Role of Fascin-1 in cervical cancer metastasis via Wnt/β-catenin pathway activation

This investigation delves into the impact of Fascin-1, a protein known for its role in actin bundling and its association with metastatic enhancement, on the advancement of cervical cancer. Elevated levels of Fascin-1 have been observed in metastatic carcinomas, but its impact on gene regulation in cervical cancer has not been thoroughly studied. Our research demonstrates a marked elevation in the expression of Fascin-1 within tissues affected by cervical cancer. Experiments employing both overexpression and knockdown methods revealed that Fascin-1 plays a critical role in promoting the proliferation and mobility cervical cancer cells in vitro. Correspondingly, reducing Fascin-1 levels led to a marked decrease in tumor growth and metastatic spread in vivo. At the molecular level, diminishing Fascin-1 expression resulted in decreased I3-catenin and C-myc RNA and protein levels. This implies that Fascin-1 could intensify the progression of cervical cancer by influencing the Wnt/I3-catenin signaling cascade. This study not only elucidates the mechanism by which Fascin-1 contributes to the advancement of cervical cancer but also proposes a novel approach for therapeutic intervention.