| Title : Free-energy studies reveal a possible mechanism for oxidation-dependent inhibition of MGL - Scalvini_2016_Sci.Rep_6_31046 |
| Author(s) : Scalvini L , Vacondio F , Bassi M , Pala D , Lodola A , Rivara S , Jung KM , Piomelli D , Mor M |
| Ref : Sci Rep , 6 :31046 , 2016 |
|
Abstract :
The function of monoacylglycerol lipase (MGL), a key actor in the hydrolytic deactivation of the endocannabinoid 2-arachidonoyl-sn-glycerol (2AG), is tightly controlled by the cell's redox state: oxidative signals such as hydrogen peroxide suppress MGL activity in a reversible manner through sulfenylation of the peroxidatic cysteines, C201 and C208. Here, using as a starting point the crystal structures of human MGL (hMGL), we present evidence from molecular dynamics and metadynamics simulations along with high-resolution mass spectrometry studies indicating that sulfenylation of C201 and C208 alters the conformational equilibrium of the membrane-associated lid domain of MGL to favour closed conformations of the enzyme that do not permit the entry of substrate into the active site. |
| PubMedSearch : Scalvini_2016_Sci.Rep_6_31046 |
| PubMedID: 27499063 |
Scalvini L, Vacondio F, Bassi M, Pala D, Lodola A, Rivara S, Jung KM, Piomelli D, Mor M (2016)
Free-energy studies reveal a possible mechanism for oxidation-dependent inhibition of MGL
Sci Rep
6 :31046
Scalvini L, Vacondio F, Bassi M, Pala D, Lodola A, Rivara S, Jung KM, Piomelli D, Mor M (2016)
Sci Rep
6 :31046