Notch ligands control the human αβ/γδ lineage choice through receptor-specific induction of differential Notch signal strength. (111.29)

Abstract

Abstract Differential Notch signal strength influences the αβ versus γδ T-cell lineage decision in both mouse and human. Here, we show that the Notch ligands Delta-like-4, Jagged1 and Jagged2, differentially impact this lineage decision in human. Whereas Delta-like-4 supports both αβ and γδ T-cell development, Jagged1 induces αβ-lineage differentiation and Jagged2 primarily γδ T-cell development. Jagged2 induces the strongest Notch signal in human thymocytes as a result of interactions with both Notch1 and Notch3, whereas Delta-like-4 only binds Notch1. In agreement, Notch3 is a stronger activator of Notch target genes and only supports γδ-lineage development, whereas Notch1 is a weaker activator supporting both αβ and γδ T cell development. Blockage of Notch3 activation in Jagged2 cocultures rescues αβ-lineage differentiation, showing the importance of this interaction for driving γδ-lineage differentiation. Further analysis revealed that Jagged2-mediated Notch3 activation blocks αβ-lineage differentiation as a result of inhibition of TCR-β chain expression. Consistently, TCR-αβ T cell development is restored in Jagged2 cocultures by providing immature human T cell progenitors with a TCR-β chain. Our results show that Notch ligands control the human αβ/γδ lineage choice through receptor-specific induction of differential Notch signal strength and that Jagged2-mediated Notch3 activation drives human γδ-lineage differentiation as a result of inhibition of αβ-lineage differentiation.