Cinnamic acid and its derivatives on dipeptidyl peptidase 4: Structure-activity relationship and mechanism of inhibition

IF 4.8 1区 农林科学 Q1 FOOD SCIENCE & TECHNOLOGY Food Bioscience Pub Date : 2024-09-07 DOI:10.1016/j.fbio.2024.105076
Jiaying Li, Xiaoping Yang, Chunhong Xiong, Jinsheng Zhang, Ganhui Huang
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Abstract

Dipeptidyl peptidase 4 (DPP4), which breaks down glucagon-like peptide 1 (GLP-1), is closely associated with glucose metabolism, and the inhibition of this enzyme is one of the important targets for the treatment of diabetes. Traditionally cinnamon and bitter melon have been in wide use in diabetes treatment, and cinnamic acid (CIA) as its main ingredient is expected to be an ideal DPP4 inhibitor. In vitro inhibition experiments showed that CIA had the lowest IC50 (33.56 ± 1.13 mM) compared to the other substances in the study, suggesting that it was more effective in inhibiting DPP4. Analyses showed that adding hydroxyl and methyl groups to CIA's aromatic ring reduced its effect on DPP4; CIA and its derivatives were inhibited in a mixed way. With the exception of ferulic acid (FA), CIA and its derivatives quenched the fluorescence of DPP4 via a static quenching mechanism. Thermodynamic parameters show that the binding of CIA (the most inhibitory compound) to DPP4 was spontaneous and driven by hydrogen bonding. Atomic force microscopy and circular dichroism spectroscopy analyses reveal that upon binding with DPP4, CIA underwent a conformational change. Molecular docking results highlight, while introducing hydroxyl and methoxy groups on the aromatic ring, the superior binding capacity of CIA diminished. The study confirms that CIA is an ideal inhibitor with the highest absolute value of binding energy (−5.8) and the lowest IC50 compared to other substances. By clarifying the inhibition mechanism of DPP4,the study thus provides dietary guidance for diabetic patients.

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肉桂酸及其衍生物对二肽基肽酶 4 的影响:结构-活性关系和抑制机制
二肽基肽酶 4(DPP4)能分解胰高血糖素样肽 1(GLP-1),与葡萄糖代谢密切相关,抑制该酶是治疗糖尿病的重要靶点之一。肉桂和苦瓜历来被广泛用于治疗糖尿病,而肉桂酸(CIA)作为其主要成分,有望成为理想的 DPP4 抑制剂。体外抑制实验表明,与研究中的其他物质相比,肉桂酸的 IC50 最低(33.56 ± 1.13 mM),这表明肉桂酸能更有效地抑制 DPP4。分析表明,在 CIA 的芳香环上添加羟基和甲基会降低其对 DPP4 的作用;CIA 及其衍生物的抑制作用是混合的。除阿魏酸(FA)外,CIA 及其衍生物通过静态淬灭机制淬灭 DPP4 的荧光。热力学参数表明,CIA(抑制作用最强的化合物)与 DPP4 的结合是自发的,由氢键驱动。原子力显微镜和圆二色性光谱分析显示,CIA 与 DPP4 结合后发生了构象变化。分子对接结果表明,在芳香环上引入羟基和甲氧基时,CIA 的卓越结合能力减弱。研究证实,CIA 是一种理想的抑制剂,与其他物质相比,它的结合能绝对值最高(-5.8),IC50 最低。通过阐明 DPP4 的抑制机制,该研究为糖尿病患者提供了饮食指导。
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上海源叶 Gly-Pro-pNA (hydrochloride)
上海源叶 VA
上海源叶 CIA
上海源叶 PHCA
上海源叶 CA
上海源叶 FA
上海源叶 Alogliptin
上海源叶 IFA
来源期刊
Food Bioscience
Food Bioscience Biochemistry, Genetics and Molecular Biology-Biochemistry
CiteScore
6.40
自引率
5.80%
发文量
671
审稿时长
27 days
期刊介绍: Food Bioscience is a peer-reviewed journal that aims to provide a forum for recent developments in the field of bio-related food research. The journal focuses on both fundamental and applied research worldwide, with special attention to ethnic and cultural aspects of food bioresearch.
期刊最新文献
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