Novel quinazolin-4(3H)-one based Cyclin K degraders regulate alternative polyadenylation activity

Phenotypic screening is gaining attention as a powerful method for identifying compounds that regulate cellular phenotypes of interest through novel mechanisms of action. Recently, a new modality of compounds, called molecular glues, which can induce the degradation of target proteins by forming ter...

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Bibliographic Details
Published in:Biochemical and biophysical research communications 2023-10, Vol.676, p.6-12
Main Authors: Sano, Osamu, Ito, Masahiro, Saito, Masayo, Toita, Akinori, Tanaka, Toshio, Maezaki, Hironobu, Araki, Shinsuke, Iwata, Hidehisa
Format: Article
Language:English
Subjects:
Alternative polyadenylation
Cyclin K
Molecular glue
Protein degrader
TR-213
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Summary:Phenotypic screening is gaining attention as a powerful method for identifying compounds that regulate cellular phenotypes of interest through novel mechanisms of action. Recently, a new modality of compounds, called molecular glues, which can induce the degradation of target proteins by forming ternary complexes of E3 ligases, has emerged from phenotypic screening. In this study, using global proteomic analysis, we identified a novel Cyclin K degrader, T4, which was previously discovered through phenotypic screening for alternative polyadenylation regulation. Our detailed mechanistic analysis revealed that T4 induced Cyclin K degradation, leading to the regulation of alternative polyadenylation. Additionally, we generated a more potent Cyclin K degrader, TR-213, through a structure-activity relationship study of T4. T4 and TR-213 are structurally distinct from other Cyclin K degraders and can be used as novel chemical tools to further analyze the degradation of Cyclin K and the regulation of alternative polyadenylation. •T4, identified as an alternative polyadenylation regulator, was a novel molecular glue type Cyclin K degrader.•Cyclin K degradation activity was correlated with alternative polyadenylatiion activity.•TR-213 was synthesized as a novel chemical tool of Cyclin K degrader and alternative polyadenylation regulator.
ISSN:0006-291X
1090-2104
DOI:10.1016/j.bbrc.2023.07.028