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新型4-羟基-2H-苯并[e][1,2]噻嗪-3-碳酰肼1,1-二氧化物衍生物作为α-葡萄糖苷酶和α-淀粉酶双重抑制剂的研究:分子对接、生化、酶动力学及体内小鼠模型研究

Exploring of novel 4-hydroxy-2H-benzo[e][1,2]thiazine-3-carbohydrazide 1,1-dioxide derivative as a dual inhibitor of α-glucosidase and α-amylase: Molecular docking, biochemical, enzyme kinetic and in-vivo mouse model study.

作者信息

Taj Saman, Ahmad Matloob, Ashfaq Usman Ali

机构信息

Department of Bioinformatics and Biotechnology, Government College University, Faisalabad, Pakistan.

Department of Chemistry, Government College University, Faisalabad, Pakistan.

出版信息

Int J Biol Macromol. 2022 May 15;207:507-521. doi: 10.1016/j.ijbiomac.2022.03.023. Epub 2022 Mar 8.

DOI:10.1016/j.ijbiomac.2022.03.023
PMID:35276296
Abstract

Diabetes mellitus (DM) is a metabolic disorder that leads to hyperglycemia due to improper insulin secretion. The study aims to investigate the anti-diabetic potential of benzothiazine derivatives. Molecular docking and Molecular Dynamics simulation study revealed that Compound S6 (4-hydroxy-2H-benzo[e][1,2]thiazine-3-carbohydrazide 1,1-dioxide) and S7 (4-Hydroxy-2-methyl-2H-1,2-benzothiazine-3-carbohydrazide 1,1-dioxide) had less conformational changes during MD simulation analysis at 100 ns. Compound S6 and S7 showed potent activity with IC50 values of 5.93 μM, 6.91 μM and 75.17, 29.10 μM for α-glucosidase and α-amylase respectively and competitive type of inhibition was observed during enzyme kinetic study with a low value of Ki and Ki' for α-glucosidase and α-amylase, respectively. S6 has the lowest Ki (0.0736) and Ki' (-0.0982) for α-glucosidase. Furthermore, in vivo studies were carried out to distinguish the effects of the drug on the body. Histology analysis on mice model showed that compound S6 has a low necrosis rate in the liver, kidney, and pancreas compared to S7. Biochemical results of S6 revealed lower sugar level (112 mg/dL), increase insulin secretion (23, 25 μM/L), and low level of cholesterol (80, 85 mg/dL) and creatinine (1.6, 1.4 mg/dL). The results conclude that compound S6 is a new anti-diabetic agent that minimizes hyperglycemia complications.

摘要

糖尿病(DM)是一种代谢紊乱疾病,由于胰岛素分泌不当导致血糖升高。本研究旨在探究苯并噻嗪衍生物的抗糖尿病潜力。分子对接和分子动力学模拟研究表明,化合物S6(4-羟基-2H-苯并[e][1,2]噻嗪-3-碳酰肼1,1-二氧化物)和S7(4-羟基-2-甲基-2H-1,2-苯并噻嗪-3-碳酰肼1,1-二氧化物)在100纳秒的分子动力学模拟分析中构象变化较小。化合物S6和S7表现出强效活性,α-葡萄糖苷酶的IC50值分别为5.93 μM、6.91 μM,α-淀粉酶的IC50值分别为75.17 μM、29.10 μM,并且在酶动力学研究中观察到竞争性抑制类型,α-葡萄糖苷酶和α-淀粉酶的Ki和Ki'值较低。S6对α-葡萄糖苷酶的Ki(0.0736)和Ki'(-0.0982)最低。此外,进行了体内研究以区分药物对身体的影响。对小鼠模型的组织学分析表明,与S7相比,化合物S6在肝脏、肾脏和胰腺中的坏死率较低。S6的生化结果显示血糖水平较低(112毫克/分升)、胰岛素分泌增加(23、25微摩尔/升)、胆固醇水平较低(80、85毫克/分升)和肌酐水平较低(1.6、1.4毫克/分升)。结果表明,化合物S6是一种新的抗糖尿病药物,可将高血糖并发症降至最低。

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