Egeland T, Steen R, Quarsten H, Gaudernack G, Yang Y C, Thorsby E
Institute of Transplantation Immunology, Rikshospitalet University Hospital, Oslo, Norway.
Blood. 1991 Dec 15;78(12):3192-9.
CD34+ cells isolated from bone marrow or umbilical cord blood from healthy donors were studied for proliferation and differentiation in liquid cultures in the presence of recombinant human granulocyte-monocyte colony-stimulating factor (GM-CSF), granulocyte CSF (G-CSF), monocyte CSF (M-CSF), and interleukin-3 (IL-3), followed by immunophenotyping for myeloid and myeloid-associated cell surface markers. IL-3, either alone or together with GM-CSF, G-CSF, or M-CSF, induced, on average, 50-fold cell multiplication, GM-CSF five fold to 10-fold, and G-CSF and M-CSF less than fivefold. Cells from cultures stimulated with GM-CSF, G-CSF, or M-CSF alone contained cells with a "broad" myeloid profile, "broader" than observed in cultures with IL-3. However, since IL-3 induced rapid cell multiplication, high numbers of cells expressing early (CD13, CD33) and late myeloid markers (CD14, CD15) were recovered. The presence of other CSFs together with IL-3 did not alter the IL-3-induced effect on the cells. When 5,000 CD34+ cells were cultured with IL-3 alone, the cultures still contained 2,000 to 5,000 CD34+ cells after 14 days of culture, while cells cultured with GM-CSF, G-CSF, or M-CSF contained less than 1,000 CD34+ cells. Furthermore, 1,000 to 3,000 cells were positive for the megakaryocytic lineage marker CD41b after cultures with GM-CSF or IL-3, while cultures with G-CSF or M-CSF did not contain detectable numbers of CD41b+ cells. Finally, erythroid cells could also be generated from purified CD34+ cells. The results show that IL-3 and GM-CSF can induce rapid proliferation of purified CD34+ cells in vitro with differentiation to multiple myeloid lineages, while certain subsets maintain expression of CD34.
对从健康供体的骨髓或脐带血中分离出的CD34+细胞进行研究,观察其在含有重组人粒细胞-单核细胞集落刺激因子(GM-CSF)、粒细胞集落刺激因子(G-CSF)、单核细胞集落刺激因子(M-CSF)和白细胞介素-3(IL-3)的液体培养体系中的增殖和分化情况,随后对髓系及与髓系相关的细胞表面标志物进行免疫表型分析。单独使用IL-3或与GM-CSF、G-CSF或M-CSF联合使用时,平均可诱导细胞增殖50倍,GM-CSF可诱导细胞增殖5至10倍,而G-CSF和M-CSF诱导的细胞增殖倍数小于5倍。单独用GM-CSF、G-CSF或M-CSF刺激培养的细胞中,含有具有“宽泛”髓系特征的细胞,比在含IL-3的培养物中观察到的细胞“特征更宽泛”。然而,由于IL-3可诱导细胞快速增殖,因此可回收大量表达早期(CD13、CD33)和晚期髓系标志物(CD14、CD15)的细胞。其他集落刺激因子与IL-3共同存在时,不会改变IL-3对细胞的诱导作用。当5000个CD34+细胞单独用IL-3培养时,培养14天后培养物中仍含有2000至5000个CD34+细胞,而用GM-CSF、G-CSF或M-CSF培养的细胞中CD34+细胞少于1000个。此外,用GM-CSF或IL-3培养后,1000至3000个细胞对巨核细胞系标志物CD41b呈阳性,而用G-CSF或M-CSF培养的细胞中未检测到可计数的CD41b+细胞。最后,从纯化的CD34+细胞中也可生成红系细胞。结果表明,IL-3和GM-CSF可在体外诱导纯化的CD34+细胞快速增殖,并分化为多个髓系谱系,同时某些亚群维持CD34的表达。
