Mid-zone hepatocytes trade proliferation for survival via Atf4-Chop axis in early acute liver injury
Zhu, Y.; Deng, C.; Chen, B.; He, J.; Liu, Y.; Lei, S.; Lu, W.; Peng, C.; Shan, Z.
Show abstract
Hepatocytes undergo extensive proliferation to facilitate liver repair after injury, yet early adaptive changes prior to proliferation remain unclear. Here, we report that during early acetaminophen (APAP)-induced liver injury, hepatocytes exhibit transient proliferation suppression, most pronounced in mid-zone hepatocytes due to zonal APAP metabolism. Using spatial transcriptomics (ST), immunohistochemistry, and functional studies, we identified a unique mid-zone stress-response program. Central to this adaptation is the Atf4-Chop axis, which actively suppresses proliferation via the cell cycle inhibitor Btg2, prioritizing cytoprotection over cell division. This transient arrest is a critical survival strategy: halting energy-intensive proliferation during peak injury allows mid-zone hepatocytes to redirect resources towards protection, enhancing their survival in early APAP-induced liver injury. Thus, Atf4-Chop-mediated quiescence preserves a hepatocyte reservoir necessary for subsequent regenerative proliferation and effective repair. Our findings reveal a key adaptive trade-off in mid-zone hepatocytes where transient proliferation arrest promotes early survival to enable repair.
Matching journals
The top 6 journals account for 50% of the predicted probability mass.