IFI16-dependent STING signaling is a crucial regulator of anti-HER2 immune response in HER2+ breast cancer

L.S. Ong(Agency for Science, Technology and Research), Wee Chyan Lee(Agency for Science, Technology and Research), Shijun Ma(Agency for Science, Technology and Research), Gokce Oguz(Agency for Science, Technology and Research), Zhitong Niu(Sun Yat-sen University), Bao Yi(Agency for Science, Technology and Research), Mubaraka Yusuf(Agency for Science, Technology and Research), Puay Leng Lee(Agency for Science, Technology and Research), Jian Yuan Goh(Agency for Science, Technology and Research), Panpan Wang(First Affiliated Hospital of Jinan University), Kylie Su Mei Yong(Agency for Science, Technology and Research), Qingfeng Chen(Agency for Science, Technology and Research), Wenyu Wang(Sun Yat-sen University), Adaikalavan Ramasamy(Agency for Science, Technology and Research), Dave S.�B. Hoon(University of Michigan), Henrik J. Ditzel(University of Southern Denmark), Ern Yu Tan(University of Michigan), Soo Chin Lee(National University of Singapore), Qiang Yu(Agency for Science, Technology and Research)
Proceedings of the National Academy of Sciences
July 25, 2022
10.1073/pnas.2201376119
Cited by 567Open Access
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Abstract

Relapse to anti-HER2 monoclonal antibody (mAb) therapies, such as trastuzumab in HER2 + breast cancer (BC), is associated with residual disease progression due to resistance to therapy. Here, we identify interferon-γ inducible protein 16 (IFI16)-dependent STING signaling as a significant determinant of trastuzumab responses in HER2 + BC. We show that down-regulation of immune-regulated genes (IRG) is specifically associated with poor survival of HER2 + , but not other BC subtypes. Among IRG, IFI16 is identified as a direct target of EZH2, the underexpression of which leads to deficient STING activation and downstream CXCL10/11 expression in response to trastuzumab treatment. Dual inhibition of EZH2 and histone deacetylase (HDAC) significantly activates IFI16-dependent immune responses to trastuzumab. Notably, a combination of a novel histone methylation inhibitor with an HDAC inhibitor induces complete tumor eradication and long-term T cell memory in a HER2 + BC mouse model. Our findings demonstrate an epigenetic regulatory mechanism suppressing the expression of the IFI16-CXCL10/11 signaling pathway that provides a survival advantage to HER2 + BC to confer resistance to trastuzumab treatment.

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