天然产物
自噬
化学
自然(考古学)
产品(数学)
计算生物学
立体化学
生物化学
生物
数学
细胞凋亡
古生物学
几何学
作者
Daniel J. Foley,Sarah Zinken,Dale Corkery,Luca Laraia,Axel Pahl,Yao‐Wen Wu,Herbert Waldmann
标识
DOI:10.1002/ange.202000364
摘要
Abstract Pseudo‐natural‐product (NP) design combines natural product fragments to provide unprecedented NP‐inspired compounds not accessible by biosynthesis, but endowed with biological relevance. Since the bioactivity of pseudo‐NPs may be unprecedented or unexpected, they are best evaluated in target agnostic cell‐based assays monitoring entire cellular programs or complex phenotypes. Here, the Cinchona alkaloid scaffold was merged with the indole ring system to synthesize indocinchona alkaloids by Pd‐catalyzed annulation. Exploration of indocinchona alkaloid bioactivities in phenotypic assays revealed a novel class of azaindole‐containing autophagy inhibitors, the azaquindoles. Subsequent characterization of the most potent compound, azaquindole‐1, in the morphological cell painting assay, guided target identification efforts. In contrast to the parent Cinchona alkaloids, azaquindoles selectively inhibit starvation‐ and rapamycin‐induced autophagy by targeting the lipid kinase VPS34.
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