Rasko J E, O'Flaherty E, Begley C G
The Walter and Eliza Hall Institute of Medical Research, Royal Melbourne Hospital, Victoria, Australia.
Stem Cells. 1997;15(1):33-42. doi: 10.1002/stem.150033.
We examined cytokine-stimulated proliferation and survival of human megakaryocyte progenitor cells. We used a reliable, immunoenzymatic method of labeling CD41a-, CD42b-stained megakaryocytes in intact agar cultures to specifically identify and enumerate all megakaryocyte-containing colonies. We examined a previously defined population of cells enriched for megakaryocyte progenitors that coexpress CD34 and the megakaryocyte/platelet marker CD61. These CD34+61+ cells displayed clonogenicity of approximately 30% and contained myeloid, erythroid and megakaryocyte progenitor cells. With single CD34+61+ cells, megakaryocyte growth and development factor ([MGDF], also known as mpl-ligand or thrombopoietin) stimulated 9% of cells to complete their first cell division by day 2 (versus 21% with stem cell factor [SCF], or 13% with interleukin 3 alone). MGDF showed an additive effect with SCF and interleukin 3 to increase this number at least twofold. In purified CD34+61+ cells, MGDF stimulated the survival of megakaryocyte-colony forming cells (CFC) when addition of other proliferative factors was delayed for 5, 10 and 15 days (all p < 0.0001 versus saline control). MGDF also promoted survival of BFU-E and granulocyte-macrophage-CFC for at least 10 days (p < or = 0.0013 and p < or = 0.0362, respectively). SCF alone prolonged survival of CD34+61+ progenitor cells, however, MGDF + SCF was significantly more active. Whereas the action of MGDF on megakaryocyte-CFC was evident both in stimulating proliferation and survival, its ability to promote survival was between two- and fivefold greater than its action to stimulate proliferation. Thus MGDF alone, and in combination with SCF, was active in promoting the survival and proliferation of human progenitor cells of multiple hemopoietic lineages.
我们检测了细胞因子刺激下人巨核细胞祖细胞的增殖和存活情况。我们采用了一种可靠的免疫酶法,在完整的琼脂培养物中对CD41a、CD42b染色的巨核细胞进行标记,以特异性识别和计数所有含巨核细胞的集落。我们检测了一个先前定义的富含巨核细胞祖细胞的细胞群体,这些细胞共表达CD34和巨核细胞/血小板标志物CD61。这些CD34+61+细胞显示出约30%的克隆形成能力,并且包含髓系、红系和巨核细胞祖细胞。对于单个CD34+61+细胞,巨核细胞生长和发育因子([MGDF],也称为mpl配体或血小板生成素)刺激9%的细胞在第2天完成首次细胞分裂(相比之下,干细胞因子[SCF]刺激21%的细胞,单独使用白细胞介素3刺激13%的细胞)。MGDF与SCF和白细胞介素3具有相加作用,可使这一数量至少增加两倍。在纯化的CD34+61+细胞中,当其他增殖因子的添加延迟5天、10天和15天时,MGDF刺激了巨核细胞集落形成细胞(CFC)的存活(与生理盐水对照相比,所有p<0.0001)。MGDF还促进了爆式红系集落形成单位(BFU-E)和粒细胞-巨噬细胞集落形成细胞(CFC)的存活至少10天(分别为p≤0.0013和p≤0.0362)。单独使用SCF可延长CD34+61+祖细胞的存活时间,然而,MGDF+SCF的活性明显更高。虽然MGDF对巨核细胞CFC的作用在刺激增殖和存活方面均很明显,但其促进存活的能力比刺激增殖的作用大两到五倍。因此,单独的MGDF以及与SCF联合使用,在促进多种造血谱系的人祖细胞的存活和增殖方面均具有活性。
