A Covalent Cysteine-Targeting Kinase Inhibitor of Ire1 Permits Allosteric Control of Endoribonuclease Activity

Overview

Journal Chembiochem

Specialty Biochemistry

Date 2016 Jan 22

PMID 26792008

Citations 7

Authors

Daniel D Waller

Gregor Jansen

Makan Golizeh

Chloe Martel-Lorion

Kurt Dejgaard

Tze Chieh Shiao

John Mancuso

Youla S Tsantrizos

Rene Roy

Michael Sebag

Lekha Sleno

David Y Thomas

Affiliations

Soon will be listed here.

Abstract

The unfolded protein response (UPR) initiated by the transmembrane kinase/ribonuclease Ire1 has been implicated in a variety of diseases. Ire1, with its unique position in the UPR, is an ideal target for the development of therapies; however, the identification of specific kinase inhibitors is challenging. Recently, the development of covalent inhibitors has gained great momentum because of the irreversible deactivation of the target. We identified and determined the mechanism of action of the Ire1-inhibitory compound UPRM8. MS analysis revealed that UPRM8 inhibition occurs by covalent adduct formation at a conserved cysteine at the regulatory DFG+2 position in the Ire1 kinase activation loop. Mutational analysis of the target cysteine residue identified both UPRM8-resistant and catalytically inactive Ire1 mutants. We describe a novel covalent inhibition mechanism of UPRM8, which can serve as a lead for the rational design and optimization of inhibitors of human Ire1.

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