Your search keyword '"Verhelst SH"' showing total 2 results

1. Alkyne derivatives of isocoumarins as clickable activity-based probes for serine proteases.

Author

Haedke U, Götz M, Baer P, and Verhelst SH

Subjects

Alkynes chemical synthesis, Animals, Catalysis, Click Chemistry, Copper chemistry, Isocoumarins chemical synthesis, Liver metabolism, Proteome analysis, Rats, Serine Proteases metabolism, Serine Proteinase Inhibitors chemical synthesis, Alkynes chemistry, Isocoumarins chemistry, Serine Proteases chemistry, Serine Proteinase Inhibitors chemistry

Abstract

Activity-based probes (ABPs) have found increasing use in functional proteomics studies. Recently, ABPs that can be employed in combination with click chemistry gained particular attention due to their flexible application in vitro and in vivo. Moreover, there is a continuous need for new ABPs that target small subsets of enzymes. We here report novel clickable ABPs based on the 4-chloro-isocoumarin (IC) electrophile, a mechanism-based inhibitor scaffold that covalently binds serine proteases. We describe the synthesis of a small library of IC ABPs containing an alkyne function and a set of diverse selectivity elements. The different substituents on the IC structure determine which proteases are bound, showing good correlation with the preferred substrate preferences. The IC ABPs can detect their target proteases in a proteome background in a sensitive manner (down to 0.007% of total protein). Furthermore, we show activity-dependent and selective labeling of endogenous proteases in a tissue proteome. These ICs therefore represent a valuable extension to already existing ABPs for serine proteases and may be instrumental in future elucidation of serine protease functions., (Copyright © 2011 Elsevier Ltd. All rights reserved.)

Published

2012

2. Evaluation of alpha,beta-unsaturated ketone-based probes for papain-family cysteine proteases.

Author

Yang Z, Fonović M, Verhelst SH, Blum G, and Bogyo M

Subjects

Animals, Catalytic Domain, Cathepsin B antagonists & inhibitors, Cathepsin B metabolism, Cathepsin L, Cathepsins antagonists & inhibitors, Cathepsins metabolism, Cell Line, Tumor, Cysteine Endopeptidases chemistry, Cysteine Endopeptidases metabolism, Cysteine Proteinase Inhibitors chemical synthesis, Humans, Indicators and Reagents, Ketones chemical synthesis, Mice, Papain chemistry, Papain metabolism, Substrate Specificity, Cathepsin B analysis, Cathepsins analysis, Cysteine Endopeptidases analysis, Cysteine Proteinase Inhibitors chemistry, Fluorescent Dyes chemistry, Ketones chemistry, Molecular Probes chemistry

Abstract

The field of activity-based proteomics makes use of small molecule active site probes to monitor distinct subsets of enzymatic proteins. While a number of reactive functional groups have been applied to activity-based probes (ABPs) that target diverse families of proteases, there remains a continual need for further evaluation of new probe scaffolds and reactive functional groups for use in ABPs. In this study we evaluate the utility of the, alpha,beta-unsaturated ketone reactive group for use in ABPs targeting the papain-family of cysteine proteases. We find that this reactive group shows highly selective labeling of cysteine cathepsins in both intact cells and total cell extracts. We observed a variable degree of background labeling that depended on the type of tag and linker used in the probe synthesis. The relative ease of synthesis of this class of compounds provides the potential for further derivatization to generate new families of cysteine protease ABPs with unique specificity and labeling properties.

Published

2009