Department of Pathology and Laboratory Medicine, Perelman School of Medicine at the University of Pennsylvania, Philadelphia, Pennsylvania, USA.
Nat Immunol. 2013 Dec;14(12):1277-84. doi: 10.1038/ni.2760. Epub 2013 Nov 3.
Notch signaling induces gene expression of the T cell lineage and discourages alternative fate outcomes. Hematopoietic deficiency in the Notch target Hes1 results in severe T cell lineage defects; however, the underlying mechanism is unknown. We found here that Hes1 constrained myeloid gene-expression programs in T cell progenitor cells, as deletion of the myeloid regulator C/EBP-α restored the development of T cells from Hes1-deficient progenitor cells. Repression of Cebpa by Hes1 required its DNA-binding and Groucho-recruitment domains. Hes1-deficient multipotent progenitor cells showed a developmental bias toward myeloid cells and dendritic cells after Notch signaling, whereas Hes1-deficient lymphoid progenitor cells required additional cytokine signaling for diversion into the myeloid lineage. Our findings establish the importance of constraining developmental programs of the myeloid lineage early in T cell development.
Notch 信号诱导 T 细胞谱系的基因表达,并抑制其他命运结局。Notch 靶基因 Hes1 的造血缺陷导致严重的 T 细胞谱系缺陷;然而,其潜在机制尚不清楚。我们在这里发现,Hes1 限制了 T 细胞祖细胞中的髓系基因表达程序,因为髓系调节因子 C/EBP-α 的缺失恢复了 Hes1 缺陷祖细胞中 T 细胞的发育。Hes1 对 Cebpa 的抑制需要其 DNA 结合和 Groucho 募集结构域。Notch 信号后,Hes1 缺陷的多能祖细胞表现出向髓系细胞和树突状细胞的发育偏向,而 Hes1 缺陷的淋系祖细胞需要额外的细胞因子信号转导才能转向髓系。我们的发现确立了在 T 细胞发育早期限制髓系发育程序的重要性。