Hepatic stellate cells contribute to progenitor cells and liver regeneration
Claus Kordes, … , Diran Herebian, Dieter Häussinger
Claus Kordes, … , Diran Herebian, Dieter Häussinger
Published November 17, 2014
Citation Information: J Clin Invest. 2014;124(12):5503-5515. https://doi.org/10.1172/JCI74119.
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Research Article

Hepatic stellate cells contribute to progenitor cells and liver regeneration

Abstract

Retinoid-storing hepatic stellate cells (HSCs) have recently been described as a liver-resident mesenchymal stem cell (MSC) population; however, it is not clear whether these cells contribute to liver regeneration or serve as a progenitor cell population with hepatobiliary characteristics. Here, we purified HSCs with retinoid-dependent fluorescence-activated cell sorting from eGFP-expressing rats and transplanted these GFP+ HSCs into wild-type (WT) rats that had undergone partial hepatectomy in the presence of 2-acetylaminofluorene (2AAF) or retrorsine, both of which are injury models that favor stem cell–based liver repair. Transplanted HSCs contributed to liver regeneration in host animals by forming mesenchymal tissue, progenitor cells, hepatocytes, and cholangiocytes and elevated direct bilirubin levels in blood sera of GUNN rats, indicating recovery from the hepatic bilirubin–handling defect in these animals. Transplanted HSCs engrafted within the bone marrow (BM) of host animals, and HSC-derived cells were isolated from BM and successfully retransplanted into new hosts with injured liver. Cultured HSCs transiently adopted an expression profile similar to that of progenitor cells during differentiation into bile acid–synthesizing and –transporting hepatocytes, suggesting that stellate cells represent a source of liver progenitor cells. This concept connects seemingly contradictory studies that favor either progenitor cells or MSCs as important players in stem cell–based liver regeneration.

Authors

Claus Kordes, Iris Sawitza, Silke Götze, Diran Herebian, Dieter Häussinger

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Figure 6

Transplanted eGFP+ HSCs contribute to liver regeneration in WT host rats that undergo PHX in the presence of retrorsine.

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Transplanted eGFP+ HSCs contribute to liver regeneration in WT host rats...
(A) Percentage of cells that derived from transplanted eGFP+ male HSCs in female host liver within 14 days of liver regeneration was assessed by qPCR of eGFP mRNA (n = 7). Livers of transgenic eGFP+ (100%, n = 3) and WT rats (0%, n = 3) were used for normalization. (B) DAB immunohistochemistry of eGFP (brown) and desmin immunofluorescence (yellow) in WT host liver (zone 2). (C) Fast red immunohistochemistry of eGFP (red) in combination with HNF4α immunofluorescence (yellow) was used to identify hepatocytes derived from transplanted eGFP+ HSCs. Combined FISH of Y chromosome (red) and (D) immunofluorescence of HNF4α or (E) panK (green) in female host liver (zone 1). (D) Hepatocytes and (E) bile duct cells derived from transplanted male HSCs are indicated by arrows. (D) The Y chromosome (red) appeared white when HNF4α (green) and DAPI (blue) were costained. (F) Simultaneous detection of Y (red) and X (green) chromosomes by FISH in female host liver. Arrows indicate diploid and tetraploid hepatocytes that derived from transplanted male HSCs without cell fusion (zone 1). Scale bars: 50 μm (B, C, and D); 20 μm (E and F).