双叶parpara脂肪酸作为Α-Glucosidase、醛糖还原酶(ALR1)和醛糖还原酶(ALR2)抑制剂的硅基筛选

Adewale A Raji, I. Ajayi, S. Khan, J. Iqbal
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引用次数: 2

摘要

糖尿病是一个世界性的健康问题,由于其并发症,死亡率和发病率很高;这是葡萄糖浓度升高的结果。从天然产物中寻找新的抗糖尿病药物的工作一直在增加。尽管药物的发现是耗时且充满挑战的,因此,计算机筛选现在被用于在有限的时间内进行药物的临床前研究和开发。本研究利用AutoDock Vina软件对与2型糖尿病并发症相关的α-葡萄糖苷酶、ALR1和ALR2酶进行分子对接,通过硅基技术筛选了从大叶伪善种子中提取的脂肪酸。这些酶在葡萄糖代谢中起着不同的作用,并与糖尿病并发症的发生有关。对接研究结果表明,对接的配体(脂肪酸)与酶结合牢固,结合能在-4.12 Kcal mol-1 ~ -13.61 Kcal mol-1之间。α-葡萄糖苷酶对ALR1和ALR2酶的抑制常数分别为微摩尔和纳摩尔。对接分析表明,在酶活性口袋内的配体取向不同,在所有配体中,亚油酸与所有酶的不同氨基酸残基通过氢键形成完美的取向。
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In Silco Screening of Parkia biglobosa Fatty Acids as Inhibitors of Α-Glucosidase, Aldehyde Reductase (ALR1) and Aldose Reductase (ALR2) Enzymes
Diabetes mellitus is a world health problem with high mortality and morbidity due to the complications; as a result of increased level of glucose concentration. The search for new antidiabetic drugs from natural products has been on increase. Though discovery of drug is time consuming with numerous challenges, therefore, in silico screening is now being used for the preclinical search and development of drugs within limited time. In this study, fatty acids determined from P. biglobosa seeds were screened in silico via molecular docking against α-glucosidase, ALR1 and ALR2 enzymes linked to type 2 diabetes mellitus complications using AutoDock Vina. These enzymes play different roles in glucose metabolism and associated to diabetes complications development. The results obtained from the docking studies revealed that docked ligands (fatty acid) bind firmly to the enzymes with the binding energy in the range of -4.12 Kcal mol-1 to -13.61 Kcal mol-1. Inhibition constant obtained for α-glucosidase was in micromolar and nanomolar for both ALR1 and ALR2 enzymes. Docking analysis showed different orientations of the ligands inside the active pocket of the enzymes, of all the ligands, linoleic acid forms perfect orientation with different amino acid residues of all the enzymes via hydrogen bonding formation when compared to the rest of fatty acids.
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