基于分子对接的场理论 QSAR 方法研究氨基酮衍生物作为 hNET 和 hDAT 重摄取抑制剂的结构决定因素。

Profiling the structural determinants of aminoketone derivatives as hNET and hDAT reuptake inhibitors by field-based QSAR based on molecular docking.

出版信息

Technol Health Care. 2021;29(S1):257-273. doi: 10.3233/THC-218024.

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC8150508/

Abstract

BACKGROUND

Bupropion, one of the dual norepinephrine and dopamine reuptake inhibitors (NDRIs), is an aminoketone derivative performed effect in improving cognitive function for depression. However, its therapeutic effect is unsatisfactory due to poor clinical response, and there are only few derivatives in pre-clinical settings.

OBJECTIVE

This work attempted to elucidate the essential structural features for the activity and designed a series of novel derivatives with good inhibitive ability, pharmacokinetic and medicinal chemistry properties.

METHODS

The field-based QSAR of aminoketone derivatives of two targets were established based on docking poses, and the essential structural properties for designing novel compounds were supplied by comparing contour maps.

RESULTS

The selected two models performed good predictability and reliability with R2 of 0.8479 and 0.8040 for training set, Q2 of 0.7352 and 0.6266 for test set respectively, and the designed 29 novel derivatives performed no less than the highest active compound with good ADME/T pharmacokinetic properties and medicinal chemistry friendliness.

CONCLUSIONS

Bulky groups in R1, bulky groups with weak hydrophobicity in R3, and potent hydrophobic substituted group with electronegative in R2 from contour maps provided important insights for assessing and designing 29 novel NDRIs, which were considered as candidates for cognitive dysfunction with depression or other related neurodegenerative disorders.

摘要

背景

安非他酮是一种双去甲肾上腺素和多巴胺再摄取抑制剂（NDRIs），是一种氨基酮衍生物，可有效改善抑郁症患者的认知功能。然而，由于临床反应不佳，其治疗效果并不理想，而且在临床前阶段仅有少数几种衍生物。

目的

本研究试图阐明其活性的基本结构特征，并设计了一系列具有良好抑制能力、药代动力学和药物化学性质的新型衍生物。

方法

基于对接构象建立了两种靶标氨基酮衍生物的场基 QSAR，通过比较等高线图提供了设计新型化合物的基本结构特征。

结果

所选的两个模型具有良好的预测能力和可靠性，训练集的 R2 分别为 0.8479 和 0.8040，测试集的 Q2 分别为 0.7352 和 0.6266，设计的 29 种新型衍生物具有良好的 ADME/T 药代动力学性质和药物化学亲合性，其活性不低于最高活性化合物。

结论

等高线图中 R1 中的大基团、R3 中疏水性较弱的大基团以及 R2 中带负电性的强疏水性取代基为评估和设计 29 种新型 NDRIs 提供了重要的见解，这些衍生物可用于治疗伴有抑郁或其他相关神经退行性疾病的认知功能障碍。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/22a8/8150508/769a694f4231/thc-29-thc218024-g001.jpg

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基于分子对接的场理论 QSAR 方法研究氨基酮衍生物作为 hNET 和 hDAT 重摄取抑制剂的结构决定因素。

Profiling the structural determinants of aminoketone derivatives as hNET and hDAT reuptake inhibitors by field-based QSAR based on molecular docking.

出版信息

BACKGROUND

OBJECTIVE

METHODS

RESULTS

CONCLUSIONS

背景

目的

方法

结果

结论

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