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Chemoproteomics‐Enabled De Novo Discovery of Photoswitchable Carboxylesterase Inhibitors for Optically Controlled Drug Metabolism

Brendan G. Dwyer, Chao Wang, Daniel Abegg, Brittney Racioppo, Nan Qiu, Zhen‐Sheng Zhao, Dany Pechalrieu, Anton Shuster, Dominic G. Hoch, Alexander Adibekian

2020Angewandte Chemie International Edition28 citationsDOIOpen Access PDF

Abstract

Herein, we report arylazopyrazole ureas and sulfones as a novel class of photoswitchable serine hydrolase inhibitors and present a chemoproteomic platform for rapid discovery of optically controlled serine hydrolase targets in complex proteomes. Specifically, we identify highly potent and selective photoswitchable inhibitors of the drug-metabolizing enzymes carboxylesterases 1 and 2 and demonstrate their pharmacological application by optically controlling the metabolism of the immunosuppressant drug mycophenolate mofetil. Collectively, this proof-of-concept study provides a first example of photopharmacological tools to optically control drug metabolism by modulating the activity of a metabolizing enzyme. Our arylazopyrazole ureas and sulfones offer synthetically accessible scaffolds that can be expanded to identify specific photoswitchable inhibitors for other serine hydrolases, including lipases, peptidases, and proteases. Our chemoproteomic platform can be applied to other photoswitches and scaffolds to achieve optical control over diverse protein classes.

Topics & Concepts

Serine hydrolaseDrug discoverySerineCarboxylesteraseChemistryProteomeEnzymeBiochemistryProteasesComputational biologyHydrolaseSmall moleculeCombinatorial chemistryBiologyPhotochromic and Fluorescence ChemistryPhotoreceptor and optogenetics researchClick Chemistry and Applications
Chemoproteomics‐Enabled De Novo Discovery of Photoswitchable Carboxylesterase Inhibitors for Optically Controlled Drug Metabolism | Litcius