在斑马鱼中,近全量肝细胞丢失后,肝脏胆管上皮细胞广泛转化为肝细胞。
Extensive conversion of hepatic biliary epithelial cells to hepatocytes after near total loss of hepatocytes in zebrafish.
机构信息
Department of Developmental Biology, McGowan Institute for Regenerative Medicine, University of Pittsburgh, Pittsburgh, Pennsylvania.
Department of Biochemistry and Biophysics, Programs in Developmental and Stem Cell Biology, Genetics and Human Genetics, Diabetes Center, and Liver Center, University of California, San Francisco, San Francisco, California.
出版信息
Gastroenterology. 2014 Mar;146(3):776-88. doi: 10.1053/j.gastro.2013.10.019. Epub 2013 Oct 19.
BACKGROUND & AIMS: Biliary epithelial cells (BECs) are considered to be a source of regenerating hepatocytes when hepatocyte proliferation is compromised. However, there is still controversy about the extent to which BECs can contribute to the regenerating hepatocyte population, and thereby to liver recovery. To investigate this issue, we established a zebrafish model of liver regeneration in which the extent of hepatocyte ablation can be controlled.
METHODS
Hepatocytes were depleted by administration of metronidazole to Tg(fabp10a:CFP-NTR) animals. We traced the origin of regenerating hepatocytes using short-term lineage-tracing experiments, as well as the inducible Cre/loxP system; specifically, we utilized both a BEC tracer line Tg(Tp1:CreER(T2)) and a hepatocyte tracer line Tg(fabp10a:CreER(T2)). We also examined BEC and hepatocyte proliferation and liver marker gene expression during liver regeneration.
RESULTS
BECs gave rise to most of the regenerating hepatocytes in larval and adult zebrafish after severe hepatocyte depletion. After hepatocyte loss, BECs proliferated as they dedifferentiated into hepatoblast-like cells; they subsequently differentiated into highly proliferative hepatocytes that restored the liver mass. This process was impaired in zebrafish wnt2bb mutants; in these animals, hepatocytes regenerated but their proliferation was greatly reduced.
CONCLUSIONS
BECs contribute to regenerating hepatocytes after substantial hepatocyte depletion in zebrafish, thereby leading to recovery from severe liver damage.
背景与目的
当肝细胞增殖受损时,胆管上皮细胞(BEC)被认为是再生肝细胞的来源。然而,BEC 对再生肝细胞群体的贡献程度,以及对肝脏恢复的贡献程度仍存在争议。为了研究这个问题,我们建立了一种斑马鱼肝脏再生模型,其中可以控制肝细胞消融的程度。
方法
通过给予甲硝唑处理 Tg(fabp10a:CFP-NTR)动物来耗尽肝细胞。我们通过短期谱系追踪实验以及诱导型 Cre/loxP 系统来追踪再生肝细胞的起源;具体来说,我们利用了 BEC 示踪系 Tg(Tp1:CreER(T2))和肝细胞示踪系 Tg(fabp10a:CreER(T2))。我们还检查了肝脏再生过程中 BEC 和肝细胞的增殖以及肝脏标记基因的表达。
结果
在严重耗尽肝细胞后,BEC 产生了幼鱼和成年斑马鱼中大部分的再生肝细胞。在肝细胞丢失后,BEC 增殖,同时它们去分化为肝母细胞样细胞;随后它们分化为高度增殖的肝细胞,恢复了肝脏的质量。在 wnt2bb 突变体的斑马鱼中,这个过程受到了损害;在这些动物中,肝细胞再生,但它们的增殖大大减少。
结论
在斑马鱼中,大量的肝细胞耗竭后,BEC 有助于再生肝细胞的产生,从而导致严重肝损伤的恢复。
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