* State Key Laboratory of Applied Microbiology Southern China, Guangdong Provincial Key Laboratory of Microbial Culture Collection and Application and Guangdong Open Laboratory of Applied Microbiology, Guangdong Institute of Microbiology, Guangzhou 510070, P. R. China.
† Guangdong Yuewei Edible Fungi Technology Co., Guangzhou 510663, P. R. China.
Am J Chin Med. 2018;46(3):585-599. doi: 10.1142/S0192415X18500301. Epub 2018 Mar 29.
Ethanol and water extracts of Armillaria mellea were prepared by directly soaking A. mellea in ethanol (AME) at 65[Formula: see text]C, followed by decocting the remains in water (AMW) at 85[Formula: see text]C. Significantly, AME and AMW at 30, 60 and 120[Formula: see text]mg/kg exhibited excellent hypouricemic actions, causing remarkable declines from hyperuricemic control (351[Formula: see text][Formula: see text]mol/L, [Formula: see text]) to 136, 130 and 115[Formula: see text][Formula: see text]mol/L and 250, 188 and 152[Formula: see text][Formula: see text]mol/L in serum uric acid, correspondingly. In contrast to the evident renal toxicity of allopurinol, these preparations showed little impacts. Moreover, they showed some inhibitory effect on XOD (xanthine oxidase) activity. Compared with hyperuricemic control, protein expressions of OAT1 (organic anion transporter 1) were significantly elevated in AME- and AMW-treated mice. The levels of GLUT9 (glucose transporter 9) expression were significantly decreased by AMW. CNT2 (concentrative nucleoside transporter 2), a key target for purine absorption in gastrointestinal tract was involved in this study, and was verified for its innovative role. Both AME and AMW down-regulated CNT2 proteins in the gastrointestinal tract in hyperuricemic mice. As they exhibited considerable inhibitory effects on XOD, we selected XOD as the target for virtual screening by using molecular docking, and four compounds were hit with high ranks. From the analysis, we concluded that hydrogen bond, Pi-Pi and Pi-sigma interactions might play important roles for their orientations and locations in XOD inhibition.
银耳乙醇和水提取物通过将银耳直接浸泡在 65[Formula: see text]C 的乙醇(AME)中,然后在 85[Formula: see text]C 下水煮剩余物(AMW)来制备。值得注意的是,AME 和 AMW 在 30、60 和 120[Formula: see text]mg/kg 时表现出出色的降尿酸作用,使血尿酸从高尿酸血症对照组(351[Formula: see text][Formula: see text]mol/L,[Formula: see text])显著下降至 136、130 和 115[Formula: see text][Formula: see text]mol/L 和 250、188 和 152[Formula: see text][Formula: see text]mol/L。与别嘌醇明显的肾毒性相比,这些制剂的影响较小。此外,它们对 XOD(黄嘌呤氧化酶)活性表现出一定的抑制作用。与高尿酸血症对照组相比,AME 和 AMW 处理的小鼠中 OAT1(有机阴离子转运体 1)的蛋白表达明显升高。AMW 显著降低 GLUT9(葡萄糖转运蛋白 9)的表达。CNT2(协同核苷转运蛋白 2)是胃肠道中嘌呤吸收的关键靶点,本研究涉及该靶点,并验证了其创新作用。AME 和 AMW 均使高尿酸血症小鼠胃肠道中的 CNT2 蛋白表达下调。由于它们对 XOD 具有相当大的抑制作用,我们选择 XOD 作为虚拟筛选的靶点,使用分子对接进行筛选,有 4 种化合物具有较高的排名。从分析中可以得出结论,氢键、Pi-Pi 和 Pi-sigma 相互作用可能对它们在 XOD 抑制中的取向和位置起着重要作用。
