立体化学和取代基对一系列合成化合物性能多样性的协同效应。
Synergistic Effects of Stereochemistry and Appendages on the Performance Diversity of a Collection of Synthetic Compounds.
机构信息
Department of Chemistry and Chemical Biology , Harvard University , Cambridge , Massachusetts 02138 , United States.
Chemical Biology and Therapeutics Science Program , Broad Institute , Cambridge , Massachusetts 02142 , United States.
出版信息
J Am Chem Soc. 2018 Sep 19;140(37):11784-11790. doi: 10.1021/jacs.8b07319. Epub 2018 Sep 6.
Abstract
Target- and phenotype-agnostic assessments of biological activity have emerged as viable strategies for prioritizing scaffolds, structural features, and synthetic pathways in screening sets, with the goal of increasing performance diversity. Here, we describe the synthesis of a small library of functionalized stereoisomeric azetidines and its biological annotation by "cell painting," a multiplexed, high-content imaging assay capable of measuring many hundreds of compound-induced changes in cell morphology in a quantitative and unbiased fashion. Using this approach, we systematically compare the degrees to which a core scaffold's biological activity, inferred from its effects on cell morphology, is affected by variations in stereochemistry and appendages. We show that stereoisomerism and appendage diversification can produce effects of similar magnitude, and that the concurrent use of these strategies results in a broader sampling of biological activity.
摘要
靶向和表型无关的生物活性评估已成为筛选中优先考虑支架、结构特征和合成途径的可行策略,目的是提高性能多样性。在这里,我们描述了一个功能化立体异构氮杂环丁烷的小文库的合成及其通过“细胞染色”的生物学注释,“细胞染色”是一种多重、高内涵成像测定法,能够以定量和无偏倚的方式测量数百种化合物诱导的细胞形态变化。使用这种方法,我们系统地比较了从细胞形态对核心支架的影响推断出的生物活性受到立体化学和附加物变化的影响程度。我们表明,立体异构和附加物多样化可以产生相似大小的影响,并且这些策略的同时使用会导致更广泛的生物活性采样。
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