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Kinetic Model of Ethopropazine Interaction with Horse Serum Butyrylcholinesterase and its Docking into the Active Site (CROSBI ID 93153)

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Goličnik, Marko ; Šinko, Goran ; Simeon-Rudolf, Vera ; Grubič, Zoran ; Stojan, Jure Kinetic Model of Ethopropazine Interaction with Horse Serum Butyrylcholinesterase and its Docking into the Active Site // Archives of biochemistry and biophysics, 398 (2002), 1; 23-31-x

Podaci o odgovornosti

Goličnik, Marko ; Šinko, Goran ; Simeon-Rudolf, Vera ; Grubič, Zoran ; Stojan, Jure

engleski

Kinetic Model of Ethopropazine Interaction with Horse Serum Butyrylcholinesterase and its Docking into the Active Site

The action of a potent tricyclic cholinesterase inhibitor ethopropazine on the hydrolysis of acetylthiocholine and butyrylthiocholine by purified horse serum butyrylcholinesterase (EC 3.1.1.8) was investigated at 25 and 37°C. The enzyme activities were measured on a stopped-flow apparatus and the analysis of experimental data was done by applying a six-parameter model for substrate hydrolysis. The model, which was introduced to explain the kinetics of Drosophila melanogaster acetylcholinesterase [Stojan et al. (1998) FEBS Lett. 440, 85–88], is defined with two dissociation constants and four rate constants and can describe both cooperative phenomena, apparent activation at low substrate concentrations and substrate inhibition by excess of substrate. For the analysis of the data in the presence of ethopropazine at two temperatures, we have enlarged the reaction scheme to allow primarily its competition with the substrate at the peripheral site, but the competition at the acylation site was not excluded. The proposed reaction scheme revealed, upon analysis, competitive effects of ethopropazine at both sites; at 25°C, three enzyme–inhibitor dissociation constants could be evaluated; at 37°C, only two constants could be evaluated. Although the model considers both cooperative phenomena, it appears that decreased enzyme sensitivity at higher temperature, predominantly for the ligands at the peripheral binding site, makes the determination of some expected enzyme substrate and/or inhibitor complexes technically impossible. The same reason might also account for one of the paradoxes in cholinesterases: activities at 25°C at low substrate concentrations are higher than at 37°C. Positioning of ethopropazine in the activesite gorge by molecular dynamics simulations shows that A328, W82, D70, and Y332 amino acid residues stabilize binding of the inhibitor.

butyrylcholinesterase; ethopropazine; kinetic model; stopped-flow

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Podaci o izdanju

398 (1)

2002.

23-31-x

objavljeno

0003-9861

Povezanost rada

Kemija

Indeksiranost