Abstract Background Vasculogenic mimicry (VM) and epithelial–mesenchymal transition (EMT) contribute to cervical cancer invasiveness and treatment resistance, yet the upstream regulators coordinating these plasticity programs remain incompletely defined. Ephrin receptor B2 (EPHB2) promotes malignant phenotypes in multiple tumor types; however, its functional role and mechanistic basis in cervical cancer, particularly in VM-associated plasticity, remain unclear. Methods EPHB2 dysregulation was screened in public transcriptomic cohorts (GSE168244, tumor vs. normal; GSE138080, precancer vs. normal) and validated at the protein level in an institutional immunohistochemistry (IHC) cohort. Its clinical relevance was assessed in TCGA-CESC with GTEx normal cervix controls for tumor–normal comparison and survival analysis. Single-cell RNA-seq data (GSE168652) were used to map EPHB2 expression and characterize epithelial functional states. Gain- and loss-of-function assays in HeLa and SiHa cells evaluated proliferation, clonogenicity, migration, apoptosis, EMT marker expression, and Matrigel-based capillary-like network formation. In vivo validation was performed in SiHa xenografts with stable EPHB2 knockdown. Mechanistic analyses integrated two independent RNA-seq comparisons after EPHB2 silencing with pathway enrichment, qRT–PCR and Western blot validation, and functional interrogation of ETV4. Results EPHB2 was consistently upregulated in cervical cancer across multiple cohorts, including precancerous lesions, and showed increased protein abundance in tumor tissues. In TCGA-CESC, high EPHB2 expression was associated with poorer overall survival and enhanced EMT activity. Single-cell analysis linked EPHB2-positive/high epithelial cells to EMT/VM-related epithelial states. Functionally, EPHB2 silencing inhibited proliferation, colony formation, migration, and capillary-like network formation, increased apoptosis, and shifted EMT markers toward an epithelial phenotype, whereas EPHB2 overexpression produced reciprocal effects. Stable EPHB2 knockdown further suppressed xenograft growth and altered angiogenesis/VM- and EMT-related features in vivo. Mechanistically, two independent RNA-seq datasets converged on “Transcriptional misregulation in cancer” as the only shared tumor-relevant enriched pathway. Subsequent validation supported an EPHB2–ERK–ETV4 module accompanied by coordinated changes in DUSP6 and CXCL8. ETV4 depletion impaired proliferation and VM-like network formation and attenuated the growth advantage conferred by EPHB2 overexpression. Conclusions EPHB2 promotes cervical cancer progression by sustaining EMT-linked plasticity and VM-like behavior, at least in part through an ERK–ETV4-centered transcriptional program. These findings identify EPHB2 as a candidate biomarker of aggressive cervical cancer and a potential therapeutic entry point for further investigation.
Jiao et al. (Sat,) studied this question.