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SETD2 regulates chromatin accessibility and transcription to suppress lung tumorigenesis

Yuchen Xie, Merve Şahin, Toru Wakamatsu, Akane Inoue‐Yamauchi, Wan‐Ming Zhao, Song Han, Amrita M. Nargund, Shaoyuan Yang, Yang Lyu, James J. Hsieh, Christina S. Leslie, Emily H. Cheng

2023JCI Insight23 citationsDOIOpen Access PDF

Abstract

SETD2, a H3K36 trimethyltransferase, is the most frequently mutated epigenetic modifier in lung adenocarcinoma, with a mutation frequency of approximately 9%. However, how SETD2 loss of function promotes tumorigenesis remains unclear. Using conditional Setd2-KO mice, we demonstrated that Setd2 deficiency accelerated the initiation of KrasG12D-driven lung tumorigenesis, increased tumor burden, and significantly reduced mouse survival. An integrated chromatin accessibility and transcriptome analysis revealed a potentially novel tumor suppressor model of SETD2 in which SETD2 loss activates intronic enhancers to drive oncogenic transcriptional output, including the KRAS transcriptional signature and PRC2-repressed targets, through regulation of chromatin accessibility and histone chaperone recruitment. Importantly, SETD2 loss sensitized KRAS-mutant lung cancer to inhibition of histone chaperones, the FACT complex, or transcriptional elongation both in vitro and in vivo. Overall, our studies not only provide insight into how SETD2 loss shapes the epigenetic and transcriptional landscape to promote tumorigenesis, but they also identify potential therapeutic strategies for SETD2 mutant cancers.

Topics & Concepts

CarcinogenesisChromatinEpigeneticsBiologyCancer researchHistoneKRASTranscriptional regulationCell biologyGeneticsTranscription factorCancerMutationGeneEpigenetics and DNA MethylationRNA modifications and cancerGenomics and Chromatin Dynamics
SETD2 regulates chromatin accessibility and transcription to suppress lung tumorigenesis | Litcius