Kinashi T, Lee K H, Ogawa M, Tohyama K, Tashiro K, Fukunaga R, Nagata S, Honjo T
Department of Medical Chemistry, Kyoto University Faculty of Medicine, Japan.
J Exp Med. 1991 May 1;173(5):1267-79. doi: 10.1084/jem.173.5.1267.
We are interested to know whether expression of a lineage-specific growth factor receptor is deterministic to lineage commitment during hematopoiesis. For this purpose, we introduced the human c-fms gene into the multipotential stem cell clone LyD9 and two myeloid progenitor clones, L-GM3 and L-G3, cells that differentiate in response to granulocyte/macrophage colony-stimulating factor (GM-CSF) and granulocyte (G)-CSF, respectively. Although LyD9 cells have differentiation potential to become macrophages, c-fms transfectants of LyD9 and L-GM3 cells did not differentiate in response to human macrophage (M)-CSF. However, c-fms transfectants of L-G3 cells differentiated to neutrophils in response to human M-CSF. These results indicate that the M-CSF receptor requires a specific signal transduction pathway to exert its differentiational and proliferative effects. Furthermore, the M-CSF receptor can convey a granulocyte-type differentiation signal possibly by cooperating with the G-CSF receptor signal transduction pathway. The c-fms-transfected LyD9 cells as well as the original LyD9 cells differentiated predominantly into GM-CSF- and G-CSF-responsive cells by coculturing with PA6 and ST2 stromal cells, respectively. The results indicate that differentiation lineage is not affected by premature expression of the M-CSF receptor. Instead, the stromal cell used for coculture apparently controls lineage-selective differentiation of the multi-potential stem cell line.
我们想了解谱系特异性生长因子受体的表达在造血过程中对谱系定向是否具有决定性作用。为此,我们将人类c-fms基因导入多能干细胞克隆LyD9以及两个髓系祖细胞克隆L-GM3和L-G3中,这些细胞分别对粒细胞/巨噬细胞集落刺激因子(GM-CSF)和粒细胞(G)-CSF有反应并发生分化。尽管LyD9细胞有分化为巨噬细胞的潜力,但LyD9和L-GM3细胞的c-fms转染子对人巨噬细胞(M)-CSF没有反应而不发生分化。然而,L-G3细胞的c-fms转染子在人M-CSF作用下分化为中性粒细胞。这些结果表明,M-CSF受体需要特定的信号转导途径来发挥其分化和增殖作用。此外,M-CSF受体可能通过与G-CSF受体信号转导途径协同作用来传递粒细胞型分化信号。通过分别与PA6和ST2基质细胞共培养,c-fms转染的LyD9细胞以及原始的LyD9细胞主要分化为对GM-CSF和G-CSF有反应的细胞。结果表明,分化谱系不受M-CSF受体过早表达的影响。相反,用于共培养的基质细胞显然控制着多能干细胞系的谱系选择性分化。