Abstract
Hepatocyte nuclear factor 4α (HNF4α) regulates genes involved in lipid and bile acid synthesis, gluconeogenesis, amino acid metabolism, and blood coagulation. In addition to its metabolic role, HNF4α is critical for hepatocyte differentiation, and loss of HNF4α is associated with hepatocellular carcinoma. The hepatocyte-specific Hnf4a knock-out mouse develops severe hepatomegaly and steatosis resulting in premature death, thereby limiting studies of the role of this transcription factor in the adult animal. In addition, gene compensation may complicate analysis of the phenotype of these mice. To overcome these issues, an acute Hnf4a knock-out mouse model was generated through use of the tamoxifen-inducible ErT2cre coupled to the serum albumin gene promoter. Microarray expression analysis revealed up-regulation of genes associated with proliferation and cell cycle control only in the acute liver-specific Hnf4α-null mouse. BrdU and ki67 staining confirmed extensive hepatocyte proliferation in this model. Proliferation was associated with induction of the hepatomitogen Bmp7 as well as reduced basal apoptotic activity. The p53/p63 apoptosis effector gene Perp was further identified as a direct HNF4α target gene. These data suggest that HNF4α maintains hepatocyte differentiation in the adult healthy liver, and its loss may directly contribute to hepatocellular carcinoma development, thus indicating this factor as a possible liver tumor suppressor gene.
Highlights
HNF4␣ is a key factor regulating hepatocyte differentiation and liver-specific functions
In addition to its metabolic role, HNF4␣ is critical for hepatocyte differentiation, and loss of HNF4␣ is associated with hepatocellular carcinoma
In order to study the functions of HNF4␣ in the adult mouse liver without the confounding factors of early mortality and accumulated, severe hepatic malfunction, the Hnf4aF/F mice were crossed with the tamoxifeninducible hepatocyte-specific Cre recombinase expressing mouse SAϩ/Cre-ERT2 to generate Hnf4aF/F;AlbERT2cre mice (9, 21)
Summary
HNF4␣ is a key factor regulating hepatocyte differentiation and liver-specific functions. Microarray expression analysis revealed up-regulation of genes associated with proliferation and cell cycle control only in the acute liver-specific Hnf4␣-null mouse. The p53/p63 apoptosis effector gene Perp was further identified as a direct HNF4␣ target gene These data suggest that HNF4␣ maintains hepatocyte differentiation in the adult healthy liver, and its loss may directly contribute to hepatocellular carcinoma development, indicating this factor as a possible liver tumor suppressor gene. The possibility exists that gene compensation may occur when Hnf4␣ is lost during early development, obscuring the potential effects of HNF4␣ in the adult To overcome these obstacles, a temporal liver-specific knock-out of Hnf4a was generated using the ERT2cre system, which is activated upon tamoxifen exposure (21). Further investigation revealed the impact of acute Hnf4a disruption on the cell cycle, apoptosis, and growth factors, suggesting a potential role for HNF4␣ as a hepatic tumor suppressor
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