1. Epigenetic driver mutations in ARID1A shape cancer immune phenotype and immunotherapy
- Author
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Li, Jing, Wang, Weichao, Zhang, Yajia, Cieslik, Marcin, Guo, Jipeng, Tan, Mengyao, Green, Michael D., Wang, Weimin, Lin, Heng, Li, Wei, Wei, Shuang, Zhou, Jiajia, Li, Gaopeng, Jing, Xiaojun, Vatan, Linda, Zhao, Lili, Bitler, Benjamin, Zhang, Rugang, Cho, Kathleen R., Dou, Yali, Kryczek, Ilona, Chan, Timothy A., Huntsman, David, Chinnaiyan, Arul M., and Zou, Weiping
- Subjects
Cancer treatment -- Analysis ,Epigenetic inheritance -- Genetic aspects -- Analysis ,Cancer genetics -- Genetic aspects -- Development and progression ,Cancer -- Genetic aspects -- Development and progression ,Genes -- Analysis -- Genetic aspects ,Chromatin -- Genetic aspects -- Analysis ,Immunotherapy -- Analysis ,Gene expression -- Analysis -- Genetic aspects ,T cells -- Genetic aspects -- Analysis ,Biochemistry ,Cancer research ,Tumors ,Health care industry ,University of Michigan. Medical School - Abstract
Whether mutations in cancer driver genes directly affect cancer immune phenotype and T cell immunity remains a standing question. ARID1A is a core member of the polymorphic BRG/BRM-associated factor chromatin remodeling complex. ARID1A mutations occur in human cancers and drive cancer development. Here, we studied the molecular, cellular, and clinical impact of ARID1A aberrations on cancer immunity. We demonstrated that ARID1A aberrations resulted in limited chromatin accessibility to IFN-responsive genes, impaired IFN gene expression, anemic T cell tumor infiltration, poor tumor immunity, and shortened host survival in many human cancer histologies and in murine cancer models. Impaired IFN signaling was associated with poor immunotherapy response. Mechanistically, ARID1A interacted with EZH2 via its carboxyl terminal and antagonized EZH2-mediated IFN responsiveness. Thus, the interaction between ARID1A and EZH2 defines cancer IFN responsiveness and immune evasion. Our work indicates that cancer epigenetic driver mutations can shape cancer immune phenotype and immunotherapy., Introduction Tumor-infiltrating T cells are positively associated with patient survival in many types of human cancer (1-3). Type I and type II IFN gene signatures correlate with clinical responses to [...]
- Published
- 2020
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