Journal of Translational Medicine (Oct 2024)

KLF14 directly downregulates the expression of GPX4 to exert antitumor effects by promoting ferroptosis in cervical cancer

  • Hui Ye,
  • XuChao Ding,
  • XinRan Lv,
  • Ying Du,
  • Rui Guo,
  • Jin Qiu,
  • RuoNan Li,
  • LiLi Cao

DOI
https://doi.org/10.1186/s12967-024-05714-6
Journal volume & issue
Vol. 22, no. 1
pp. 1 – 21

Abstract

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Abstract Background Cervical cancer is the fourth leading cause of cancer-related death among women worldwide, and effective therapeutic strategies for its treatment are limited. Recent studies have indicated that ferroptosis, a form of regulated cell death, is a promising therapeutic strategy. KLF14 has been shown to regulate both cell proliferation and apoptosis in cervical cancer. However, its role in modulating lipid peroxidation and ferroptosis remains largely unexplored and enigmatic. Methods SiHa and HeLa cells were transduced with lentiviral vectors to overexpress KLF14. Protein levels were analyzed via western blotting and immunohistochemistry (IHC). LDH assays, calcein-AM/propidium iodide (PI) staining, and generation of cell growth curves using a real-time cell analysis (RTCA) system were used to detect cell damage and proliferation. Cellular ROS, lipid ROS, transmission electron microscopy (TEM), and Fe2+ assays and a xenograft mouse model were used to measure the level of ferroptosis. Proteomics combined with bioinformatics methods was used to screen target genes regulated by KLF14, and CUT&Tag and dual-luciferase assays confirmed the repression of GPX4 by KLF14 via direct binding to its promoter. Results KLF14 is abnormally expressed in various tumors and downregulated in cervical cancer. Overexpression of KLF14 induced ferroptosis and inhibited cell proliferation in vitro as well as xenograft tumorigenicity in vivo. Mechanistic studies revealed that KLF14 binds to the promoter of GPX4, suppressing its transcriptional activity and thereby decreasing its expression, which contributes to the induction of ferroptosis. Truncation and point mutation analyses of the GPX4 promoter revealed multiple binding sites for KLF14 within the − 1000 bp to + 35 bp region, which are responsible for its inhibitory effect on GPX4 transcription. Additionally, deletion of the zinc finger motif in KLF14 abolished its inhibitory effect on GPX4 promoter activity and cell proliferation. Conclusion Our data revealed a previously unidentified function of KLF14 in promoting ferroptosis, which results in the suppression of cell proliferation. Mechanistically, we revealed a novel regulatory mechanism by which KLF14 targets GPX4. These findings suggest a novel strategy to induce ferroptosis through the targeting of KLF14 in human cervical cancer cells.

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