTOIMMUNITY, *CHEMOGENOMICS

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. [ABSTRACT FROM AUTHOR]

Published

2015