Litcius/Paper detail

Spirocyclic Chromenopyrazole Inhibitors Disrupting the Interaction between the RNA‐Binding Protein LIN28 and <i>Let‐7</i>

Lydia Borgelt, Fubao Huang, Lisa Hohnen, Xiaqiu Qiu, Georg L. Goebel, Pascal Hommen, Peng Wu

2023ChemBioChem13 citationsDOIOpen Access PDF

Abstract

Small-molecule inhibitors of the RNA-binding and regulating protein LIN28 have the potential to be developed as chemical probes for biological perturbation and as therapeutic candidates. Reported small molecules disrupting the interaction between LIN28 and let-7 miRNA suffer from moderate to weak inhibitory activity and flat structure-activity relationship, which hindered the development of next-generation LIN28 inhibitors that warrant further evaluations. We report herein the identification of new LIN28 inhibitors utilizing a spirocyclization strategy based on a chromenopyrazole scaffold. Representative compounds 2-5 showed potent in vitro inhibitory activity against LIN28-let-7 interaction and single-digit micromolar potency in inhibiting the proliferation of LIN28-expressing JAR cancer cells. The spirocyclic compound 5 incorporated a position that is amenable for functional group appendage and further structural modifications. The binding mode of compound 5 with the LIN28 cold shock domain was rationalized via a molecular docking analysis.

Topics & Concepts

LIN28Cold-shock domainDocking (animal)ChemistryIn vitroStereochemistryRNACombinatorial chemistryBiochemistryTranscription factorMedicineGeneNursingSOX2RNA Research and SplicingRNA regulation and diseaseViral Infections and Immunology Research