1. Academic Validation
  2. An activity-based probe for the determination of cysteine cathepsin protease activities in whole cells

An activity-based probe for the determination of cysteine cathepsin protease activities in whole cells

  • Anal Biochem. 2004 Dec 15;335(2):218-27. doi: 10.1016/j.ab.2004.09.005.
Jean-Pierre Falgueyret 1 W Cameron Black Wanda Cromlish Sylvie Desmarais Sonia Lamontagne Christophe Mellon Denis Riendeau Sevgi Rodan Paul Tawa Gregg Wesolowski Kathryn E Bass Shankar Venkatraman M David Percival
Affiliations

Affiliation

  • 1 Department of Biochemistry and Molecular Biology, Merck Frosst Centre for Therapeutic Research, Kirkland, Que., Canada.
Abstract

We describe a novel diazomethylketone-containing irreversible inhibitor (BIL-DMK) which is specific for a subset of pharmaceutically important cysteine Cathepsin proteases. BIL-DMK rapidly inactivates cathepsins B, F, K, L, S, and V in isolated Enzyme assays and labels cathepsins in whole cells. The presence of catalytically active cathepsins B, L, and K or S was demonstrated using radioiodinated BIL-DMK in HepG2 (hepatoma), HIG82 (rabbit synoviocyte), and Ramos (B lymphoma) cell lines, respectively. The identity of each protein labeled was confirmed from the isoelectric point and molecular mass of the radioactive spots on two-dimensional gel and by comigration with each Cathepsin as identified by immunoblotting. These cell lines were used to establish whole-cell Enzyme occupancy assays to determine the potency of both irreversible and reversible inhibitors against each Cathepsin in their native cellular lysosomal or endosomal environment. These whole-cell Enzyme occupancy assays are useful to determine the cellular permeability of competing inhibitors and have the advantage of not requiring specific substrates for each Cathepsin of interest.

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