Super-enhancer–driven EFNA1 fuels tumor progression in cervical cancer via the FOSL2-Src/AKT/STAT3 axis
Shu-Qiang Liu, … , Chun-Ling Luo, Jin-Xin Bei
Shu-Qiang Liu, … , Chun-Ling Luo, Jin-Xin Bei
Published February 18, 2025
Citation Information: J Clin Invest. 2025;135(8):e177599. https://doi.org/10.1172/JCI177599.
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Research Article Cell biology Oncology

Super-enhancer–driven EFNA1 fuels tumor progression in cervical cancer via the FOSL2-Src/AKT/STAT3 axis

Abstract

Super-enhancers (SEs) are expansive cis-regulatory elements known for amplifying oncogene expression across various cancers. However, their role in cervical cancer (CC), a remarkable global malignancy affecting women, remains underexplored. Here we applied integrated epigenomic and transcriptomic profiling to delineate the distinct SE landscape in CC by analyzing paired tumor and normal tissues. Our study identifies a tumor-specific SE at the EFNA1 locus that drives EFNA1 expression in CC. Mechanically, the EFNA1-SE region contains consensus sequences for the transcription factor FOSL2, whose knockdown markedly suppressed luciferase activity and diminished H3K27ac enrichment within the SE region. Functional analyses further underlined EFNA1’s oncogenic role in CC, linking its overexpression to poor patient outcomes. EFNA1 knockdown strikingly reduced CC cell proliferation, migration, and tumor growth. Moreover, EFNA1 cis-interacted with its receptor EphA2, leading to decreased EphA2 tyrosine phosphorylation and subsequent activation of the Src/AKT/STAT3 forward signaling pathway. Inhibition of this pathway with specific inhibitors substantially attenuated the tumorigenic capacity of EFNA1-overexpressing CC cells in both in vitro and in vivo models. Collectively, our study unveils the critical role of SEs in promoting tumor progression through the FOSL2-EFNA1-EphA2-Src/AKT/STAT3 axis, providing new prognostic and therapeutic avenues for CC patients.

Authors

Shu-Qiang Liu, Xi-Xi Cheng, Shuai He, Tao Xia, Yi-Qi Li, Wan Peng, Ya-Qing Zhou, Zi-Hao Xu, Mi-Si He, Yang Liu, Pan-Pan Wei, Song-Hua Yuan, Chang Liu, Shu-Lan Sun, Dong-Ling Zou, Min Zheng, Chun-Yan Lan, Chun-Ling Luo, Jin-Xin Bei

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Figure 6

EphA2 mediates EFNA1 signals through cis-interaction with EFNA1.

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EphA2 mediates EFNA1 signals through cis-interaction with EFNA1. (A and ...
(A and B) Western blot analyses of immunoprecipitated products using anti-EFNA1 (A) or anti-EphA2 (B) antibodies in SiHa and HCC-94 cells. (C) Schematic representation of the domain structure of wild-type EphA2 and its mutants. LBD, ligand binding domain; SD, sushi domain; ELD, epidermal growth factor–like domain; FND, fibronectin type III domains; KD, kinase domain; SAMD, sterile-α-motif domain; PD, PDZ binding domain. (D) Co-IP assays in SiHa cells cotransfected with EFNA1-HA and either EphA2WT,FLAG, EphA2ΔLCF2,FLAG, EphA2ΔLBD,FLAG, EphA2ΔEXT,FLAG, EphA2ΔFNIII, or EphA2ΔLBD-KD,FLAG plasmids. Immunoprecipitations were performed using anti-HA antibodies. (E) Western blot analysis of the total and phosphorylated protein levels of EphA2 and AKT in SiHa and HCC-94 cells with EFNA1 overexpression. GAPDH serves as a loading control. (F and G) Western blot analyses of EphA2 and downstream cascades in HCC-94 cells with concurrent EphA2 knockdown and EFNA1 knockdown (F) or EFNA1 overexpression (G). GAPDH serves as a loading control. (H) Western blot analysis of EphA2 and downstream cascades in HCC-94 cells with concurrent EphA2 and EFNA1 overexpression. GAPDH serves as a loading control. (I) CCK-8 assay for cell proliferation in SiHa and HCC-94 cells with EFNA1 knockdown alone or combined knockdown of both EFNA1 and EphA2. (J and K) Colony formation assay for cells described in I, with corresponding statistical data presented in K. (L and M) Representative images of Transwell assay showing the migration ability of cells described in I, with statistics shown on the right in M. Scale bars: 100 μm. Between-group comparisons: 1-way ANOVA test. Significant P values: *P <0.05, **P < 0.01.