Pharmacophore mapping, 3D QSAR, molecular docking, and ADME prediction studies of novel Benzothiazinone derivatives.

In silico pharmacology Pub Date : 2024-08-29 eCollection Date: 2024-01-01 DOI:10.1007/s40203-024-00255-8
Jahaan Shaikh, Salman Patel, Afzal Nagani, Moksh Shah, Siddik Ugharatdar, Ashish Patel, Drashti Shah, Dharti Patel
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Abstract

In the quest to combat tuberculosis, DprE1, a challenging target for novel anti-tubercular agents due to its small size and membrane location, has been a focus of research. DprE1 catalyzes the transformation of DPR into Ketoribose DPX, with Benzothiazinone emerging as a potent pharmacophore for inhibiting DprE1. Clinical trial drugs such as BTZ043, BTZ038, PBTZ169, and TMC-207 have shown promising results as DprE1 inhibitors. This study employed pharmacophore mapping of Pyrazolopyridine, Dinitrobenzamide, and Benzothiazinone derivatives to identify crucial features for eliciting a biological response. Benzothiazinone (Ligand code: 73) emerged as a reference ligand with a fitness score of 3.000. ROC analysis validated the pharmacophore with an excellent score of 0.71. To build a 3D QSAR model, a series of Benzothiazinone congeneric derivatives were explored. The model exhibited strong performance, with a standard deviation of 0.1531, a correlation coefficient for the training set (R2) value of 0.9754, and a correlation coefficient for test set Q2 value of 0.7632, indicating robust predictive capabilities. Contour maps guided the design of novel benzothiazinone derivatives, emphasizing steric, electrostatic, hydrophobic, H-bond acceptor, and H-bond donor groups for structure-activity relationships. Docking studies against PDB ID: 4NCR demonstrated favorable scores, with interactions aligning well with the in-built ligand 26 J. Docking validation via RMSD values supported the reliability of the docking results. This comprehensive approach aids in the design of novel benzothiazinone derivatives with potential anti-tubercular properties, contributing to the development of novel anti-tubercular agents which can be pivotal in the eradication of tuberculosis.

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新型苯并噻嗪酮衍生物的药效图谱、三维 QSAR、分子对接和 ADME 预测研究。
在抗击结核病的过程中,DprE1 因其体积小和位于膜上而成为新型抗结核药物的挑战性靶点,一直是研究的重点。DprE1 催化 DPR 转化为 Ketoribose DPX,而苯并噻嗪酮是抑制 DprE1 的有效药源。作为 DprE1 抑制剂,BTZ043、BTZ038、PBTZ169 和 TMC-207 等临床试验药物已显示出良好的效果。本研究采用吡唑并吡啶、二硝基苯甲酰胺和苯并噻嗪酮衍生物的药理图谱来确定引起生物反应的关键特征。苯并噻嗪酮(配体代码:73)以 3.000 的合适度得分成为参考配体。ROC 分析以 0.71 的优异得分验证了该药效谱。为了建立三维 QSAR 模型,研究人员探索了一系列苯并噻嗪酮同源衍生物。该模型表现出很强的性能,标准偏差为 0.1531,训练集相关系数 (R2) 值为 0.9754,测试集 Q2 相关系数值为 0.7632,显示出强大的预测能力。轮廓图指导了新型苯并噻嗪酮衍生物的设计,强调了立体、静电、疏水、H 键受体和 H 键供体基团的结构-活性关系。针对 PDB ID:通过 RMSD 值进行的对接验证支持了对接结果的可靠性。这种综合方法有助于设计具有潜在抗结核特性的新型苯并噻嗪酮衍生物,有助于开发新型抗结核药物,从而在根除结核病方面发挥关键作用。
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