IRE1α RNase–dependent lipid homeostasis promotes survival in Myc-transformed cancers
Hong Xie, Chih-Hang Anthony Tang, Jun H. Song, Anthony Mancuso, Juan R. Del Valle, Jin Cao, Yan Xiang, Chi V. Dang, Roy Lan, Danielle J. Sanchez, Brian Keith, Chih-Chi Andrew Hu, M. Celeste Simon
Hong Xie, Chih-Hang Anthony Tang, Jun H. Song, Anthony Mancuso, Juan R. Del Valle, Jin Cao, Yan Xiang, Chi V. Dang, Roy Lan, Danielle J. Sanchez, Brian Keith, Chih-Chi Andrew Hu, M. Celeste Simon
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Research Article Oncology

IRE1α RNase–dependent lipid homeostasis promotes survival in Myc-transformed cancers

Abstract

Myc activation is a primary oncogenic event in many human cancers; however, these transcription factors are difficult to inhibit pharmacologically, suggesting that Myc-dependent downstream effectors may be more tractable therapeutic targets. Here, we show that Myc overexpression induces endoplasmic reticulum (ER) stress and engages the inositol-requiring enzyme 1α (IRE1α)/X-box binding protein 1 (XBP1) pathway through multiple molecular mechanisms in a variety of c-Myc– and N-Myc–dependent cancers. In particular, Myc-overexpressing cells require IRE1α/XBP1 signaling for sustained growth and survival in vitro and in vivo, dependent on elevated stearoyl-CoA-desaturase 1 (SCD1) activity. Pharmacological and genetic XBP1 inhibition induces Myc-dependent apoptosis, which is alleviated by exogenous unsaturated fatty acids. Of note, SCD1 inhibition phenocopies IRE1α RNase activity suppression in vivo. Furthermore, IRE1α inhibition enhances the cytotoxic effects of standard chemotherapy drugs used to treat c-Myc–overexpressing Burkitt’s lymphoma, suggesting that inhibiting the IRE1α/XBP1 pathway is a useful general strategy for treatment of Myc-driven cancers.

Authors

Hong Xie, Chih-Hang Anthony Tang, Jun H. Song, Anthony Mancuso, Juan R. Del Valle, Jin Cao, Yan Xiang, Chi V. Dang, Roy Lan, Danielle J. Sanchez, Brian Keith, Chih-Chi Andrew Hu, M. Celeste Simon

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Figure 6

B-I09 treatment results in phenotypes dependent on SCD1 loss in BL cells.

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B-I09 treatment results in phenotypes dependent on SCD1 loss in BL cells...
(A) Immunoblot analysis of Ramos and Daudi cells treated with indicated concentrations of B-I09 for 48 hours. (B) Cell growth (n = 3) of Ramos and Daudi cells treated with B-I09 (20 μM for Ramos, 10 μM for Daudi) and rescued with BSA control or OA. (C) Relative viability of Ramos and Daudi cells treated with 10 μM B-I09 and rescued with BSA control, OA, or POA for 48 hours. (D) Relative viability of Ramos and Daudi cells treated with 0.5 μM SCDi and rescued with BSA control or OA for 48 hours. (E) Normalized reads of SCD in human BL and CB from healthy donors. Microarray data were obtained from the Oncomine database. Whiskers denote the minimal to maximal values. (F) Tumor growth and weight of xenografted Ramos tumors treated with control or SCDi (5 mg/kg, orally twice daily). For all viability assays, results are representative of 3 independent experiments. **P < 0.01; ***P < 0.001, 2-way ANOVA with Bonferroni’s correction (BD); 2-tailed Student’s t test (E and F).