心理压抑
加压器
转录因子
表观遗传学
组蛋白脱乙酰基酶
雄激素受体
癌症研究
抄写(语言学)
基因沉默
前列腺癌
组蛋白
雌激素受体α
抑制因子
细胞生物学
雌激素受体
核受体
染色质重塑
转录活性
基因表达调控
伏立诺他
核小体
转录调控
染色质
组蛋白脱乙酰酶抑制剂
RNA干扰
生物
罗咪酯肽
小RNA
平方毫米
化学
乙酰化
基因表达
作者
Christian E. Stieger,Xinru Chen,Dustin Dovala,Fabian Wu,Nicolas Pizzato,Jeffrey M. McKenna,Cory M. Johannessen,Barna D. Fodor,Markus Schirle,Daniel K. Nomura,Jeffrey McKenna,Cory Johannessen,Barna D. Fodor,Markus Schirle,Daniel K. Nomura
标识
DOI:10.1021/acscentsci.5c02277
摘要
Abstract Most cancer-driving proteins remain “undruggable” due to the absence of ligandable pockets and their reliance on intrinsically disordered or protein–DNA/protein–protein interactions. Transcription factors, which orchestrate oncogenic gene expression programs, are particularly challenging: they turn over rapidly, evade durable pharmacological inhibition, and resist even emerging targeted protein degradation strategies. Here, we describe a new induced-proximity therapeutic modality, T ranscriptional R egulation via A ctive C ontrol of E pigenetic R eprogramming (TRACER), that enforces locus-specific transcriptional silencing by recruiting endogenous corepressor complexes to transcription factor binding sites. We developed small-molecule TRACERs that tether methyl-CpG binding domain protein 2 (MBD2) and the Nucleosome Remodeling and Deacetylase (NuRD) complex to transcription factor–directed ligands. An estrogen receptor (ER) TRACER potently suppressed ER transcriptional activity in breast cancer cells, downregulated canonical ER target genes, and required MBD2 and histone deacetylase (HDAC1/2) for activity, confirming on-target epigenetic repression. Extending this approach to prostate cancer, an androgen receptor (AR) TRACER transcriptionally repressed both full-length AR and the drug-resistant truncation variant AR-V7, achieving >90% inhibition of AR transcriptional activity in androgen-independent prostate cancer cells with locus-specific gene repression. We further show that TRACERs can be modularly reprogrammed to recruit alternative repressors, including PRC2. Collectively, these findings establish TRACERs as a generalizable modality to pharmacologically silence undruggable transcription factors through targeted epigenetic reprogramming, offering a powerful new strategy for treating cancers refractory to existing therapies.
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