Exploring the mechanism of pancreatic cell fate decisions via cell-cell communication

Exploring the mechanism of pancreatic cell fate decisions via cell-cell communication

Blog Article

The endocrine and exocrine cells in pancreas originate initially from a group of apparently identical endoderm cells in the early gut.The endocrine and exocrine tissues are composed of islet/acinar and duct cells respectively.To explore the mechanism of pancreas cell fate decisions, we first construct a minimal mathematical model related to pancreatic regulations.The regulatory read more mechanism of acinar-to-islet cell conversion is revealed by bifurcation analysis of the model.In addition, Notch signaling is critical in determining the fate of endocrine and exocrine in the developing pancreas and it is a typical mediator of lateral inhibition which instructs adjacent cells to make different fate decisions.

Next, we construct a multicellular model of cell-cell communication mediated by Notch signaling with trans-activation and cis-inhibition.The roles of Notch signaling in regulating fate decisions of endocrine and exocrine cells during the differentiation of pancreatic cells are explored.The results indicate that high (or low) level of Notch signaling drive cells ucsb gaucho blue to select the fate of exocrine (or endocrine) progenitor cells.The networks and the models presented here might be good candidates for providing qualitative mechanisms of pancreatic cell fate decisions.These results can also provide some insight on choosing perturbation strategies for further experimental analysis.