Pharmacological targeting of MYC-regulated IRE1/XBP1 pathway suppresses MYC-driven breast cancer
Na Zhao, … , Michael T. Lewis, Xi Chen
Na Zhao, … , Michael T. Lewis, Xi Chen
Published February 26, 2018
Citation Information: J Clin Invest. 2018;128(4):1283-1299. https://doi.org/10.1172/JCI95873.
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Research Article Oncology

Pharmacological targeting of MYC-regulated IRE1/XBP1 pathway suppresses MYC-driven breast cancer

Abstract

The unfolded protein response (UPR) is a cellular homeostatic mechanism that is activated in many human cancers and plays pivotal roles in tumor progression and therapy resistance. However, the molecular mechanisms for UPR activation and regulation in cancer cells remain elusive. Here, we show that oncogenic MYC regulates the inositol-requiring enzyme 1 (IRE1)/X-box binding protein 1 (XBP1) branch of the UPR in breast cancer via multiple mechanisms. We found that MYC directly controls IRE1 transcription by binding to its promoter and enhancer. Furthermore, MYC forms a transcriptional complex with XBP1, a target of IRE1, and enhances its transcriptional activity. Importantly, we demonstrate that XBP1 is a synthetic lethal partner of MYC. Silencing of XBP1 selectively blocked the growth of MYC-hyperactivated cells. Pharmacological inhibition of IRE1 RNase activity with small molecule inhibitor 8866 selectively restrained the MYC-overexpressing tumor growth in vivo in a cohort of preclinical patient-derived xenograft models and genetically engineered mouse models. Strikingly, 8866 substantially enhanced the efficacy of docetaxel chemotherapy, resulting in rapid regression of MYC-overexpressing tumors. Collectively, these data establish the synthetic lethal interaction of the IRE1/XBP1 pathway with MYC hyperactivation and provide a potential therapy for MYC-driven human breast cancers.

Authors

Na Zhao, Jin Cao, Longyong Xu, Qianzi Tang, Lacey E. Dobrolecki, Xiangdong Lv, Manisha Talukdar, Yang Lu, Xiaoran Wang, Dorothy Z. Hu, Qing Shi, Yu Xiang, Yunfei Wang, Xia Liu, Wen Bu, Yi Jiang, Mingzhou Li, Yingyun Gong, Zheng Sun, Haoqiang Ying, Bo Yuan, Xia Lin, Xin-Hua Feng, Sean M. Hartig, Feng Li, Haifa Shen, Yiwen Chen, Leng Han, Qingping Zeng, John B. Patterson, Benny Abraham Kaipparettu, Nagireddy Putluri, Frank Sicheri, Jeffrey M. Rosen, Michael T. Lewis, Xi Chen

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Figure 3

MYC binds to and regulates IRE1 proximal promoter and enhancer.

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MYC binds to and regulates IRE1 proximal promoter and enhancer. (A) Trac...
(A) Track view of MYC ChIP-seq density profile on IRE1 genomic region from published data sets. (B) Schematic diagram of the ChIP primer (P1–P4) locations across the IRE1 promoter region. (C and D) Chromatin extracts from SUM159 cells (C) and MC1 PDX tumors (D) were subjected to ChIP using anti-MYC antibody or normal IgG. Genomic regions of the IRE1 promoter were tested for enrichment of MYC binding. Data are presented relative to input and shown as mean ± SD of technical triplicates. (E) Schematic diagram of the ChIP primer (E1–E4) locations across the IRE1 enhancer region. (F and G) Chromatin extracts from SUM159 cells (F) and MC1 PDX tumors (G) were subjected to ChIP using anti-MYC antibody or normal IgG. Genomic regions of IRE1 intron were tested for enrichment of MYC binding. Data are presented relative to input and shown as mean ± SD of technical triplicates. (H and I) IRE1 promoter (H) or enhancer (I) luciferase reporter was transfected into SUM159 cells infected with lentiviruses encoding scramble control shRNA (shScr) or MYC shRNA (shMYC), and luciferase activity was measured 48 hours after transfection. pGL3-basic or pGL3-promoter is the empty vector control for IRE1 promoter or enhance reporter, respectively. Data are presented relative to Renilla readings and shown as mean ± SD of biological triplicates. All results shown are representative of 3 independent experiments. *P < 0.05; **P < 0.01, 2-tailed unpaired Student’s t test.