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Structure-Based Virtual Screening for Drug Discovery: Principles, Applications and Recent Advances

虚拟筛选 药物发现 计算机科学 计算生物学 背景(考古学) 对接(动物) 药物设计 业务流程发现 生物信息学 生物 在制品 工程类 医学 业务流程 古生物学 护理部 业务流程建模 运营管理
作者
Evanthia Lionta,George M. Spyrou,Demetrios K. Vassilatis,Zoe Cournia
出处
期刊:Current Topics in Medicinal Chemistry [Bentham Science Publishers]
卷期号:14 (16): 1923-1938 被引量:905
标识
DOI:10.2174/1568026614666140929124445
摘要

Structure-based drug discovery (SBDD) is becoming an essential tool in assisting fast and cost-efficient lead discovery and optimization. The application of rational, structure-based drug design is proven to be more efficient than the traditional way of drug discovery since it aims to understand the molecular basis of a disease and utilizes the knowledge of the three-dimensional structure of the biological target in the process. In this review, we focus on the principles and applications of Virtual Screening (VS) within the context of SBDD and examine different procedures ranging from the initial stages of the process that include receptor and library pre-processing, to docking, scoring and post-processing of topscoring hits. Recent improvements in structure-based virtual screening (SBVS) efficiency through ensemble docking, induced fit and consensus docking are also discussed. The review highlights advances in the field within the framework of several success studies that have led to nM inhibition directly from VS and provides recent trends in library design as well as discusses limitations of the method. Applications of SBVS in the design of substrates for engineered proteins that enable the discovery of new metabolic and signal transduction pathways and the design of inhibitors of multifunctional proteins are also reviewed. Finally, we contribute two promising VS protocols recently developed by us that aim to increase inhibitor selectivity. In the first protocol, we describe the discovery of micromolar inhibitors through SBVS designed to inhibit the mutant H1047R PI3Kα kinase. Second, we discuss a strategy for the identification of selective binders for the RXRα nuclear receptor. In this protocol, a set of target structures is constructed for ensemble docking based on binding site shape characterization and clustering, aiming to enhance the hit rate of selective inhibitors for the desired protein target through the SBVS process.

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