Inhibition of 14-kDa PLA2 by 2-acylamino-alkylphospholipids: the influence of amide acidity

Jörg T. Kley, Clemens Unger, Ulrich Massing
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引用次数: 4

Abstract

2-Acylamino-alkyl phospholipids are potent competitive inhibitors of 14-kDa phospholipases A2 (e.g., human nonpancreatic secretory PLA2). As concluded from X-ray studies the amide hydrogen of these inhibitors forms a hydrogen bond to His-48 in the active site of the enzyme. We investigated the quantitative contribution of this hydrogen bond to inhibition using especially designed inhibitors that bear different acyl chains with and without electron withdrawing or donating substituents, thus differing in amide acidity. Relative free enthalpies ΔΔG of enzyme–inhibitor complex formations were calculated from Xi(50) values determined by pH-stat titration using a mixed micelles assay and PLA2 from Naja mocambique mocambique. A quantitative relationship between amide acidity and ΔΔG values is presented. Comparison of isoacidic and isosteric inhibitors reveals that (i) the hydrogen bond of the amide proton to His-48 is crucial for strong PLA2 inhibition, (ii) regardless of the headgroup unsubstituted N-acyl groups result in optimal amide acidity for PLA2 inhibition and (iii) the exceptionally strong inhibition by acetamides and the isosteric fluoroacetamides is due to an additional steric effect.

2-酰基氨基-烷基磷脂对14kda PLA2的抑制作用:酰胺酸度的影响
2-酰基氨基-烷基磷脂是14-kDa磷脂酶A2(例如,人非胰腺分泌PLA2)的有效竞争性抑制剂。从x射线研究中得出结论,这些抑制剂的酰胺氢在酶的活性部位与His-48形成氢键。我们研究了这种氢键对抑制作用的定量贡献,使用了特别设计的抑制剂,这些抑制剂具有不同的酰基链,具有或不具有吸电子或供电子取代基,从而在酰胺酸性方面有所不同。给出了酰胺酸度与ΔΔG值之间的定量关系。等酸抑制剂和等构抑制剂的比较表明:(i)酰胺质子与His-48的氢键对PLA2的强抑制作用至关重要,(ii)无论头基未取代的n -酰基基团如何,都能产生抑制PLA2的最佳酰胺酸度,以及(iii)乙酰酰胺和等构氟乙酰酰胺的异常强抑制作用是由于额外的空间效应。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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