Self-maintenance of zonal hepatocytes during adult homeostasis and their complex plasticity upon distinct liver injuries

Hepatocytes are organized into distinct zonal subsets across the liver lobule, yet their contributions to liver homeostasis and regeneration remain controversial. Here, we developed multiple genetic lineage-tracing mouse models to systematically address this. We found that the liver lobule can be di...

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Published in:Cell reports (Cambridge) 2025-01, Vol.44 (1), p.115093, Article 115093
Main Authors: Ang, Chow Hiang, Arandjelovic, Philip, Cheng, Jinming, Yang, Jicheng, Guo, Fusheng, Yu, Yuanquan, Nelameham, Sarmilla, Whitehead, Lachlan, Li, Jiangtao, Silver, David L., Barker, Nick, Visvader, Jane E., Chow, Pierce K.H., Smyth, Gordon K., Chen, Yunshun, Virshup, David M., Fu, Nai Yang
Format: Article
Language:English
Subjects:
cell plasticity
CP: Stem cell research
hepatocyte
lineage tracing
liver development
liver homeostasis
liver injury
liver lobule
liver regeneration
liver zonation
stem cells
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Summary:Hepatocytes are organized into distinct zonal subsets across the liver lobule, yet their contributions to liver homeostasis and regeneration remain controversial. Here, we developed multiple genetic lineage-tracing mouse models to systematically address this. We found that the liver lobule can be divided into two major zonal and molecular hepatocyte populations marked by Cyp2e1 or Gls2. Pericentral Cyp2e1+ and periportal Gls2+ hepatocytes maintain their own lineage during adult homeostasis, while Cyp2e1+ hepatocytes fuel neonatal liver growth. The Gls2+ and Cyp2e1+ populations can rapidly regenerate one another when one of the populations is severely damaged. Midlobular Ccnd1+ hepatocytes are enriched in the Cyp2e1+ zone in adult liver but have limited contributions to regeneration upon partial hepatectomy and severe pericentral injury. Remarkably, Lgr5+ hepatocytes, a unique Cyp2e1+ subset, contribute significantly to liver replenishment upon periportal injuries. Our findings unravel that zonal hepatocytes mainly self-maintain during homeostasis but exhibit complex plasticity in repair upon injury. [Display omitted] •Pericentral Lgr5–Cyp2e1+ hepatocytes expand and fuel neonatal liver growth•Distinct zonal hepatocyte subsets self-maintain during adult homeostasis•Midlobular Ccnd1+ hepatocytes are not necessary for adult liver regeneration•While local repair is preferred, zonal hepatocytes harbor high plasticity upon liver injury Ang et al. develop multiple genetic lineage-tracing mouse models to systematically study liver regeneration. They demonstrate that pericentral Cyp2e1+ hepatocytes fuel neonatal liver development. Distinct zonal hepatocytes self-maintain during adult homeostasis and partial hepatectomy. While local repair is preferred, zonal hepatocytes harbor high plasticity to replenish neighboring populations upon injuries.
ISSN:2211-1247
2211-1247
DOI:10.1016/j.celrep.2024.115093