HNF4α improves hepatocyte regeneration by upregulating PXR.

Abstract

Hepatocyte nuclear factor 4 alpha (HNF4α) and the pregnane X receptor (PXR) are involved in hepatocyte regeneration. It is not clear whether HNF4α is involved in hepatocyte regeneration through the regulation of PXR. This study aims to explore the regulatory relationship between HNF4a and PXR, and whether it affects hepatocyte regeneration. A mouse PXR gene reporter and an HNF4α overexpression plasmid were constructed and transfected into mouse hepatoma cells (Hepa1-6). Overexpression of HNF4α, detection of the PXR gene reporter fluorescence value, PXR gene, and protein expression analysis were conducted to explore the regulatory relationship between HNF4α and PXR. Apoptosis and cell cycle data were measured to verify whether HNF4α is involved in hepatocyte regeneration through PXR. The luciferase gene reporter assay results indicated when HNF4α was overexpressed, the fluorescence value of the PXR gene reporter was higher than that in the control at 24 h. With increasing HNF4α expression, the PXR gene and protein expression increased, indicating that HNF4α binds to the PXR promoter and upregulates PXR expression. Apoptosis and cell cycle analysis results demonstrated that when the expression of HNF4α increased, the expression of PXR increased, the apoptosis rate decreased, and the proliferation rate increased. Meanwhile, when the upward trend of PXR gene expression was inhibited by ketoconazole, the proliferation rate decreased. By inhibiting HNF4α and creating a partial hepatectomy (PHx), we demonstrated that HNF4α can upregulate PXR to promote liver regeneration invivo. Therefore, HNF4α is shown to improve hepatocyte regeneration by upregulating PXR, which provides a reference for future research on the combined application of drugs for the treatment of liver injury.