Abstract
Radiofrequency ablation (RFA) is an established treatment for unresectable and early-stage hepatocellular carcinoma (HCC). However, in some cases, residual tumor cells undergo malignant transformation following RFA. The molecular mechanisms underlying this phenomenon remain poorly understood. EFCAB7, a member of the EF-hand structure family, is of particular interest due to its association with oncogenesis. Nevertheless, the role of EFCAB7 in oncogenesis remains unclear. Gene expression level of EFCAB7 in HCC tissues before and after RFA was measured, while in vitro and in vivo experiments were proposed for exploring the roles of EFCAB7 in tumor cell proliferation and metastasis. Mass spectrometry and CO-IP were adopted to validate the interaction between PARK7 and EFCAB7. Finally, PARK7 in EFCAB7 silencing cells was overexpressed and different functions were measured in vitro to determine regulation between two genes. EFCAB7 showed increased expression after RFA in patient samples and EFCAB7 expression correlated with poor prognosis in HCC patients from the TCGA database. Then, EFCAB7 promoted HCC tumor cell proliferation and metastasis while inhibiting apoptosis. Furthermore, Mass spectrometry and Co-IP experiments revealed a direct interaction between EFCAB7 and PARK7. Finally, when we overexpressed PARK7 in EFCAB7 knockdown tumor cells, it rescued proliferation and metastasis, indicating a functional relationship between these two genes. EFCAB7 might be a core contributor to HCC cells' malignant transformation after RFA and could be a potential novel target to provide a therapeutic strategy for the prevention of recurrence after RFA in HCC.
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