Selective Inhibition of the Immunoproteasome by Ligand‐Induced Crosslinking of the Active Site

Christian Dubiella; Haissi Cui; Malte Gersch; Arwin J. Brouwer; Stephan A. Sieber; Achim Krüger; Rob M. J. Liskamp; M. Groll

doi:10.1002/anie.201406964

Selective Inhibition of the Immunoproteasome by Ligand‐Induced Crosslinking of the Active Site

Christian Dubiella(Center for Integrated Protein Science Munich), Haissi Cui(Technical University of Munich), Malte Gersch(Center for Integrated Protein Science Munich), Arwin J. Brouwer(Utrecht University), Stephan A. Sieber(Center for Integrated Protein Science Munich), Achim Krüger(Technical University of Munich), Rob M. J. Liskamp(Center for Integrated Protein Science Munich), M. Groll(Center for Integrated Protein Science Munich)

Angewandte Chemie International Edition

September 22, 2014

10.1002/anie.201406964

Cited by 91

Abstract

The concept of proteasome inhibition ranks among the latest achievements in the treatment of blood cancer and represents a promising strategy for modulating autoimmune diseases. In this study, we describe peptidic sulfonyl fluoride inhibitors that selectively block the catalytic β5 subunit of the immunoproteasome by inducing only marginal cytotoxic effects. Structural and mass spectrometric analyses revealed a novel reaction mechanism involving polarity inversion and irreversible crosslinking of the proteasomal active site. We thus identified the sulfonyl fluoride headgroup for the development and optimization of immunoproteasome selective compounds and their possible application in autoimmune disorders.

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