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Enhancer reprogramming underlies therapeutic utility of a SMARCA2 degrader in SMARCA4 mutant cancer

Sasikumar Kotagiri, Nicholas Blazanin, Yuanxin Xi, Yanyan Han, Md Qudratullah, Xiaobing Liang, Yawen Wang, Poonam Pandey, Hira Mazhar, Truong Nguyen Lam, Anand K. Singh, Jing Wang, Yonathan Lissanu

2024Cell chemical biology17 citationsDOIOpen Access PDF

Abstract

Genomic studies have identified frequent mutations in subunits of the SWI/SNF (switch/sucrose non-fermenting) chromatin remodeling complex including SMARCA4 and ARID1A in non-small cell lung cancer (NSCLC). Genetic evidence indicates that the paralog SMARCA2 is synthetic lethal to SMARCA4 suggesting SMARCA2 is a valuable therapeutic target. However, the discovery of selective inhibitors of SMARCA2 has been challenging. Here, we utilized structure-activity relationship (SAR) studies to develop YD23, a potent and selective proteolysis targeting chimera (PROTAC) targeting SMARCA2. Mechanistically, we show that SMARCA2 degradation induces reprogramming of the enhancer landscape in SMARCA4-mutant cells with loss of chromatin accessibility at enhancers of genes involved in cell proliferation. Furthermore, we identified YAP/TEADas key partners to SMARCA2 in driving growth of SMARCA4-mutant cells. Finally, we show that YD23 has potent tumor growth inhibitory activity in SMARCA4-mutant xenografts. These findings provide the mechanistic basis for development of SMARCA2 degraders as synthetic lethal therapeutics against SMARCA4-mutant lung cancers.

Topics & Concepts

SMARCA4ReprogrammingMutantEnhancerCancerCancer researchBiologyEpigeneticsGeneticsGeneTranscription factorChromatin remodelingChromatin Remodeling and CancerCancer Mechanisms and TherapyMechanisms of cancer metastasis