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<i>SMARCA4</i>deficiency-associated heterochromatin induces intrinsic DNA replication stress and susceptibility to ATR inhibition in lung adenocarcinoma

Kiminori Kurashima, Hideto Kashiwagi, Iwao Shimomura, Ayako Suzuki, Fumitaka Takeshita, Marianne Mazevet, Masahiko Harata, Takayuki Yamashita, Yusuke Yamamoto, Takashi Kohno, Bunsyo Shiotani

2020NAR Cancer51 citationsDOIOpen Access PDF

Abstract

Abstract The SWI/SNF chromatin remodeling complex regulates transcription through the control of chromatin structure and is increasingly thought to play an important role in human cancer. Lung adenocarcinoma (LADC) patients frequently harbor mutations in SMARCA4, a core component of this multisubunit complex. Most of these mutations are loss-of-function mutations, which disrupt critical functions in the regulation of chromatin architecture and can cause DNA replication stress. This study reports that LADC cells deficient in SMARCA4 showed increased DNA replication stress and greater sensitivity to the ATR inhibitor (ATRi) in vitro and in vivo. Mechanistically, loss of SMARCA4 increased heterochromatin formation, resulting in stalled forks, a typical DNA replication stress. In the absence of SMARCA4, severe ATRi-induced single-stranded DNA, which caused replication catastrophe, was generated on nascent DNA near the reversed forks around heterochromatin in an Mre11-dependent manner. Thus, loss of SMARCA4 confers susceptibility to ATRi, both by increasing heterochromatin-associated replication stress and by allowing Mre11 to destabilize reversed forks. These two mechanisms synergistically increase susceptibility of SMARCA4-deficient LADC cells to ATRi. These results provide a preclinical basis for assessing SMARCA4 defects as a biomarker of ATRi efficacy.

Topics & Concepts

SMARCA4ChromatinBiologyHeterochromatinCell biologyDNA replicationDNA damageDNAGeneticsChromatin remodelingChromatin Remodeling and CancerGenomics and Chromatin DynamicsCancer Mechanisms and Therapy
<i>SMARCA4</i>deficiency-associated heterochromatin induces intrinsic DNA replication stress and susceptibility to ATR inhibition in lung adenocarcinoma | Litcius