Chromatin rewiring by mismatch repair protein MSH2 alters cell adhesion pathways and sensitivity to BET inhibition in gastric cancer
Mutations in the DNA mismatch repair gene MSH2 are causative of microsatellite instability (MSI) in multiple cancers. Here, we discovered that besides its well-established role in DNA repair, MSH2 exerts a novel epigenomic function in gastric cancer. Unbiased CRISPR-based mass spectrometry combined...
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Science::Medicine Mutations Protein Nargund, Amrita M. Xu, Chang Mandoli, Amit Okabe, Atsushi Chen, Gao Bin Huang, Kie Kyon Sheng, Taotao Yao, Xiaosai Teo, Jia Ming Nickolas Sundar, Raghav Kok, Yee Jiun See, Yi Xiang Xing, Manjie Li, Zhimei Yong, Chern Han Anand, Aparna Fazreen, A. I. Zul Poon, Lai Fong Ng, Michelle Shu Wen Koh, Javier Yu Peng Ooi, Wen Fong Tay, Su Ting Ong, Xuewen Tan, Angie Lay Keng Grabsch, Heike I. Fullwood, Melissa Jane Teh, Tean Bin Bi, Xuezhi Kaneda, Atsushi Li, Shang Tan, Patrick Chromatin rewiring by mismatch repair protein MSH2 alters cell adhesion pathways and sensitivity to BET inhibition in gastric cancer |
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Mutations in the DNA mismatch repair gene MSH2 are causative of microsatellite instability (MSI) in multiple cancers. Here, we discovered that besides its well-established role in DNA repair, MSH2 exerts a novel epigenomic function in gastric cancer. Unbiased CRISPR-based mass spectrometry combined with genome-wide CRISPR functional screening revealed that in early-stage gastric cancer MSH2 genomic binding is not randomly distributed but rather is associated specifically with tumor-associated super-enhancers controlling the expression of cell adhesion genes. At these loci, MSH2 genomic binding was required for chromatin rewiring, de novo enhancer-promoter interactions, maintenance of histone acetylation levels, and regulation of cell adhesion pathway expression. The chromatin function of MSH2 was independent of its DNA repair catalytic activity but required MSH6, another DNA repair gene, and recruitment to gene loci by the SWI/SNF chromatin remodeler SMARCA4/BRG1. Loss of MSH2 in advanced gastric cancers was accompanied by deficient cell adhesion pathway expression, epithelial-mesenchymal transition, and enhanced tumorigenesis in vitro and in vivo. However, MSH2-deficient gastric cancers also displayed addiction to BAZ1B, a bromodomain-containing family member, and consequent synthetic lethality to bromodomain and extraterminal motif (BET) inhibition. Our results reveal a role for MSH2 in gastric cancer epigenomic regulation and identify BET inhibition as a potential therapy in MSH2-deficient gastric malignancies. |
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School of Biological Sciences Nargund, Amrita M. Xu, Chang Mandoli, Amit Okabe, Atsushi Chen, Gao Bin Huang, Kie Kyon Sheng, Taotao Yao, Xiaosai Teo, Jia Ming Nickolas Sundar, Raghav Kok, Yee Jiun See, Yi Xiang Xing, Manjie Li, Zhimei Yong, Chern Han Anand, Aparna Fazreen, A. I. Zul Poon, Lai Fong Ng, Michelle Shu Wen Koh, Javier Yu Peng Ooi, Wen Fong Tay, Su Ting Ong, Xuewen Tan, Angie Lay Keng Grabsch, Heike I. Fullwood, Melissa Jane Teh, Tean Bin Bi, Xuezhi Kaneda, Atsushi Li, Shang Tan, Patrick |
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Article |
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Nargund, Amrita M. Xu, Chang Mandoli, Amit Okabe, Atsushi Chen, Gao Bin Huang, Kie Kyon Sheng, Taotao Yao, Xiaosai Teo, Jia Ming Nickolas Sundar, Raghav Kok, Yee Jiun See, Yi Xiang Xing, Manjie Li, Zhimei Yong, Chern Han Anand, Aparna Fazreen, A. I. Zul Poon, Lai Fong Ng, Michelle Shu Wen Koh, Javier Yu Peng Ooi, Wen Fong Tay, Su Ting Ong, Xuewen Tan, Angie Lay Keng Grabsch, Heike I. Fullwood, Melissa Jane Teh, Tean Bin Bi, Xuezhi Kaneda, Atsushi Li, Shang Tan, Patrick |
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Nargund, Amrita M. |
| title |
Chromatin rewiring by mismatch repair protein MSH2 alters cell adhesion pathways and sensitivity to BET inhibition in gastric cancer |
| title_short |
Chromatin rewiring by mismatch repair protein MSH2 alters cell adhesion pathways and sensitivity to BET inhibition in gastric cancer |
| title_full |
Chromatin rewiring by mismatch repair protein MSH2 alters cell adhesion pathways and sensitivity to BET inhibition in gastric cancer |
| title_fullStr |
Chromatin rewiring by mismatch repair protein MSH2 alters cell adhesion pathways and sensitivity to BET inhibition in gastric cancer |
| title_full_unstemmed |
Chromatin rewiring by mismatch repair protein MSH2 alters cell adhesion pathways and sensitivity to BET inhibition in gastric cancer |
| title_sort |
chromatin rewiring by mismatch repair protein msh2 alters cell adhesion pathways and sensitivity to bet inhibition in gastric cancer |
