发现新型 6-(哌啶-1-基磺酰基)-2H-色烯，靶向 α-葡萄糖苷酶、α-淀粉酶和 PPAR-γ：针对 2 型糖尿病的设计、合成、虚拟筛选和抗糖尿病活性

IF 2.6 4区生物学 Q2 BIOLOGY

Computational Biology and Chemistry Pub Date : 2024-05-17 DOI:10.1016/j.compbiolchem.2024.108097

Hamdy Khamees Thabet , Moustafa S. Abusaif , Mohd Imran , Mohamed Hamdy Helal , Saleh Ibrahim Alaqel , Ahmed Alshehri , Abida Ash Mohd , Yousry A. Ammar , Ahmed Ragab

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引用次数: 0

摘要

利用不同的光谱技术合成了一系列新的 2H-亚铬基磺酰胺衍生物 3-12，并对其进行了表征。合成的 2H-亚甲基磺酰胺是通过活化的亚甲基与 5-(哌啶-1-基磺酰基)水杨醛反应，经一步缩合后再进行分子内环化而合成的。对所设计的分子在α-葡萄糖苷酶（PDB：3W37 和 3A4A）上的虚拟筛选显示出良好的结合亲和力，表明这些衍生物可能是潜在的α-葡萄糖苷酶抑制剂。首先在 100 µg/mL 的浓度下进行了体外α-葡萄糖苷酶活性测定，结果表明这些衍生物具有良好的抑制效力，其抑制值为 90.6% 至 96.3%，而阿卡波糖的抑制值为 95.8%。此外，还测定了 IC50 值，所设计的衍生物的抑制效力低于 11 µg/mL。令人惊讶的是，与阿卡波糖（IC50 = 0.805 ± 0.03 µg/mL）相比，两种色烯衍生物 6 和 10 表现出最高的效力，IC50 值分别为 0.975 ± 0.04 和 0.584 ± 0.02 µg/mL。此外，我们的工作还扩展到评估体外α-淀粉酶和PPAR-γ活性，将其作为糖尿病活性的其他靶点。结果表明，α-淀粉酶具有中等活性，而 PPAR-γ 激动剂的效力使其成为一种多重抗糖尿病靶标。与吡格列酮相比（IC50 = 4.884±0.29 µg/mL），活性最强的 2H Chromenes 6 和 10 对 PPAR-γ 具有显著的活性，IC50 值分别为 3.453 ± 0.14 和 4.653 ± 0.04 µg/mL，这表明这些衍生物通过刺激胰岛素敏感性小脂肪细胞的生成来改善胰岛素敏感性。对这些衍生物进行的体内 ADME 分析表明，它们符合 Lipinski 和 Veber 的规则，具有良好的口服生物利用度特性。最后，进行了对接模拟，以解释预期的结合模式和结合亲和力。

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Discovery of novel 6-(piperidin-1-ylsulfonyl)-2H-chromenes targeting α-glucosidase, α-amylase, and PPAR-γ: Design, synthesis, virtual screening, and anti-diabetic activity for type 2 diabetes mellitus

A new series of 2H-chromene-based sulfonamide derivatives 3-12 has been synthesized and characterized using different spectroscopic techniques. The synthesized 2H-chromenes were synthesized by reacting activated methylene with 5-(piperidin-1-ylsulfonyl)salicylaldehyde through one-step condensation followed by intramolecular cyclization. Virtual screening of the designed molecules on α-glucosidase enzymes (PDB: 3W37 and 3A4A) exhibited good binding affinity suggesting that these derivatives may be potential α-glucosidase inhibitors. In-vitro α-glucosidase activity was conducted firstly at 100 µg/mL, and the results demonstrated good inhibitory potency with values ranging from 90.6% to 96.3% compared to IP = 95.8% for Acarbose. Furthermore, the IC₅₀ values were determined, and the designed derivatives exhibited inhibitory potency less than 11 µg/mL. Surprisingly, two chromene derivatives 6 and 10 showed the highest potency with IC₅₀ values of 0.975 ± 0.04 and 0.584 ± 0.02 µg/mL, respectively, compared to Acarbose (IC₅₀ = 0.805 ± 0.03 µg/mL). Moreover, our work was extended to evaluate the in-vitro α-amylase and PPAR-γ activity as additional targets for diabetic activity. The results exhibited moderate activity on α-amylase and potency as PPAR-γ agonist making it a multiplet antidiabetic target. The most active 2H-chromenes 6 and 10 exhibited significant activity to PPAR-γ with IC₅₀ values of 3.453 ± 0.14 and 4.653 ± 0.04 µg/mL compared to Pioglitazone (IC₅₀ = 4.884±0.29 µg/mL) indicating that these derivatives improve insulin sensitivity by stimulating the production of small insulin-sensitive adipocytes. In-silico ADME profile analysis indicated compliance with Lipinski's and Veber's rules with excellent oral bioavailability properties. Finally, the docking simulation was conducted to explain the expected binding mode and binding affinity.

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来源期刊

Computational Biology and Chemistry 生物-计算机：跨学科应用

CiteScore

6.10

自引率

3.20%

发文量

142

审稿时长

24 days

期刊介绍： Computational Biology and Chemistry publishes original research papers and review articles in all areas of computational life sciences. High quality research contributions with a major computational component in the areas of nucleic acid and protein sequence research, molecular evolution, molecular genetics (functional genomics and proteomics), theory and practice of either biology-specific or chemical-biology-specific modeling, and structural biology of nucleic acids and proteins are particularly welcome. Exceptionally high quality research work in bioinformatics, systems biology, ecology, computational pharmacology, metabolism, biomedical engineering, epidemiology, and statistical genetics will also be considered. Given their inherent uncertainty, protein modeling and molecular docking studies should be thoroughly validated. In the absence of experimental results for validation, the use of molecular dynamics simulations along with detailed free energy calculations, for example, should be used as complementary techniques to support the major conclusions. Submissions of premature modeling exercises without additional biological insights will not be considered. Review articles will generally be commissioned by the editors and should not be submitted to the journal without explicit invitation. However prospective authors are welcome to send a brief (one to three pages) synopsis, which will be evaluated by the editors.