The transcription factor Klf5 is essential for intrahepatic biliary epithelial tissue remodeling after cholestatic liver injury

Under various conditions of liver injury, the intrahepatic biliary epithelium undergoes dynamic tissue expansion and remodeling, a process known as ductular reaction. Mouse models defective in inducing such a tissue-remodeling process are more susceptible to liver injury, suggesting a crucial role o...

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Bibliographic Details
Published in:The Journal of biological chemistry 2018-04, Vol.293 (17), p.6214-6229
Main Authors: Okada, Hajime, Yamada, Minami, Kamimoto, Kenji, Kok, Cindy Yuet-Yin, Kaneko, Kota, Ema, Masatsugu, Miyajima, Atsushi, Itoh, Tohru
Format: Article
Language:English
Subjects:
Animals
bile duct
Bile Ducts, Intrahepatic - metabolism
Bile Ducts, Intrahepatic - pathology
bioinformatics
Cell Cycle - drug effects
cell proliferation
Cholestasis - chemically induced
Cholestasis - genetics
Cholestasis - metabolism
Cholestasis - pathology
ductular reaction (DR)
epithelial cell
Epithelial Cells - metabolism
Epithelial Cells - pathology
Gene Expression Regulation - drug effects
Hepatocytes - metabolism
Hepatocytes - pathology
homeostasis
kruppel-like factor 5 (KLF5)
Kruppel-Like Transcription Factors - biosynthesis
Kruppel-Like Transcription Factors - genetics
Liver - injuries
Liver - metabolism
Liver - pathology
liver injury
Liver Regeneration
Mice
Mice, Knockout
Molecular Bases of Disease
Pyridines - toxicity
regeneration
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Summary:Under various conditions of liver injury, the intrahepatic biliary epithelium undergoes dynamic tissue expansion and remodeling, a process known as ductular reaction. Mouse models defective in inducing such a tissue-remodeling process are more susceptible to liver injury, suggesting a crucial role of this process in liver regeneration. However, the molecular mechanisms regulating the biliary epithelial cell (BEC) dynamics in the ductular reaction remain largely unclear. Here, we demonstrate that the transcription factor Krüppel-like factor 5 (Klf5) is highly enriched in mouse liver BECs and plays a key role in regulating the ductular reaction, specifically under cholestatic injury conditions. Although mice lacking Klf5 in the entire liver epithelium, including both hepatocytes and BECs (Klf5-LKO (liver epithelial-specific knockout) mice), did not exhibit any apparent phenotype in the hepatobiliary system under normal conditions, they exhibited significant defects in biliary epithelial tissue remodeling upon 3,5-diethoxycarbonyl-1,4-dihydrocollidine-induced cholangitis, concomitantly with exacerbated cholestasis and reduced survival rate. In contrast, mice lacking Klf5 solely in hepatocytes did not exhibit any such phenotypes, confirming Klf5’s specific role in BECs. RNA-sequencing analyses of BECs isolated from the Klf5-LKO mouse livers revealed that the Klf5 deficiency primarily affected expression of cell cycle-related genes. Moreover, immunostaining analysis with the proliferation marker Ki67 disclosed that the Klf5-LKO mice had significantly reduced BEC proliferation levels upon injury. These results indicate that Klf5 plays a critical role in the ductular reaction and biliary epithelial tissue expansion and remodeling by inducing BEC proliferation and thereby contributing to liver regeneration.
ISSN:0021-9258
1083-351X
DOI:10.1074/jbc.RA118.002372