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新型香豆素基缩氨基硫脲的合成及其通过体外和计算方法在糖尿病管理中的应用。

Synthesis of novel coumarin-based thiosemicarbazones and their implications in diabetic management via in-vitro and in-silico approaches.

机构信息

Institute of Chemical Sciences, Bahauddin Zakariya University, Multan, 60800, Pakistan.

Natural and Medical Sciences Research Centre, University of Nizwa, Birkat Al Mauz, P.O. Box 33, 616, Nizwa, Oman.

出版信息

Sci Rep. 2023 Oct 21;13(1):18014. doi: 10.1038/s41598-023-44837-6.

DOI:10.1038/s41598-023-44837-6
PMID:37865657
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC10590377/
Abstract

Diabetes mellitus has a high prevalence rate and it has been deemed a severe chronic metabolic disorder with long-term complications. This research aimed to identify compounds that could potentially inhibit the vital metabolic enzyme α-glucosidase and thereby exert an anti-hyperglycemic effect. The main goal was to establish an effective approach to control diabetes. To proceed with this study, a series of novel coumarin-derived thiosemicarbazones 3a-3m was synthesized and examined using a variety of spectroscopic methods. Moreover, all the compounds were subjected to α-glucosidase inhibition bioassay to evaluate their antidiabetic potential. Fortunately, all the compounds exhibited several folds potent α-glucosidase inhibitory activities with IC values ranging from 2.33 to 22.11 µM, in comparison to the standard drug acarbose (IC = 873.34 ± 1.67 µM). The kinetic studies of compound 3c displayed concentration-dependent inhibition. Furthermore, the binding modes of these molecules were elucidated through a molecular docking strategy which depicted that the thiosemicarbazide moiety of these molecules plays a significant role in the interaction with different residues of the α-glucosidase enzyme. However, their conformational difference is responsible for their varied inhibitory potential. The molecular dynamics simulations suggested that the top-ranked compounds (3c, 3g and 3i) have a substantial effect on the protein dynamics which alter the protein function and have stable attachment in the protein active pocket. The findings suggest that these molecules have the potential to be investigated further as novel antidiabetic medications.

摘要

糖尿病的患病率很高,它被认为是一种严重的慢性代谢紊乱,伴有长期并发症。这项研究旨在寻找可能抑制重要代谢酶α-葡萄糖苷酶的化合物,从而发挥抗高血糖作用。主要目标是建立一种有效的控制糖尿病的方法。为了进行这项研究,合成了一系列新型香豆素衍生的硫代缩氨基脲 3a-3m,并通过各种光谱方法进行了研究。此外,所有化合物都进行了α-葡萄糖苷酶抑制生物测定,以评估它们的抗糖尿病潜力。幸运的是,与标准药物阿卡波糖(IC = 873.34 ± 1.67 μM)相比,所有化合物都表现出数倍的α-葡萄糖苷酶抑制活性,IC 值范围为 2.33 至 22.11 μM。化合物 3c 的动力学研究显示出浓度依赖性抑制。此外,通过分子对接策略阐明了这些分子的结合模式,该策略表明这些分子的硫代缩氨基脲部分在与α-葡萄糖苷酶酶的不同残基相互作用中起着重要作用。然而,它们的构象差异是导致它们抑制潜力不同的原因。分子动力学模拟表明,排名靠前的化合物(3c、3g 和 3i)对蛋白质动力学有重大影响,改变了蛋白质的功能,并在蛋白质活性口袋中有稳定的结合。研究结果表明,这些分子有可能进一步作为新型抗糖尿病药物进行研究。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/1e26/10590377/b958da6429a5/41598_2023_44837_Fig7_HTML.jpg
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https://cdn.ncbi.nlm.nih.gov/pmc/blobs/1e26/10590377/b958da6429a5/41598_2023_44837_Fig7_HTML.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/1e26/10590377/ff0969e9a2dc/41598_2023_44837_Fig1_HTML.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/1e26/10590377/a87dcb0d007f/41598_2023_44837_Fig2_HTML.jpg
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