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2022 |
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https://hdl.handle.net/10356/163560 |
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1753801118455955456 |
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sg-ntu-dr.10356-1635602022-12-09T03:39:41Z Chromatin rewiring by mismatch repair protein MSH2 alters cell adhesion pathways and sensitivity to BET inhibition in gastric cancer Nargund, Amrita M. Xu, Chang Mandoli, Amit Okabe, Atsushi Chen, Gao Bin Huang, Kie Kyon Sheng, Taotao Yao, Xiaosai Teo, Jia Ming Nickolas Sundar, Raghav Kok, Yee Jiun See, Yi Xiang Xing, Manjie Li, Zhimei Yong, Chern Han Anand, Aparna Fazreen, A. I. Zul Poon, Lai Fong Ng, Michelle Shu Wen Koh, Javier Yu Peng Ooi, Wen Fong Tay, Su Ting Ong, Xuewen Tan, Angie Lay Keng Grabsch, Heike I. Fullwood, Melissa Jane Teh, Tean Bin Bi, Xuezhi Kaneda, Atsushi Li, Shang Tan, Patrick School of Biological Sciences National University of Singapore Science::Medicine Mutations Protein Mutations in the DNA mismatch repair gene MSH2 are causative of microsatellite instability (MSI) in multiple cancers. Here, we discovered that besides its well-established role in DNA repair, MSH2 exerts a novel epigenomic function in gastric cancer. Unbiased CRISPR-based mass spectrometry combined with genome-wide CRISPR functional screening revealed that in early-stage gastric cancer MSH2 genomic binding is not randomly distributed but rather is associated specifically with tumor-associated super-enhancers controlling the expression of cell adhesion genes. At these loci, MSH2 genomic binding was required for chromatin rewiring, de novo enhancer-promoter interactions, maintenance of histone acetylation levels, and regulation of cell adhesion pathway expression. The chromatin function of MSH2 was independent of its DNA repair catalytic activity but required MSH6, another DNA repair gene, and recruitment to gene loci by the SWI/SNF chromatin remodeler SMARCA4/BRG1. Loss of MSH2 in advanced gastric cancers was accompanied by deficient cell adhesion pathway expression, epithelial-mesenchymal transition, and enhanced tumorigenesis in vitro and in vivo. However, MSH2-deficient gastric cancers also displayed addiction to BAZ1B, a bromodomain-containing family member, and consequent synthetic lethality to bromodomain and extraterminal motif (BET) inhibition. Our results reveal a role for MSH2 in gastric cancer epigenomic regulation and identify BET inhibition as a potential therapy in MSH2-deficient gastric malignancies. Agency for Science, Technology and Research (A*STAR) Ministry of Education (MOE) National Medical Research Council (NMRC) National Research Foundation (NRF) This study was supported by National Medical Research Council grants NMRC/STaR/0026/2015, MOH-000967-00 and OFLCG18May-0003, and A*ccelerate GAP fund ETPL/15-R15 GAP-0021 (to P. Tan) and MOE tier 2 grant (MOE2017-T2-1-105) and NMRC CS-IRG grant (NMRC/CIRG/1481/2017 to S. Li) and SCISSOR (A*STAR IAF-PP) H18/01/a0/020. Funding was also provided by Cancer Science Institute of Singapore, NUS, under the National Research Foundation Singapore and the Singapore Ministry of Education under its Research Centers of Excellence initiative, and block funding from Duke-NUS Medical School. A.M. Nargund is also supported by St. Baldrick's Foundation Research Award. R. Sundar is supported by a National Medical Research Council (NMRC) Fellowship, Singapore. M.J. Fullwood is supported by the RNA Biology Center at the Cancer Science Institute of Singapore, NUS, as part of funding under the Singapore Ministry of Education Academic Research Fund Tier 3 awarded to Daniel Tenen (MOE2014-T3-1-006) and the National Research Foundation Singapore and the Singapore Ministry of Education under its Research Centers of Excellence initiative. 2022-12-09T03:39:41Z 2022-12-09T03:39:41Z 2022 Journal Article Nargund, A. M., Xu, C., Mandoli, A., Okabe, A., Chen, G. B., Huang, K. K., Sheng, T., Yao, X., Teo, J. M. N., Sundar, R., Kok, Y. J., See, Y. X., Xing, M., Li, Z., Yong, C. H., Anand, A., Fazreen, A. I. Z., Poon, L. F., Ng, M. S. W., ...Tan, P. (2022). Chromatin rewiring by mismatch repair protein MSH2 alters cell adhesion pathways and sensitivity to BET inhibition in gastric cancer. Cancer Research, 82(14), 2538-2551. https://dx.doi.org/10.1158/0008-5472.CAN-21-2072 0008-5472 https://hdl.handle.net/10356/163560 10.1158/0008-5472.CAN-21-2072 35583999 2-s2.0-85134520247 14 82 2538 2551 en NMRC/STaR/0026/2015 MOH-000967–00 OFLCG18May-0003 ETPL/15-R15 GAP-0021 MOE2017-T2–1-105 NMRC/CIRG/1481/2017 H18/01/a0/020 MOE2014-T3–1-006 Cancer Research © 2022 American Association for Cancer Research. All rights reserved. |