Abis_2019_Commun.Biol_2_188

Reference

Title : 15-deoxy-Delta(12,14)-Prostaglandin J2 inhibits human soluble epoxide hydrolase by a dual orthosteric and allosteric mechanism - Abis_2019_Commun.Biol_2_188
Author(s) : Abis G , Charles RL , Kopec J , Yue WW , Atkinson RA , Bui TTT , Lynham S , Popova S , Sun YB , Fraternali F , Eaton P , Conte MR
Ref : Commun Biol , 2 :188 , 2019
Abstract :

Human soluble epoxide hydrolase (hsEH) is an enzyme responsible for the inactivation of bioactive epoxy fatty acids, and its inhibition is emerging as a promising therapeutical strategy to target hypertension, cardiovascular disease, pain and insulin sensitivity. Here, we uncover the molecular bases of hsEH inhibition mediated by the endogenous 15-deoxy-Delta(12,14)-Prostaglandin J2 (15d-PGJ2). Our data reveal a dual inhibitory mechanism, whereby hsEH can be inhibited by reversible docking of 15d-PGJ2 in the catalytic pocket, as well as by covalent locking of the same compound onto cysteine residues C423 and C522, remote to the active site. Biophysical characterisations allied with in silico investigations indicate that the covalent modification of the reactive cysteines may be part of a hitherto undiscovered allosteric regulatory mechanism of the enzyme. This study provides insights into the molecular modes of inhibition of hsEH epoxy-hydrolytic activity and paves the way for the development of new allosteric inhibitors.

PubMedSearch : Abis_2019_Commun.Biol_2_188
PubMedID: 31123712
Gene_locus related to this paper: human-EPHX2

Related information

Gene_locus human-EPHX2
Family Epoxide_hydrolase
Structure 6I5G    6I5E

Citations formats

Abis G, Charles RL, Kopec J, Yue WW, Atkinson RA, Bui TTT, Lynham S, Popova S, Sun YB, Fraternali F, Eaton P, Conte MR (2019)
15-deoxy-Delta(12,14)-Prostaglandin J2 inhibits human soluble epoxide hydrolase by a dual orthosteric and allosteric mechanism
Commun Biol 2 :188

Abis G, Charles RL, Kopec J, Yue WW, Atkinson RA, Bui TTT, Lynham S, Popova S, Sun YB, Fraternali F, Eaton P, Conte MR (2019)
Commun Biol 2 :188