In-silico Design, ADMET Screening, Prime MM-GBSA Binding Free Energy Calculation and MD Simulation of Some Novel Phenothiazines as 5HT6R Antagonists Targeting Alzheimer's Disease.

Current computer-aided drug design Pub Date : 2024-01-09 DOI:10.2174/0115734099282836231212064925

Prema V, Meena A, Ramalakshmi N

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Abstract

Background: Alzheimer's disease is a type of dementia that affects neuronal function, leading to a decline in cognitive functions. Serotonin-6 (5HT6) receptors are implicated in the etiology of neurological diseases. 5HT6 receptor antagonists act as anti-dementia agents.

Pdb id: 7YS6 represents a membrane protein, and amplification and overexpression of this protein are associated with Alzheimer's disease. Coumarin-fused phenothiazines are significant anti-Alzheimer's agents due to their inhibitory activity on the Serotonin- 6 receptor.

Objectives: Numerous previously unreported Coumarin-substituted Phenothiazines [A2 to A50] were designed using in-silico methods to evaluate their 5HT6 receptor antagonistic activity. Molecular modeling techniques were employed to study the ligands [A2 to A50] in interaction with the Serotonin-6 receptor (PDB ID: 7YS6) using Schrödinger Suite 2019-4.

Methods: Molecular modeling studies of the designed ligands [A2 to A50] were conducted using the Glide module. In-silico ADMET screening was performed using the QikProp module, and binding free energy calculations were carried out using the Prime MM-GBSA module within the Schrödinger Suite. The binding affinity of the designed ligands [A2 to A50] towards 5HT6 receptors was determined based on Glide scores. Subsequently, ligand A31 underwent a 100 ns molecular dynamics simulation using the Desmond module of Schrödinger Suite 2020-1, which is based in New York, NY.

Results: The majority of the designed ligands exhibited strong hydrogen bonding interactions and hydrophobic associations with the serotonin-6 receptor, which hinder its activity. These ligands achieved remarkable Glide scores within the range of -4.2859 to -7.7128, in comparison to reference standards such as Idalopirdine (-7.78149), Intepirdine (-5.20103), Latrepirdine (-5.54853), and the co-crystallized ligand (-7.02889). In-silico ADMET properties for these ligands fell within the recommended values for drug-likeness. It is worth noting that the MM-GBSA binding free energy of the most potent inhibitor was positive, indicating a strong binding interaction. Additionally, the dynamic behavior of the protein (7YS6)-ligand (A31) complex was studied by subjecting ligand A31 to a 100 ns molecular dynamics simulation.

Conclusion: The results of this study reveal strong evidence supporting the potential of coumarin- substituted phenothiazine derivatives as effective Serotonin-6 receptor antagonists. Ligands [A2 to A50], which exhibited noteworthy Glide scores, hold promise for significant anti- Alzheimer activity. Further in-vitro and in-vivo investigations are warranted to explore and confirm their therapeutic potential.

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将一些新型吩噻嗪类药物作为针对阿尔茨海默病的 5HT6R 拮抗剂的硅内设计、ADMET 筛选、Prime MM-GBSA 结合自由能计算和 MD 模拟。

背景：阿尔茨海默病是一种影响神经元功能的痴呆症，会导致认知功能下降。羟色胺-6（5HT6）受体与神经系统疾病的病因有关。5HT6 受体拮抗剂可作为抗痴呆药物。Pdb id: 7YS6 代表一种膜蛋白，这种蛋白的扩增和过表达与阿尔茨海默病有关。香豆素融合的吩噻嗪类药物对羟色胺-6 受体具有抑制活性，是重要的抗阿尔茨海默氏症药物：目的：我们采用室内方法设计了许多以前未报道过的香豆素取代的吩噻嗪类药物 [A2 至 A50]，以评估它们对 5HT6 受体的拮抗活性。使用 Schrödinger Suite 2019-4.Methods 对配体 [A2 至 A50] 与羟色胺-6 受体（PDB ID：7YS6）的相互作用进行了分子建模研究：使用 Glide 模块对设计的配体 [A2 至 A50] 进行了分子建模研究。使用 QikProp 模块进行了体内 ADMET 筛选，并使用薛定谔套件中的 Prime MM-GBSA 模块进行了结合自由能计算。根据 Glide 分数确定了设计配体 [A2 至 A50] 与 5HT6 受体的结合亲和力。随后，使用 Schrödinger Suite 2020-1 中的 Desmond 模块对配体 A31 进行了 100 ns 的分子动力学模拟：结果：所设计的配体大多与血清素-6 受体有很强的氢键相互作用和疏水作用，从而阻碍了其活性。与 Idalopirdine（-7.78149）、Intepirdine（-5.20103）、Latrepirdine（-5.54853）和共晶体配体（-7.02889）等参考标准相比，这些配体在-4.2859 至 -7.7128之间取得了显著的 Glide 分数。这些配体的硅内 ADMET 属性符合药物亲和性的推荐值。值得注意的是，最有效抑制剂的 MM-GBSA 结合自由能为正值，表明其具有很强的结合相互作用。此外，通过对配体 A31 进行 100 ns 的分子动力学模拟，研究了蛋白质 (7YS6)- 配体 (A31) 复合物的动态行为：本研究的结果揭示了支持香豆素取代的吩噻嗪衍生物作为有效的羟色胺-6 受体拮抗剂的潜力的有力证据。配体[A2 至 A50]表现出值得注意的 Glide 分数，有望具有显著的抗老年痴呆活性。为了探索和证实它们的治疗潜力，有必要进行进一步的体外和体内研究。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Current computer-aided drug design

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