Journal
ELIFE
Volume 12, Issue -, Pages -Publisher
eLIFE SCIENCES PUBL LTD
DOI: 10.7554/eLife.81926
Keywords
BECs; liver steatosis; BEC-organoids; BEC activation; cell cycle; glycolysis; Mouse
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During severe or chronic hepatic injury, biliary epithelial cells (BECs) can rapidly accumulate lipids and undergo metabolic rewiring, leading to their conversion into reactive progenitor cells. This process, driven by the activation of E2F transcription factors, plays a crucial role in the early stages of non-alcoholic fatty liver disease (NAFLD) and provides insights into the connection between lipid metabolism, stemness, and regeneration.
During severe or chronic hepatic injury, biliary epithelial cells (BECs) undergo rapid activation into proliferating progenitors, a crucial step required to establish a regenerative process known as ductular reaction (DR). While DR is a hallmark of chronic liver diseases, including advanced stages of non-alcoholic fatty liver disease (NAFLD), the early events underlying BEC activation are largely unknown. Here, we demonstrate that BECs readily accumulate lipids during high-fat diet feeding in mice and upon fatty acid treatment in BEC-derived organoids. Lipid overload induces metabolic rewiring to support the conversion of adult cholangiocytes into reactive BECs. Mechanistically, we found that lipid overload activates the E2F transcription factors in BECs, which drive cell cycle progression while promoting glycolytic metabolism. These findings demonstrate that fat overload is sufficient to reprogram BECs into progenitor cells in the early stages of NAFLD and provide new insights into the mechanistic basis of this process, revealing unexpected connections between lipid metabolism, stemness, and regeneration.
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