AI Article Synopsis
- Mature rat liver cells can adapt to culture better than human cells but typically lose essential functions quickly.
- Researchers created a lab method to grow cells from human livers affected by severe disease by blocking certain signaling pathways, allowing for better cell proliferation.
- The study found that these human liver cells have characteristics of both normal liver and bile duct cells but do not regrow as effectively as mouse liver cells when reintroduced into the body.
Article Abstract
Background & Aims: Mature hepatocytes have limited expansion capability in culture and rapidly loose key functions. Recently however, tissue culture conditions have been developed that permit rodent hepatocytes to proliferate and transform into progenitor-like cells with ductal characteristics in vitro. Analogous cells expressing both hepatic and duct markers can be found in human cirrhotic liver in vivo and may represent an expandable population.
Methods: An in vitro culture system to expand epithelial cells from human end stage liver disease organs was developed by inhibiting the canonical TGF-β, Hedgehog and BMP pathways.
Results: Human cirrhotic liver epithelial cells became highly proliferative in vitro. Both gene expression and DNA methylation site analyses revealed that cirrhosis derived epithelial liver cells were intermediate between normal hepatocytes and cholangiocytes. Mouse hepatocytes could be expanded under the same conditions and retained the ability to re-differentiate into hepatocytes upon transplantation. In contrast, human cirrhotic liver derived cells had only low re-differentiation capacity.
Conclusions: Epithelial cells of intermediate ductal-hepatocytic phenotype can be isolated from human cirrhotic livers and expanded in vitro. Unlike their murine counterparts they have limited liver repopulation potential.
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| http://dx.doi.org/10.1016/j.scr.2021.102523 | DOI Listing |
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