In-cell Selectivity Profiling of Serine Protease Inhibitors by Activity-based Proteomics

Ludovic C.J Gillet,Kenji Namoto,Alexandra Ruchti,Sjouke Hoving,Danielle Boesch,Bruno Inverardi,Dieter Mueller,Michele Coulot,Patrick Schindler,Patrick Schweigler,Anna Bernardi,Shirley Gil-Parrado

doi:10.1074/mcp.m700505-mcp200

Ludovic C.J Gillet, Kenji Namoto + Show 10 more

Open Access

https://doi.org/10.1074/mcp.m700505-mcp200

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Abstract

Activity-based proteomics is a methodology that is used to quantify the catalytically active subfraction of enzymes present in complex mixtures such as lysates or living cells. To apply this approach for in-cell selectivity profiling of inhibitors of serine proteases, we designed a novel activity-based probe (ABP). This ABP consists of (i) a fluorophosphonate-reactive group, directing the probe toward serine hydrolases or proteases and (ii) an alkyne functionality that can be specifically detected at a later stage with an azide-functionalized reporter group through a Cu(I)-catalyzed coupling reaction ("click chemistry"). This novel ABP was shown to label the active site of several serine proteases with greater efficiency than a previously reported fluorophosphonate probe. More importantly, our probe was cell-permeable and achieved labeling of enzymes within living cells with efficiency similar to that observed for the corresponding lysate fraction. Several endogenous serine hydrolases whose activities were detected upon in-cell labeling were identified by two-dimensional gel and MS analyses. As a proof of principle, cell-permeable inhibitors of an endogenous serine protease (prolyl endopeptidase) were assessed for their potency and specificity in competing for the in situ labeling of the selected enzyme. Altogether these results open new perspectives for safety profiling studies in uncovering potential cellular "side effects" of drugs (unanticipated off-target inhibition or activation) that may be overlooked by standard selectivity profiling methods.

Highlights

Activity-based proteomics is a methodology that is used to quantify the catalytically active subfraction of enzymes present in complex mixtures such as lysates or living cells
To profile enzymatic activities in biological samples, activity-based proteomics relies on small reactive marker molecules called activity-based probes (ABPs),1 which covalently and label the accessible active sites of catalytic enzymes [1,2,3]
Click Chemistry Serine Hydrolase Probe: Design, Preparation, and Labeling Characterization—To achieve specific and efficient labeling of serine hydrolases in intact cells, a novel activity-based probe was designed, combining an FP-reactive group with a polyethylene glycol linker and an alkyne functionality (FP-alkyne [1], Fig. 1A)

Summary

Introduction

Activity-based proteomics is a methodology that is used to quantify the catalytically active subfraction of enzymes present in complex mixtures such as lysates or living cells. This novel FP-alkyne probe was shown to achieve efficient in situ labeling of enzymatic activities within living cells and proved to be a valuable tool to assess in-cell selectivity profiling of serine protease inhibitors.

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