分子建模和 ADMET 分析带来的启示：含苯并恶唑杂环衍生物的噻唑烷酮的设计、合成及乙酰胆碱酯酶和丁酰胆碱酯酶体外评估

IF 4 2区化学 Q2 CHEMISTRY, PHYSICAL

Journal of Molecular Structure Pub Date : 2024-11-02 DOI:10.1016/j.molstruc.2024.140589

Rafaqat Hussain , Muhammad Irfan Afridi , Shoaib Khan , Yousaf Khan , Tayyiaba Iqbal , Liaqat Rasheed , Mohammad Shahidul Islam , Kholood A. Dahlous

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引用次数: 0

摘要

阿尔茨海默病（AD）是一种脑部疾病，医学上将其定义为患者丧失记忆力和分析推理能力。成年人或老年人更容易受到这种疾病的不利影响。基于这一前景，本研究合成了一类新型的(Z)-2-(((Z)-2-(苯并[d]恶唑-2-基硫基)-1-苯基亚乙基)肼基)-3-苯基噻唑烷-4-酮衍生物，并对其治疗 AD 的性能进行了评估。该研究显示，与标准药物多奈哌齐对 AChE（IC50= 4.10 ± 1.05 µM）和对 BuChE（IC50=6.59 ± 1.63 µM）的抑制潜力相比，苯并咪唑类噻二唑支架对目标酶的抑制潜力范围更广。所有支架对 AChE 的抑制潜力从 2.89 ± 0.65 µM 到 19.04 ± 0.49 µM，对 BuChE 的抑制潜力从 3.70 ± 0.98 µM 到 23.19 ± 0.71 µM。此外，为了研究有效支架与 AChE 和 BuChE 活性位点的结合作用，还进行了分子对接研究，分析数据评估了支架与目标酶的实质性结合作用。利用不同的光谱技术确定了每个支架的结构特征。在这项工作中，发现只有三种类似物最具活性，其 IC50 值分别为 7d（3.05 ± 0.19 µM）、2.90 ± 0.87 µM（对 BuChE）、7g（3.88 ± 0.32 µM）（对 AChE）、4.98 ± 0.54 µM（对 BuChE）、7k（2.89 ± 0.65 µM）（对 AChE）、3.70 ± 0.98 µM（对 BuChE）。此外，还对所选的类似物进行了体内和细胞毒性研究，并对其结构进行了修改，以寻找更具活性的类似物。

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Insight from molecular modeling and ADMET analysis: Design, synthesis and in vitro acetylcholinesterase and butyrylcholinesterase assessment of thiazolidinone containing benzoxazole hybrids derivatives

Alzheimer's disease (AD) is a brain disorder medically defined as loss of memory and analytical reasoning abilities of an infected person. The adult or aged peoples are more likely to be adversely affected by this disease. Following this prospect, this study is conducted to synthesize a novel class of (Z)-2-(((Z)-2-(benzo[d]oxazol-2-ylthio)-1-phenylethylidene)hydrazono)-3-phenylthiazolidin-4-one based derivatives and evaluate its performance towards the treatment of AD. This study showed the better results when compared to the inhibition potential of the standard drug Donepezil against AChE (IC₅₀= 4.10 ± 1.05 µM) and against BuChE (IC₅₀=6.59 ± 1.63 µM), the inhibition potential shown by benzimidazole based thiadiazole scaffolds against the targeted enzymes is of wide range. The inhibition potential of all the scaffolds against AChE ranged from 2.89 ± 0.65 µM to 19.04 ± 0.49 µM and against BuChE ranged from 3.70 ± 0.98 µM to 23.19 ± 0.71 µM. Moreover, to investigate the binding interaction of effective scaffolds against the active sites of AChE and BuChE, molecular docking studies were carried out and the analysis data evaluated the substantial binding interaction of scaffolds against the targeted enzymes. The structural characteristic of each scaffold is determined by using different spectroscopic techniques. In this work only three analogues found to be the most active having the observed IC₅₀ values 7d, 3.05 ± 0.19 µM, 2.90 ± 0.87 µM(for BuChE), 7g, 3.88 ± 0.32 µM(for AChE), 4.98 ± 0.54 µM(for BuChE), 7k 2.89 ± 0.65 µM(for AChE), 3.70 ± 0.98 µM(for BuChE). Furthermore, the selected analogues considered for In-Vivo and cytotoxic study as well as structure modification carried out in search of more active analogues.

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来源期刊

Journal of Molecular Structure 化学-物理化学

CiteScore

7.10

自引率

15.80%

发文量

2384

审稿时长

45 days

期刊介绍： The Journal of Molecular Structure is dedicated to the publication of full-length articles and review papers, providing important new structural information on all types of chemical species including: • Stable and unstable molecules in all types of environments (vapour, molecular beam, liquid, solution, liquid crystal, solid state, matrix-isolated, surface-absorbed etc.) • Chemical intermediates • Molecules in excited states • Biological molecules • Polymers. The methods used may include any combination of spectroscopic and non-spectroscopic techniques, for example: • Infrared spectroscopy (mid, far, near) • Raman spectroscopy and non-linear Raman methods (CARS, etc.) • Electronic absorption spectroscopy • Optical rotatory dispersion and circular dichroism • Fluorescence and phosphorescence techniques • Electron spectroscopies (PES, XPS), EXAFS, etc. • Microwave spectroscopy • Electron diffraction • NMR and ESR spectroscopies • Mössbauer spectroscopy • X-ray crystallography • Charge Density Analyses • Computational Studies (supplementing experimental methods) We encourage publications combining theoretical and experimental approaches. The structural insights gained by the studies should be correlated with the properties, activity and/ or reactivity of the molecule under investigation and the relevance of this molecule and its implications should be discussed.