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Ligand-Directed Modification of Active Matrix Metalloproteases: Activity-based Probes with no Photolabile Group.

Monika KaminskaPierrick BruyatCarole MalgornMarion DoladilheEvelyne Cassar-LajeunesseCarole Fruchart GaillardMélissa De SouzaFabrice BeauRobert ThaiIsabelle CorreiaAndrzej GalatDimitris GeorgiadisOlivier LequinVincent DiveSarah BregantLaurent Devel
Published in: Angewandte Chemie (International ed. in English) (2021)
Activity-based probes enable discrimination between the active enzyme and its inactive or inactivated counterparts. Since metalloproteases catalysis is non-covalent, activity-based probes targeting them have been systematically developed by decorating reversible inhibitors with photo-crosslinkers. By exploiting two types of ligand-guided chemistry, we identified novel activity-based probes capable of covalently modifying the active site of matrix metalloproteases (MMPs) without any external trigger. The ability of these probes to label recombinant MMPs was validated in vitro and the identity of the main labelling sites within their S3 ' region unambiguously assigned. We also demonstrated that our affinity probes can react with rhMMP12 at nanogram scale (that is, at 0.07 % (w/w)) in complex proteomes. Finally, this ligand-directed chemistry was successfully applied to label active MMP-12 secreted by eukaryote cells. We believe that this approach could be transferred more widely to many other metalloproteases, thus contributing to tackle their unresolved proteomic profiling in vivo.
Keyphrases
  • small molecule
  • living cells
  • fluorescence imaging
  • single molecule
  • nucleic acid
  • induced apoptosis
  • fluorescent probe
  • photodynamic therapy
  • single cell
  • drug discovery
  • drug delivery
  • pi k akt
  • visible light