Litcius/Paper detail

Dynamics of hepatocyte-cholangiocyte cell-fate decisions during liver development and regeneration

Sarthak Sahoo, Ashutosh Mishra, Anna Mae Diehl, Mohit Kumar Jolly

2022iScience22 citationsDOIOpen Access PDF

Abstract

-differentiate to one another either directly or through intermediate progenitor states. However, the dynamic features of decision-making between these cell-fates during liver development and regeneration remains elusive. Here, we identify a core gene regulatory network comprising c/EBPα, TGFBR2, and SOX9 which is multistable in nature, enabling three distinct cell states - hepatocytes, cholangiocytes, and liver progenitor cells (hepatoblasts/oval cells) - and stochastic switching among them. Predicted expression signature for these three states are validated through multiple bulk and single-cell transcriptomic datasets collected across developmental stages and injury-induced liver repair. This network can also explain the experimentally observed spatial organization of phenotypes in liver parenchyma and predict strategies for efficient cellular reprogramming. Our analysis elucidates how the emergent dynamics of underlying regulatory networks drive diverse cell-fate decisions in liver development and regeneration.

Topics & Concepts

CholangiocyteCell fate determinationProgenitor cellHepatocyteRegeneration (biology)Cell biologyReprogrammingBiologyLiver regenerationGene regulatory networkStem cellCellProgenitorTranscriptomeZebrafishCell typeCellular differentiationGene expressionTranscription factorGeneGeneticsIn vitroEndocrinologyLiver physiology and pathologyPancreatic function and diabetesMicroRNA in disease regulation