Identification of new analgesic candidates through virtual in silico screening and in vivo experimental test.

Arelys López-Sacerio, Yudith Cañizarez Carmenate, J. Castillo-Garit
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Abstract

Currently, pain is closely linked to pathologies of high incidence worldwide. The in silico methods encompass all computer-aided techniques used in the design of compounds with desired properties, avoiding the high costs for the current tasks of synthesis and bioassays. In this sense, the fundamental objective of the present work is the identification of new analgesic candidates through virtual in silico screening using classification trees. For this purpose, a database of the literature is initially collected, and analgesic activity has been reported experimentally. Through the DRAGON software, a series of molecular descriptors were calculated and a Hierarchical Conglomerate Analysis (CAs) was performed in the STATISTICA software, allowing the separation of the initial database in training series and prediction series. Then we proceeded to obtain and validate the model used (Tree J48) through the WEKA software. Of these three compounds were evaluated experimentally in vivo with excellent results as analgesic drugs. In general, we can conclude that the use of these computational tools generates a great saving of resources with respect to traditional methods of analysis and also allows a rapid identification of compounds with a high probability that they are potential analgesics.
通过虚拟计算机筛选和体内实验试验确定新的候选镇痛药。
目前,疼痛与世界范围内高发病率的病理密切相关。计算机方法包括所有用于设计具有所需性能的化合物的计算机辅助技术,避免了当前合成和生物分析任务的高成本。从这个意义上说,目前工作的基本目标是通过使用分类树的虚拟计算机筛选来识别新的镇痛候选药物。为此目的,最初收集了文献数据库,并通过实验报道了镇痛活性。通过DRAGON软件计算一系列分子描述符,并在STATISTICA软件中进行分层综合分析(Hierarchical Conglomerate Analysis, CAs),使初始数据库在训练序列和预测序列中分离。然后通过WEKA软件获取并验证所使用的模型(Tree J48)。这三种化合物作为镇痛药物在体内进行了实验评价,效果良好。总的来说,我们可以得出这样的结论:与传统的分析方法相比,使用这些计算工具可以大大节省资源,并且还可以快速识别具有高概率的潜在镇痛药的化合物。
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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