Study of an inhibitory effect of plant polyphenolic compounds against digestive enzymes using bench-working experimental evidence predicted by molecular docking and dynamics

IF 8.5 1区化学 Q1 BIOCHEMISTRY & MOLECULAR BIOLOGY

International Journal of Biological Macromolecules Pub Date : 2024-01-06 DOI:10.1016/j.ijbiomac.2024.129222

Kaushal Vyas , Supraja Prabaker , Dhamodharan Prabhu , Meenakumari Sakthivelu , Sundararaj Rajamanikandan , Palaniyandi Velusamy , Chia-Hung Su , Subash C.B. Gopinath , Raman Pachaiappan

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Abstract

The substantial nutritional content and diversified biological activity of plant-based nutraceuticals are due to polyphenolic chemicals. These chemicals are important and well-studied plant secondary metabolites. Their protein interactions are extensively studied. This relationship is crucial for the logical development of functional food and for enhancing the availability and usefulness of polyphenols. This study highlights the influence of protein types and polyphenols on the interaction, where the chemical bindings predominantly consist of hydrophobic interactions and hydrogen bonds. The interaction between polyphenolic compounds (PCs) and digestive enzymes concerning their inhibitory activity has not been fully studied. Therefore, we have examined the interaction of four digestive enzymes (α-amylase, pepsin, trypsin, and α-chymotrypsin) with four PCs (curcumin, diosmin, morin, and 2′,3′,4′-trihydroxychalcone) through in silico and in vitro approaches. In vitro plate assays, enzyme kinetics, spectroscopic assays, molecular docking, and simulations were performed. We observed all these PCs have significant docking scores and preferable interaction with the active site of the digestive enzymes, resulting in the reduction of enzyme activity. The enzyme-substrate binding mechanism was determined using the Lineweaver Burk plot, indicating that the inhibition occurred competitively. Among four PCs diosmin and morin has the highest interaction energy over digestive enzymes with IC₅₀ value of 1.13 ± 0.0047 and 1.086 ± 0.0131 μM. Kinetic studies show that selected PCs inhibited pepsin, trypsin, and chymotrypsin competitively and inhibited amylase in a non-competitive manner, especially by 2′,3′,4′-trihydroxychalcone. This study offers insights into the mechanisms by which the selected PCs inhibit the enzymes and has the potential to enhance the application of curcumin, diosmin, morin, and 2′,3′,4′-trihydroxychalcone as natural inhibitors of digestive enzymes.

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利用分子对接和动力学预测的工作台实验证据，研究植物多酚化合物对消化酶的抑制作用

植物营养保健品的丰富营养成分和多样化生物活性归功于多酚化学物质。这些化学物质是重要的植物次生代谢物，也是研究较多的植物次生代谢物。人们对它们与蛋白质的相互作用进行了广泛研究。这种关系对于功能性膳食的合理开发以及提高多酚的可用性和实用性至关重要。本研究强调了蛋白质类型和多酚对相互作用的影响，其中化学结合主要包括疏水相互作用和氢键。关于多酚和消化酶之间的相互作用及其抑制活性，还没有进行充分的研究。因此，我们通过硅学和体外方法研究了四种消化酶（胃蛋白酶、α-淀粉酶、胰蛋白酶和α-糜蛋白酶）与四种多糖（姜黄素、薯蓣皂苷、吗啉和 2′,3′,4′-三羟基查尔酮）的相互作用。我们进行了体外平板试验、酶动力学、光谱测定、分子对接和模拟。我们观察到所有这些 PCs 都有显著的对接得分，并能与消化酶的活性位点发生较好的相互作用，从而降低酶的活性。利用 Lineweaver Burk 图确定了酶与底物的结合机制，结果表明这种抑制作用是竞争性的。在四种多氯联苯中，薯蓣皂苷和吗啉与消化酶的相互作用能最高，其 IC50 值分别为 1.13 ± 0.0047 和 1.086 ± 0.0131 μM。动力学研究表明，所选 PCs 对胃蛋白酶、胰蛋白酶和糜蛋白酶有竞争性抑制作用，而对淀粉酶的抑制作用则是非竞争性的，尤其是对 2′,3′,4′-三羟基查尔酮的抑制作用。这项研究揭示了所选 PCs 对酶的抑制机制，并有可能提高姜黄素、薯蓣皂苷、吗啉和 2′,3′,4′-三羟基查尔酮作为消化酶天然抑制剂的应用价值。

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来源期刊

International Journal of Biological Macromolecules 生物-生化与分子生物学

CiteScore

13.70

自引率

9.80%

发文量

2728

审稿时长

64 days

期刊介绍： The International Journal of Biological Macromolecules is a well-established international journal dedicated to research on the chemical and biological aspects of natural macromolecules. Focusing on proteins, macromolecular carbohydrates, glycoproteins, proteoglycans, lignins, biological poly-acids, and nucleic acids, the journal presents the latest findings in molecular structure, properties, biological activities, interactions, modifications, and functional properties. Papers must offer new and novel insights, encompassing related model systems, structural conformational studies, theoretical developments, and analytical techniques. Each paper is required to primarily focus on at least one named biological macromolecule, reflected in the title, abstract, and text.