Yu L, Dennis E A
Department of Chemistry, University of California, San Diego, La Jolla 92093.
Proc Natl Acad Sci U S A. 1991 Oct 15;88(20):9325-9. doi: 10.1073/pnas.88.20.9325.
The inhibition of phospholipase A2 by an amide substrate analogue, 1-hexadecylthio-2-hexadecanoyl-amino-1,2-dideoxy-sn-glycero-3-phos phocholine, and a phosphonate transition-state analogue, 1-hexadecylthio-1-deoxy-2-hexadecylphosphono-sn-glycero-3-ph osphocholine, is dramatically influenced by pH. However, these two inhibitors show opposite pH dependencies. The amide analogue acts more potently under basic conditions, whereas the phosphonate acts more potently under acidic conditions. In both cases, ligand binding is perturbed by protonation of an enzyme functional group with an apparent pKa of 6.1, which corresponds to that of a histidine residue. Thus, His-48, which has previously been implicated in catalysis, appears to be critically involved in the hydrogen bond interactions between the enzyme and these two inhibitors. The amide analogue binds most effectively to the enzyme when His-48 is deprotonated. Upon protonation of the histidine residue, the amide cannot form a critical hydrogen bond and loses its ability to interact effectively with the enzyme. In contrast, the phosphonate analogue binds much tighter to the protonated form of the enzyme than to the deprotonated form. The phosphonate analogue needs a bridging hydrogen between the oxygen on its phosphorus atom and the N delta 1 of His-48 to form a strong hydrogen bond. At optimal pH values for inhibitor binding, both the amide and the phosphonate analogues are potent competitive inhibitors of cobra (Naja naja naja) venom phospholipase A2. The IC50 for the amide was 4.4 x 10(-4) mol fraction and for the phosphonate was 1.6 x 10(-5) mol fraction. Under the experimental conditions used, this corresponds to a bulk concentration of 2 microM and 70 nM, respectively.
一种酰胺底物类似物1-十六烷基硫基-2-十六烷酰氨基-1,2-二脱氧-sn-甘油-3-磷酸胆碱和一种膦酸酯过渡态类似物1-十六烷基硫基-1-脱氧-2-十六烷基膦酰基-sn-甘油-3-磷酸胆碱对磷脂酶A2的抑制作用受pH值的显著影响。然而,这两种抑制剂表现出相反的pH依赖性。酰胺类似物在碱性条件下作用更强,而膦酸酯在酸性条件下作用更强。在这两种情况下,配体结合都因酶功能基团质子化而受到干扰,其表观pKa为6.1,这与组氨酸残基的pKa相对应。因此,先前已被认为参与催化作用的His-48似乎在酶与这两种抑制剂之间的氢键相互作用中起关键作用。当His-48去质子化时,酰胺类似物与酶的结合最有效。组氨酸残基质子化后,酰胺无法形成关键的氢键并失去与酶有效相互作用的能力。相反,膦酸酯类似物与酶的质子化形式结合比与去质子化形式结合紧密得多。膦酸酯类似物需要其磷原子上的氧与His-48的Nδ1之间有一个桥连氢来形成强氢键。在抑制剂结合的最佳pH值下,酰胺和膦酸酯类似物都是眼镜蛇(眼镜蛇属印度眼镜蛇)毒液磷脂酶A2的有效竞争性抑制剂。酰胺的IC50为4.4×10^(-4)摩尔分数,膦酸酯的IC50为1.6×10^(-5)摩尔分数。在所使用的实验条件下,这分别对应于2 microM和70 nM的总体浓度。