Interaction of human leukocyte elastase with a N-aryl azetidinone suicide substrate: Conformational analyses based on the mechanism of action of serine proteinases

I. Vergely , P. Laugâa , M. Reboud-Ravaux
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引用次数: 23

Abstract

The three-dimensional interaction of the enzyme-activated (suicide) inhibitor AA 231-1 [N(2-chloromethyl)-3,3-difluoro-azetidin-2-one] with human leukocyte elastase has been studied using computer graphics and molecular mechanics. Systematic conformational analyses and energy minimizations have been performed for the inhibitor AA 231-1 and its presumed complexes formed during the enzymatic process of inactivation, i.e., the Michaelis complex, the acyl-enzyme, and the inactivated enzyme with the covalently bound inhibitor. The β-lactam ring characteristics of modeled AA 231-1 were in agreement with crystallo-graphic data of related structures. Lowest energy conformatinos were found when the angle between the planes of the β-lactam ring and that of its phenyl substituent was about −60 or 60°. To study the interaction with the enzyne, the enzyme-inhibitor complexes were constructed by docking the inhibitor in the active site using enzyme coordinates from an X-ray crystallographic structure. The whole enzyme structure was used for conformational analyses and energy mechanics. Favorable conformations for the Michaelis complex have been obtained in which the carbonyl oxygen of the inhibitor was located in the oxyanion hole and the hydroxyl of Ser195 was in position to interact with the β-lactam carbonyl carbon on the α face of AA 231-1. Simulations of the approach of the benzylic carbon by the nucleophilic amino acid His40 or His57 through an SN2 displacement on the halomethyl group of AA 231-1 were performed. The results agreed with the alkylation of the imidazole nitroge Nϵ2 of His57 leading to the inactivated enzyme (bis-adduct form).

人白细胞弹性蛋白酶与n -芳基氮杂二酮自杀底物的相互作用:基于丝氨酸蛋白酶作用机制的构象分析
用计算机图形学和分子力学方法研究了酶激活(自杀)抑制剂AA 231-1 [N(2-氯甲基)-3,3-二氟-氮杂丁-2- 1]与人白细胞弹性酶的三维相互作用。对抑制剂AA 231-1及其在酶促失活过程中形成的假定复合物(即Michaelis复合物、酰基酶和与共价结合抑制剂的失活酶)进行了系统的构象分析和能量最小化。模拟AA 231-1的β-内酰胺环特征与相关结构的晶体学数据一致。当β-内酰胺环与苯基取代基环的平面夹角约为−60°或60°时,发现能量最低的构象子。为了研究与酶的相互作用,利用x射线晶体结构的酶坐标将抑制剂对接在活性位点,构建了酶-抑制剂复合物。对酶的整体结构进行了构象分析和能量力学分析。在Michaelis配合物的有利构象中,抑制剂的羰基氧位于氧阴离子孔中,Ser195的羟基与AA 231-1的α面β-内酰胺羰基碳相互作用。模拟了亲核氨基酸His40或His57通过SN2取代AA 231-1的卤甲基来接近苯基碳。结果与His57的咪唑氮Nϵ2的烷基化反应一致,导致失活酶(双加合物形式)。
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