一种用于药物发现的机器学习策略鉴定出抗血吸虫小分子。

A Machine Learning Strategy for Drug Discovery Identifies Anti-Schistosomal Small Molecules.

作者信息

Zorn Kimberley M, Sun Shengxi, McConnon Cecelia L, Ma Kelley, Chen Eric K, Foil Daniel H, Lane Thomas R, Liu Lawrence J, El-Sakkary Nelly, Skinner Danielle E, Ekins Sean, Caffrey Conor R

机构信息

Collaborations Pharmaceuticals, 840 Main Campus Drive, Lab 3510, Raleigh, North Carolina 27606, United States.

Center for Discovery and Innovation in Parasitic Diseases, Skaggs School of Pharmacy and Pharmaceutical Sciences, University of California, San Diego, La Jolla, California 92093-0021, United States.

出版信息

ACS Infect Dis. 2021 Feb 12;7(2):406-420. doi: 10.1021/acsinfecdis.0c00754. Epub 2021 Jan 12.

DOI:10.1021/acsinfecdis.0c00754

PMID:33434015

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC7887754/

Abstract

Schistosomiasis is a chronic and painful disease of poverty caused by the flatworm parasite . Drug discovery for antischistosomal compounds predominantly employs whole organism (phenotypic) screens against two developmental stages of , post-infective larvae (somules) and adults. We generated two rule books and associated scoring systems to normalize 3898 phenotypic data points to enable machine learning. The data were used to generate eight Bayesian machine learning models with the Assay Central software according to parasite's developmental stage and experimental time point (≤24, 48, 72, and >72 h). The models helped predict 56 active and nonactive compounds from commercial compound libraries for testing. When these were screened against , the prediction accuracy for active and inactives was 61% and 56% for somules and adults, respectively; also, hit rates were 48% and 34%, respectively, far exceeding the typical 1-2% hit rate for traditional high throughput screens.

摘要

血吸虫病是一种由扁形虫寄生虫引起的慢性疼痛性贫困疾病。抗血吸虫化合物的药物发现主要采用针对感染后幼虫（童虫）和成虫这两个发育阶段的全生物体（表型）筛选。我们生成了两本规则手册和相关评分系统，以对3898个表型数据点进行标准化，从而实现机器学习。根据寄生虫的发育阶段和实验时间点（≤24、48、72和>72小时），使用Assay Central软件将这些数据用于生成八个贝叶斯机器学习模型。这些模型有助于从商业化合物库中预测56种活性和非活性化合物以供测试。当针对童虫和成虫进行筛选时，活性和非活性的预测准确率分别为61%和56%；此外，命中率分别为48%和34%，远远超过传统高通量筛选典型的1-2%的命中率。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/d2ef/7887754/47d027478050/id0c00754_0001.jpg

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一种用于药物发现的机器学习策略鉴定出抗血吸虫小分子。

A Machine Learning Strategy for Drug Discovery Identifies Anti-Schistosomal Small Molecules.

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