通过计算机模拟鉴定混杂支架作为1-脱氧-D-木酮糖5-磷酸还原异构酶的潜在抑制剂用于治疗恶性疟原虫疟疾

In silico identification of promiscuous scaffolds as potential inhibitors of 1-deoxy-d-xylulose 5-phosphate reductoisomerase for treatment of Falciparum malaria.

作者信息

Wadood Abdul, Ghufran Mehreen, Hassan Syed Fahad, Khan Huma, Azam Syed Sikandar, Rashid Umer

机构信息

a Department of Biochemistry , Abdul Wali Khan University Mardan , Mardan , Pakistan.

b Department of Pharmacy , University of Lahore , Lahore , Pakistan.

出版信息

Pharm Biol. 2017 Dec;55(1):19-32. doi: 10.1080/13880209.2016.1225778. Epub 2016 Sep 21.

DOI:10.1080/13880209.2016.1225778

PMID:27650666

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC7011789/

Abstract

CONTEXT

Malaria remains one of the prevalent infectious diseases worldwide. Plasmodium falciparum 1-deoxy-d-xylulose-5-phosphate reductoisomerase (PfDXR) plays a role in isoprenoid biosynthesis in the malaria parasite, making this parasite enzyme an attractive target for antimalarial drug design. Fosmidomycin is a promising DXR inhibitor, which showed safety as well as efficacy against Plasmodium falciparum malaria in clinical trials. However, due to its poor oral bioavailability and non-drug-like properties, the focus of medicinal chemists is to develop inhibitors with improved pharmacological properties.

OBJECTIVE

This study described the computational design of new and potent inhibitors for deoxyxylulose 5-phosphate reductoisomerase and the prediction of their pharmacokinetic and pharmacodynamic properties.

MATERIAL AND METHODS

A complex-based pharmacophore model was generated from the complex X-ray crystallographic structure of PfDXR using MOE (Molecular Operating Environment). Furthermore, MOE-Dock was used as docking software to predict the binding modes of hits and target enzyme.

RESULTS

Finally, 14 compounds were selected as new and potent inhibitors of PfDXR on the basis of pharmacophore mapping, docking score, binding energy and binding interactions with the active site residues of the target protein. The predicted pharmacokinetic properties showed improved permeability by efficiently crossing blood-brain barrier. While, in silico promiscuity binding data revealed that these hits also have the ability to bind with other P. falciparum drug targets.

DISCUSSION AND CONCLUSION

In conclusion, innovative scaffolds with novel modes of action, improved efficacy and acceptable physiochemical/pharmacokinetic properties were computationally identified.

摘要

背景

疟疾仍然是全球流行的传染病之一。恶性疟原虫1-脱氧-D-木酮糖-5-磷酸还原异构酶（PfDXR）在疟原虫的类异戊二烯生物合成中发挥作用，使这种寄生虫酶成为抗疟药物设计的一个有吸引力的靶点。磷霉素是一种有前景的DXR抑制剂，在临床试验中显示出对恶性疟原虫疟疾的安全性和有效性。然而，由于其口服生物利用度差和非药物样性质，药物化学家的重点是开发具有改善药理性质的抑制剂。

目的

本研究描述了脱氧木酮糖5-磷酸还原异构酶新的强效抑制剂的计算设计及其药代动力学和药效学性质的预测。

材料与方法

使用MOE（分子操作环境）从PfDXR的复合物X射线晶体结构生成基于复合物的药效团模型。此外，MOE-Dock用作对接软件来预测命中物与靶酶的结合模式。

结果

最后，根据药效团映射、对接分数、结合能以及与靶蛋白活性位点残基的结合相互作用，选择了14种化合物作为PfDXR的新的强效抑制剂。预测的药代动力学性质表明，通过有效穿过血脑屏障，通透性得到改善。同时，计算机模拟的多靶点结合数据显示，这些命中物也有能力与其他恶性疟原虫药物靶点结合。

讨论与结论

总之，通过计算确定了具有创新作用模式、提高疗效和可接受的理化/药代动力学性质的新型支架。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/58ea/7011789/bff68ddb9d16/IPHB_A_1225778_F0001_C.jpg

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通过计算机模拟鉴定混杂支架作为1-脱氧-D-木酮糖5-磷酸还原异构酶的潜在抑制剂用于治疗恶性疟原虫疟疾

In silico identification of promiscuous scaffolds as potential inhibitors of 1-deoxy-d-xylulose 5-phosphate reductoisomerase for treatment of Falciparum malaria.

作者信息

机构信息

出版信息

CONTEXT

OBJECTIVE

MATERIAL AND METHODS

RESULTS

DISCUSSION AND CONCLUSION

背景

目的

材料与方法

结果

讨论与结论

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