Clery_1995_Biochim.Biophys.Acta_1250_19

Previous results on butyrylcholinesterase-catalyzed hydrolysis of o-nitrophenylbutyrate in the presence of soman, an irreversible inhibitor of cholinesterases, suggested that reversible binding of soman preceding enzyme phophonylation induced a new enzyme conformational state (E'). The purpose of the present study was to determine whether this effect depends on soman itself or is dependent on the presence and nature of substrate or ligand. First, we examined the effect of amiloride, a reversible cholinesterase effector, upon the butyrylcholinesterase-catalyzed hydrolysis of nitrophenyl esters. The effect of amiloride was found to be dependent on the position ortho or para of the substrate nitro group: amiloride acts as a non-linear reversible activator of p-nitrophenyl ester hydrolysis and as a non-linear reversible inhibitor of o-nitrophenyl ester hydrolysis. Second, the effect of amiloride upon hydrolysis of o/p-nitrophenylbutyrate was also studied under perturbing conditions, i.e., as a function of pressure (1-1600 bar) in the presence and absence of soman. Results show that the effect of reversible soman binding on butyrylcholinesterase activity in the presence of amiloride depends on the position of the substrate nitro group and amiloride concentration. Molecular modelling suggests that the presence of amiloride determines the orientation of ortho- and para-nitrophenyl esters in the active-site. gorge. The nitro group of o-nitrophenylbutyrate interacts with the oxyanion hole via hydrogen bonds and its phenyl ring interacts with amiloride whose heterocycle faces Trp-82. The nitro group of p-nitrophenylbutyrate does not interact with the oxyanion hole but points towards Tyr-332; the phenyl ring of p-nitrophenylbutyrate interacts with amiloride but there is no steric constraint on the acyl chain. Thus, the network of interactions in ternary complexes is tighter with o-nitrophenylbutryate as the substrate. There is no evidence for the existence of amiloride and/or soman-induced E' state when p-nitrophenylbutyrate is the substrate. On the other hand, reversible binding of amiloride and/or soman induces new active conformational states that may be either binary (or ternary) enzyme-ligand complex or new free enzyme conformation resulting from long-lived ligand-induced enzyme conformational change when o-nitrophenylbutyrate is the substrate. These ligand-induced states are stabilized by high pressure.