Synthesis, biochemistry, and in silico investigations of isatin-based hydrazone derivatives as monoamine oxidase inhibitors

IF 2.3 3区 农林科学 Q3 FOOD SCIENCE & TECHNOLOGY Applied Biological Chemistry Pub Date : 2024-07-16 DOI:10.1186/s13765-024-00917-3
Naseer Maliyakkal, Jong Min Oh, Sunil Kumar, Prashant Gahori, Anandkumar Tengli, Asmy Appadath Beeran, Hoon Kim, Bijo Mathew
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Abstract

Ten isatin-based hydrazone derivatives were synthesized using two subseries, IA (isatin + acetophenone) and IB (isatin + benzaldehyde), and evaluated for their monoamine oxidases (MAOs) inhibitory activity. All the compounds showed stronger MAO-A inhibition than MAO-B, and the IB series showed more effective MAO-A inhibitory activity than IA series. Compound IB4 most potently inhibited MAO-A (half maximal inhibitory concentration IC50 = 0.015 µM), followed by IB3 (IC50 = 0.019 µM). On the contrary, compound IB3 showed the highest MAO-B inhibition (IC50 = 0.068 µM), followed by IB4 (IC50 = 1.87 µM). Compound IB3 and IB4 had low selectivity indices of 3.68 and 8.50, respectively. Structurally, the methyl group of IA series decreased the inhibition of both MAO-A and MAO-B. Among them, IB3 and IB4 (4-Cl and 4-Br in B-ring, respectively) showed higher MAO-A and MAO-B inhibition than the other substitutions. Inhibition constant Ki values of IB3 and IB4 for MAO-A were 0.0088 and 0.0063 µM, respectively, and those for MAO-B were 0.048 and 0.060 µM, respectively. IB3 and IB4 were competitive, reversible inhibitors of MAO-A and MAO-B. Molecular docking analysis predicted that IB3 and IB4 formed stable hydrogen bonds between Asn181 and the NH atom of isatin in the ligand-protein complex. Dynamic analysis revealed that IB3 and IB4 are stable with both MAO isoforms. These observations suggest IB3 and IB4 are potent and reversible MAO-A and MAO-B inhibitors and both compounds can be used as therapeutic agents for neurological disorders.

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作为单胺氧化酶抑制剂的靛红基腙衍生物的合成、生物化学和硅学研究
研究人员利用 IA(异atin + 苯乙酮)和 IB(异atin + 苯甲醛)两个子系列合成了 10 种异atin 基腙衍生物,并对其单胺氧化酶(MAOs)抑制活性进行了评估。所有化合物对 MAO-A 的抑制作用都强于 MAO-B,而 IB 系列对 MAO-A 的抑制作用比 IA 系列更强。化合物 IB4 对 MAO-A 的抑制作用最强(半最大抑制浓度 IC50 = 0.015 µM),其次是 IB3(IC50 = 0.019 µM)。相反,化合物 IB3 对 MAO-B 的抑制作用最强(IC50 = 0.068 µM),其次是 IB4(IC50 = 1.87 µM)。化合物 IB3 和 IB4 的选择性指数较低,分别为 3.68 和 8.50。从结构上看,IA 系列的甲基降低了对 MAO-A 和 MAO-B 的抑制作用。其中,IB3 和 IB4(B 环上分别有 4-Cl 和 4-Br)对 MAO-A 和 MAO-B 的抑制率高于其他取代物。IB3 和 IB4 对 MAO-A 的抑制常数 Ki 值分别为 0.0088 和 0.0063 µM,对 MAO-B 的抑制常数 Ki 值分别为 0.048 和 0.060 µM。IB3 和 IB4 是 MAO-A 和 MAO-B 的竞争性可逆抑制剂。分子对接分析预测,IB3 和 IB4 在配体-蛋白质复合物中的 Asn181 与异汀的 NH 原子间形成稳定的氢键。动态分析显示,IB3 和 IB4 与 MAO 两种异构体都很稳定。这些观察结果表明,IB3 和 IB4 是强效、可逆的 MAO-A 和 MAO-B 抑制剂,这两种化合物可用作神经系统疾病的治疗药物。
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来源期刊
Applied Biological Chemistry
Applied Biological Chemistry Chemistry-Organic Chemistry
CiteScore
5.40
自引率
6.20%
发文量
70
审稿时长
20 weeks
期刊介绍: Applied Biological Chemistry aims to promote the interchange and dissemination of scientific data among researchers in the field of agricultural and biological chemistry. The journal covers biochemistry and molecular biology, medical and biomaterial science, food science, and environmental science as applied to multidisciplinary agriculture.
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