4EBP1-mediated SLC7A11 protein synthesis restrains ferroptosis triggered by MEK inhibitors in advanced ovarian cancer
Jiaxin Yin, … , Ying Xiong, Jing Tan
Jiaxin Yin, … , Ying Xiong, Jing Tan
Published June 6, 2024
Citation Information: JCI Insight. 2024;9(14):e177857. https://doi.org/10.1172/jci.insight.177857.
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Research Article Oncology Therapeutics

4EBP1-mediated SLC7A11 protein synthesis restrains ferroptosis triggered by MEK inhibitors in advanced ovarian cancer

Abstract

Loss of ferroptosis contributes to the development of human cancer, and restoration of ferroptosis has been demonstrated as a potential therapeutic strategy in cancer treatment. However, the mechanisms of how ferroptosis escape contributes to ovarian cancer (OV) development are not well elucidated. Here, we show that ferroptosis negative regulation signatures correlated with the tumorigenesis of OV and were associated with poor prognosis, suggesting that restoration of ferroptosis represents a potential therapeutic strategy in OV. High-throughput drug screening with a kinase inhibitor library identified MEK inhibitors as ferroptosis inducers in OV cells. We further demonstrated that MEK inhibitor–resistant OV cells were less vulnerable to trametinib-induced ferroptosis. Mechanistically, mTOR/eIF4E binding protein 1 (4EBP1) signaling promoted solute carrier family 7 member 11 (SLC7A11) protein synthesis, leading to ferroptosis inhibition in MEK inhibitor–resistant cells. Dual inhibition of MEK and mTOR/4EBP1 signaling restrained the protein synthesis of SLC7A11 via suppression of the mTOR/4EBP1 axis to reactivate ferroptosis in resistant cells. Together, these findings provide a promising therapeutic option for OV treatment through ferroptosis restoration by the combined inhibition of MEK and mTOR/4EBP1 pathways.

Authors

Jiaxin Yin, Jianfeng Chen, Jing Han Hong, Yulin Huang, Rong Xiao, Shini Liu, Peng Deng, Yichen Sun, Kelila Xin Ye Chai, Xian Zeng, Jason Yongsheng Chan, Peiyong Guan, Yali Wang, Peili Wang, Chongjie Tong, Qiang Yu, Xiaojun Xia, Choon Kiat Ong, Bin Tean Teh, Ying Xiong, Jing Tan

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Figure 5

Targeting PI3K/mTOR signaling sensitizes resistant cells to ferroptosis induced by MEK inhibitors.

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Targeting PI3K/mTOR signaling sensitizes resistant cells to ferroptosis ...
(A) Cell viability of SKOV3 treated with 500 nM trametinib with or without PI3K/AKT/mTOR inhibitors for 96 hours. BY719 (1 μM), PI103 (1 μM), MK2206 (MK) (5 μM), GSK690693 (GSK) (5 μM), rapamycin (Rapa) (1 μM), everolimus (Evero) (0.5 μM). (B) Colony formation of SKOV3 treated with 500 nM trametinib with or without PI3K/AKT/mTOR inhibitors. BY719 (1 μM), PI103 (1 μM), MK2206 (MK) (5 μM), GSK690693 (GSK) (5 μM), rapamycin (Rapa) (1 μM), everolimus (Evero) (0.5 μM). (C) Growth curves and (D) sub-G1 population analysis in SKOV3 treated with vehicle, trametinib, AKT inhibitors (GSK690693 or MK2206), or their combination. (E) Colony formation assay of PDC-POVC15 treated with trametinib (100 nM) with or without AKT inhibitors (MK2206, 5 μM and GSK690693, 5 μM). (F) Cell viability of SKOV3 and A2780R cells following trametinib (500 nM) or MK2206 treatment (5 μM) in the presence or absence of Fer-1 (2 μM), Lipro-1 (100 nM), DFO (300 nM), Z-VAD (5 μM), and Necro-1 (5 μM) for 48 hours. (G) Detection of lipid peroxidation level with BODIPY 581/591 C11 probe determined by the flow cytometer in SKOV3 and A2780R treated with trametinib (500 nM) or MK2206 (5 μM) treatment in the presence or absence of Fer-1, Lipro-1, and DFO for 48 hours. (H) Detection of GSH level in SKOV3 and A2780R followed by trametinib (500 nM) or MK2206 treatment (5 μM) in the presence or absence of Fer-1 or Lipro-1 for 48 hours. The data are presented as the mean ± SD of 3 independent experiments. (A and FH) P values were determined by 1-way ANOVA with Bonferroni’s post hoc test. (C) P values were determined by 2-way ANOVA with Tukey’s post hoc test. (D) P values were determined by unpaired Student’s t test. *P < 0.05, **P < 0.01, ***P < 0.001.