博士手指
小分子
组蛋白
组蛋白H3
表观遗传学
甲基转移酶
DNA
DNA甲基化
生物
功能(生物学)
化学
细胞生物学
计算生物学
甲基化
生物化学
锌指
转录因子
基因
基因表达
作者
Guillermo Senisterra,Hugh Zhu,Xiao Luo,Hailong Zhang,Guoliang Xun,Chunliang Lu,Wen Xiao,Taraneh Hajian,P. Loppnau,Irene Chau,Fengling Li,Abdellah Allali‐Hassani,Peter Atadja,Counde O-Yang,En Li,Peter J. Brown,C.H. Arrowsmith,Kehao Zhao,Zhengtian Yu,Masoud Vedadi
标识
DOI:10.1177/2472555218766278
摘要
Ubiquitin-like with PHD and RING finger domains 1 (UHRF1) is a multidomain protein that plays a critical role in maintaining DNA methylation patterns through concurrent recognition of hemimethylated DNA and histone marks by various domains, and recruitment of DNA methyltransferase 1 (DNMT1). UHRF1 is overexpressed in various cancers, including breast cancer. The tandem tudor domain (TTD) of UHRF1 specifically and tightly binds to histone H3 di- or trimethylated at lysine 9 (H3K9me2 or H3K9me3, respectively), and this binding is essential for UHRF1 function. We developed an H3K9me3 peptide displacement assay, which was used to screen a library of 44,000 compounds for small molecules that disrupt the UHRF1-H3K9me3 interaction. This screen resulted in the identification of NV01, which bound to UHRF1-TTD with a Kd value of 5 μM. The structure of UHRF1-TTD in complex with NV01 confirmed binding to the H3K9me3-binding pocket. Limited structure-based optimization of NV01 led to the discovery of NV03 (Kd of 2.4 μM). These well-characterized small-molecule antagonists of the UHRF1-H3K9me2/3 interaction could be valuable starting chemical matter for developing more potent and cell-active probes toward further characterizing UHRF1 function, with possible applications as anticancer therapeutics.
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