Human α-thrombin inhibition by the highly selective compounds N-ethoxycarbonyl-d-phe-pro-α-azalys p-nitrophenyl ester and N-carbobenzoxy-pro-α-azalys p-nitrophenyl ester: A kinetic, thermodynamic and x-ray crystallographic study†,1†This paper is dedicated to Professor Mario Guarneri on the occasion of his 75th birthday2Edited by R. Huber

Autor: De Simone, Giuseppina, Balliano, Gianni, Milla, Paola, Gallina, Carlo, Giordano, Cesare, Tarricone, Cataldo, Rizzi, Menico, Bolognesi, Martino, Ascenzi, Paolo
Zdroj: JMB Online (Journal of Molecular Biology); June 20, 1997, Vol. 269 Issue: 4 p558-569, 12p
Abstrakt: Kinetics, thermodynamics and structural aspects of human α-thrombin (thrombin) inhibition by newly synthesized low molecular weight derivatives of α-azalysine have been investigated. The thrombin catalyzed hydrolysis of N-ethoxycarbonyl-d-Phe-Pro-α-azaLys p-nitrophenyl ester (Eoc-d-Phe-Pro-azaLys-ONp) and N-carbobenzoxy-Pro-α-azaLys p-nitrophenyl ester (Cbz-Pro-azaLys-ONp) was investigated at pH 6.2 and 21.0°C, and analyzed in parallel with that of N-α-(N, N-dimethylcarbamoyl)-α-azalysine p-nitrophenyl ester (Dmc-azaLys-ONp). Decarboxylation following the enzymatic hydrolysis of these p-nitrophenyl esters gave the corresponding 1-peptidyl-2(4-aminobutyl) hydrazines (peptidyl-Abh) showing properties of thrombin competitive inhibitors. Therefore, thermodynamics for the reversible binding of d-Phe-Pro-Abh, Cbz-Pro-Abh and Dmc-Abh to thrombin was examined. These results are consistent with the minimum four-step catalytic mechanism for product inhibition of serine proteinases. Eoc-d-Phe-Pro-azaLys-ONp and Eoc-d-Phe-Pro-Abh display a sub-micromolar affinity for thrombin together with a high selectivity versus homologous plasmatic and pancreatic serine proteinases acting on cationic substrates. The three-dimensional structures of the reversible non-covalent thrombin:Eoc-d-Phe-Pro-Abh and thrombin:Cbz-Pro-Abh complexes have been determined by X-ray crystallography at 2.0 A˚ resolution (R-factor = 0.169 and 0.179, respectively), and analyzed in parallel with that of the thrombin:Dmc-azaLys acyl·enzyme adduct. Both Eoc-d-Phe-Pro-Abh and Cbz-Pro-Abh competitive inhibitors are accommodated in the thrombin active center, spanning the region between the aryl binding site and the S1 primary specificity subsite.
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