Jag1-Notch cis-interaction determines cell fate segregation in pancreatic development
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Jag1-Notch cis-interaction determines cell fate segregation in pancreatic development. / Xu, Xiaochan; Seymour, Philip Allan; Sneppen, Kim; Trusina, Ala; Egeskov-Madsen, Anuska la Rosa; Jørgensen, Mette Christine; Jensen, Mogens Høgh; Serup, Palle.
In: Nature Communications, Vol. 14, 348, 2023.Research output: Contribution to journal › Journal article › Research › peer-review
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TY - JOUR
T1 - Jag1-Notch cis-interaction determines cell fate segregation in pancreatic development
AU - Xu, Xiaochan
AU - Seymour, Philip Allan
AU - Sneppen, Kim
AU - Trusina, Ala
AU - Egeskov-Madsen, Anuska la Rosa
AU - Jørgensen, Mette Christine
AU - Jensen, Mogens Høgh
AU - Serup, Palle
N1 - © 2023. The Author(s).
PY - 2023
Y1 - 2023
N2 - The Notch ligands Jag1 and Dll1 guide differentiation of multipotent pancreatic progenitor cells (MPCs) into unipotent pro-acinar cells (PACs) and bipotent duct/endocrine progenitors (BPs). Ligand-mediated trans-activation of Notch receptors induces oscillating expression of the transcription factor Hes1, while ligand-receptor cis-interaction indirectly represses Hes1 activation. Despite Dll1 and Jag1 both displaying cis- and trans-interactions, the two mutants have different phenotypes for reasons not fully understood. Here, we present a mathematical model that recapitulates the spatiotemporal differentiation of MPCs into PACs and BPs. The model correctly captures cell fate changes in Notch pathway knockout mice and small molecule inhibitor studies, and a requirement for oscillatory Hes1 expression to maintain the multipotent state. Crucially, the model entails cell-autonomous attenuation of Notch signaling by Jag1-mediated cis-inhibition in MPC differentiation. The model sheds light on the underlying mechanisms, suggesting that cis-interaction is crucial for exiting the multipotent state, while trans-interaction is required for adopting the bipotent fate.
AB - The Notch ligands Jag1 and Dll1 guide differentiation of multipotent pancreatic progenitor cells (MPCs) into unipotent pro-acinar cells (PACs) and bipotent duct/endocrine progenitors (BPs). Ligand-mediated trans-activation of Notch receptors induces oscillating expression of the transcription factor Hes1, while ligand-receptor cis-interaction indirectly represses Hes1 activation. Despite Dll1 and Jag1 both displaying cis- and trans-interactions, the two mutants have different phenotypes for reasons not fully understood. Here, we present a mathematical model that recapitulates the spatiotemporal differentiation of MPCs into PACs and BPs. The model correctly captures cell fate changes in Notch pathway knockout mice and small molecule inhibitor studies, and a requirement for oscillatory Hes1 expression to maintain the multipotent state. Crucially, the model entails cell-autonomous attenuation of Notch signaling by Jag1-mediated cis-inhibition in MPC differentiation. The model sheds light on the underlying mechanisms, suggesting that cis-interaction is crucial for exiting the multipotent state, while trans-interaction is required for adopting the bipotent fate.
U2 - 10.1038/s41467-023-35963-w
DO - 10.1038/s41467-023-35963-w
M3 - Journal article
C2 - 36681690
VL - 14
JO - Nature Communications
JF - Nature Communications
SN - 2041-1723
M1 - 348
ER -
ID: 333301451