Chromone hybrids as interleukin-6 and acetylcholinesterase inhibitor for treatment of Alzheimer's disease: Design, docking, synthesis and evaluation

Shivam Mishra, Sukhvir Kaur, Gulshan Bansal, Yogita Bansal
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Abstract

The course of Alzheimer's disease (AD) is largely influenced by interleukin-6 (IL-6) and acetylcholinesterase (AChE). Therefore, concurrent suppression of these two targets is a rational approach for the development of anti-AD molecules. The study is aimed to design a molecule with pharmacophore capable of inhibiting both the targets. Four series are designed by coupling a chromone moiety (a pharmacophore that inhibits IL-6) with a N,N-disubstituted amine (that inhibits AChE) through a linker (1–4 carbon chain). The in silico studies on the designed compounds led to the identification of 16 best-fit compounds having good oral bioavailability and blood brain barrier permeability. All 16 compounds were synthesized and evaluated for anti-AChE activity. Six compounds showing >45 % inhibition of AChE at 1 μM concentration are further evaluated for BuChE (butyrylcholinesterase) and IL-6 inhibitory activities. Compound YS3g is the most potent inhibitor of EeAChE (IC50 = 0.45 μM) and of IL-6 (IC50 = 0.46 μM). Subsequently, it is found to show dose-dependent effects in STZ (streptozotocin)-induced memory deficit model at three doses (0.2, 0.4 and 0.8 mg/kg). At higher dose (0.8 mg/kg), it reverses the deficit as also supported by histopathological studies. The findings reveal that a chromone nucleus coupled with a piperazine via a three-carbon linker may be a useful template for developing novel moieties against AD.

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作为治疗阿尔茨海默病的白细胞介素-6 和乙酰胆碱酯酶抑制剂的色酮杂交化合物:设计、对接、合成和评估
阿尔茨海默病(AD)的病程在很大程度上受白细胞介素-6(IL-6)和乙酰胆碱酯酶(AChE)的影响。因此,同时抑制这两个靶点是开发抗 AD 分子的合理方法。本研究旨在设计一种具有药理作用的分子,能够同时抑制这两个靶点。通过连接体(1-4 个碳链)将铬酮分子(抑制 IL-6 的药效源)与 N,N-二取代胺分子(抑制 AChE)连接起来,设计出了四个系列。对所设计的化合物进行硅学研究后,确定了 16 个最适合的化合物,它们具有良好的口服生物利用度和血脑屏障渗透性。对所有 16 个化合物进行了合成和抗 AChE 活性评估。在 1 μM 浓度下对 AChE 的抑制率为 45% 的 6 个化合物被进一步评估了其对 BuChE(丁酰胆碱酯酶)和 IL-6 的抑制活性。化合物 YS3g 是最有效的 EeAChE 抑制剂(IC50 = 0.45 μM)和 IL-6 抑制剂(IC50 = 0.46 μM)。随后,在 STZ(链脲佐菌素)诱导的记忆缺失模型中,发现它在三种剂量(0.2、0.4 和 0.8 毫克/千克)下显示出剂量依赖性效应。在较高剂量(0.8 毫克/千克)下,它能逆转记忆缺陷,组织病理学研究也证明了这一点。研究结果表明,通过三碳连接体将铬酮核与哌嗪耦合在一起,可能是开发抗注意力缺失症新型分子的有用模板。
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