Abstract
Murine γδ T cells include subsets that are programmed for distinct effector functions during their development in the thymus. Under pathological conditions, different γδ T cell subsets can be protective or can exacerbate a disease. Here we show that CD117, CD200 and CD371, together with other markers, identify seven developmental stages of γδ T cells. These seven stages can be divided into three distinct developmental pathways that are enriched for different TCRδ repertoires and exhibit characteristic expression patterns associated with adaptive (γδTn), IFN-γ-producing (γδT1) and IFN-γ/IL-4-co-producing γδ T cells (γδNKT). Developmental progression towards both IFN-γ-producing subsets can be induced by TCR signalling, and each pathway results in thymic emigration at a different stage. Finally, we show that γδT1 cells are the predominating IFN-γ-producing subset developing in the adult thymus. Thus, this study maps out three distinct development pathways that result in the programming of γδTn, γδT1 and γδNKT cells.
Highlights
Murine γδ T cells include subsets that are programmed for distinct effector functions during their development in the thymus
Surface expression of the gene products was verified by flow cytometry yielding three markers that can further segregate CD24high γδ thymocytes: CD117 (c-Kit), CD200 (OX-2) and CD371 (Clec12a) (Fig. 1c–e)
To establish additional development stages, we examined the coexpression of CD117, CD200 and CD371 with CD24, CD25 and CD73
Summary
Murine γδ T cells include subsets that are programmed for distinct effector functions during their development in the thymus. We show that CD117, CD200 and CD371, together with other markers, identify seven developmental stages of γδ T cells These seven stages can be divided into three distinct developmental pathways that are enriched for different TCRδ repertoires and exhibit characteristic expression patterns associated with adaptive (γδTn), IFN-γ-producing (γδT1) and IFN-γ/IL-4-co-producing γδ T cells (γδNKT). Developmental progression towards both IFN-γ-producing subsets can be induced by TCR signalling, and each pathway results in thymic emigration at a different stage. This study maps out three distinct development pathways that result in the programming of γδTn, γδT1 and γδNKT cells. Previous studies have further shown that CD25 marks a small population of highly immature γδTCR-expressing progenitors, and that CD73 marks γδ thymocytes that are committed to the γδ lineage[8, 26, 27]
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