HNF4A functions as a hepatocellular carcinoma oncogene or tumor suppressor depending upon the AMPK pathway activity status.

Cancer cells frequently undergo energy metabolic stress induced by the increased dynamics of nutrient supply. Hepatocyte nuclear factor 4A (HNF4A) is a master transcription factor (TF) in hepatocytes that regulates metabolism and differentiation. However, the mechanism underlying how HNF4A functions in cancer progression remains unclear due to conflicting results observed in numerous studies. To address the roles of HNF4A in hepatocellular carcinoma (HCC), we investigated the regulatory functions of HNF4A in HCC cells under different glucose supply conditions. We found that HNF4A exhibited tumor-suppressive effects on the proliferation and migration of HCC cells in glucose-sufficient conditions and tumor-promotive effects on HCC cells in glucose-insufficient conditions. Further investigation revealed that this diverse function of HNF4A was dependent upon the AMPK pathway activity. Similarly, the prognosis predicted by HNF4A was also correlated with whether the AMPKa expression levels were low or high in clinical HCC patients. Multiomics approaches consisting of proteomics and ChIP-seq revealed that key HNF4A target genes, including NEDD4 and RPS6KA2, are involved in the diverse function of HNF4A in HCC in response to the AMPK activity status. Specifically, HNF4A could bind to the promoter region of NEDD4 and RPS6KA2, and upregulating their expression. Our study has demonstrated the relationship between and synergism of AMPK and HNF4A in the progression of HCC under diverse nutrient conditions.