Croisille L, Auffray I, Katz A, Izac B, Vainchenker W, Coulombel L
INSERM U 362, Institut Gustave Roussy, Villejuif, France.
Blood. 1994 Dec 15;84(12):4116-24.
Very primitive human hematopoietic progenitor cells are identified indirectly by their ability to give rise to clonogenic progenitors in the presence of either human or murine stromal cells. These long-term culture-initiating cell (LTC-IC) assays are usually performed in the presence of hydrocortisone based on the initial observation that hydrocortisone was required for prolonged hematopoiesis in standard long-term bone marrow cultures. In this report, we investigated the role of hydrocortisone in LTC-IC assays initiated with CD34++/CD38- cells seeded onto either human bone marrow LTC-derived adherent cells or a murine marrow-derived stromal cell line, MS-5. It was found that weekly addition of hydrocortisone to the cultures reduced the frequency of LTC-IC (from 1/5 to 1/20) calculated from limiting dilution experiments and also reduced fivefold to 10-fold the number of their progeny clonogenic cells detected after 4 to 5 weeks. In contrast, the frequency and differentiative potential of CD34++/CD38- grown in the presence of human marrow feeders was unaltered by the addition of glucocorticoids. Data are consistent with the hypothesis that hydrocortisone inhibited LTC-IC differentiation by downregulating the expression of a synergistic factor produced by MS-5 cells. (1) In the absence of hydrocortisone, the number of clonogenic progenitors generated by LTC-IC was much higher in cultures seeded on MS-5 than in cultures seeded on human marrow adherent cells, which was also true when cytokines were added to the cocultures. However, based on the phenotype of the colonies, progenitors produced in MS-5 cocultures were more mature than those generated on human marrow adherent cells. (2) Hydrocortisone counteracted the stimulatory effect of recombinant human cytokines (interleukin-3, interleukin-6, and steel factor) in assays performed on MS-5 but not on human marrow feeders. (3) Hydrocortisone led to a 50% decrease in the numbers of colony-forming units-granulocyte-macrophage found in methycellulose colony assays of CD34++/CD38- cells performed in the presence of MS-5 cells. Taken together, our results indicate that hydrocortisone acts differently on a murine stromal cell line and on marrow-derived human stromal cells and may suppress the expression by MS-5 cells of an activity selectively promoting amplification of clonogenic cells derived from primitive LTC-IC.
非常原始的人类造血祖细胞是通过其在人或鼠基质细胞存在下产生克隆形成祖细胞的能力间接鉴定的。这些长期培养起始细胞(LTC-IC)检测通常在氢化可的松存在下进行,这是基于最初的观察结果,即在标准的长期骨髓培养中,氢化可的松是长期造血所必需的。在本报告中,我们研究了氢化可的松在以CD34++/CD38-细胞接种到人类骨髓LTC来源的贴壁细胞或鼠骨髓来源的基质细胞系MS-5上启动的LTC-IC检测中的作用。发现每周向培养物中添加氢化可的松会降低根据极限稀释实验计算的LTC-IC频率(从1/5降至1/20),并且还会使4至5周后检测到的其后代克隆形成细胞数量减少5至10倍。相反,在人类骨髓饲养层存在下生长的CD34++/CD38-的频率和分化潜能不受糖皮质激素添加的影响。数据与以下假设一致,即氢化可的松通过下调MS-5细胞产生的协同因子的表达来抑制LTC-IC分化。(1)在没有氢化可的松的情况下,接种在MS-5上的培养物中LTC-IC产生的克隆形成祖细胞数量比接种在人类骨髓贴壁细胞上的培养物中高得多,当向共培养物中添加细胞因子时也是如此。然而,根据集落的表型,在MS-5共培养物中产生的祖细胞比在人类骨髓贴壁细胞上产生的祖细胞更成熟。(2)氢化可的松在对MS-5进行的检测中抵消了重组人细胞因子(白细胞介素-3、白细胞介素-6和干细胞因子)的刺激作用,但在人类骨髓饲养层上没有。(3)氢化可的松导致在MS-5细胞存在下对CD34++/CD38-细胞进行的甲基纤维素集落检测中发现的粒细胞-巨噬细胞集落形成单位数量减少50%。综上所述,我们的结果表明,氢化可的松对鼠基质细胞系和骨髓来源的人类基质细胞的作用不同,并且可能抑制MS-5细胞表达一种选择性促进源自原始LTC-IC的克隆形成细胞扩增的活性。
