测定两种脂肪酸合酶体系中β-酮酰还原酶的替代底物

Ying-Hui Sun , Qing Cheng , Wei-Xi Tian, Xiao-Dong Wu
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引用次数: 10

摘要

细菌β-酮酰基- acp还原酶(FabG)与哺乳动物脂肪酸合成酶(FAS)中的β-酮酰基还原酶结构域具有相同的功能,都被认为是药物的新靶点。本研究以现有化合物乙酸乙酯(EAA)为替代底物,在340 nm处监测NADPH吸光度的下降,从而测定其活性。此外,在反应体系中HPLC检测到3-羟基丁酸乙酯(EHB),表明EAA的β-酮基团被还原,可以有效地作为FabG和FAS的底物。然后,确定了该取代底物对FabG和FAS的最佳离子强度、pH值、温度和动力学参数等详细的动力学特性。FabG酶对EAA的Km和kcat值分别为127 mM和0.30 s−1,对NADPH的Km和kcat值分别为10.0 μM和0.59 s−1。FAS对应的Km和kcat值为126 mM, EAA为4.63 s−1;NADPH为8.7 μM, 4.09 s−1。此外,还研究了已知抑制剂EGCG对FabG和FAS的抑制动力学。
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A substitutive substrate for measurements of β-ketoacyl reductases in two fatty acid synthase systems

Bacterial β-ketoacyl-ACP reductase (FabG) and the β-ketoacyl reductase domain in mammalian fatty acid synthase (FAS) have the same function and both are rendered as the novel targets for drugs. Herein we developed a convenient method, using an available compound ethyl acetoacetate (EAA) as the substitutive substrate, to measure their activities by monitoring decrease of NADPH absorbance at 340 nm. In addition to the result, ethyl 3-hydroxybutyrate (EHB) was detected by HPLC analysis in the reaction system, indicating that EAA worked effectively as the substrate of FabG and FAS since its β-keto group was reduced. Then, the detailed kinetic characteristics, such as optimal ionic strength, pH value and temperature, and kinetic parameters, for FabG and FAS with this substitutive substrate were determined. The Km and kcat values of FabG obtained for EAA were 127 mM and 0.30 s 1, while those of this enzyme for NADPH were 10.0 μM and 0.59 s 1, respectively. The corresponding Km and kcat values of FAS were 126 mM and 4.63 s 1 for EAA; 8.7 μM and 4.09 s 1 for NADPH. Additionally, the inhibitory kinetics of FabG and FAS, by a known inhibitor EGCG, was also studied.

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