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首页> 外文OA文献 >A novel single-cell proliferation assay shows that long-term culture-initiating cell (LTC-IC) maintenance over time results from the extensive proliferation of a small fraction of LTC-IC
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A novel single-cell proliferation assay shows that long-term culture-initiating cell (LTC-IC) maintenance over time results from the extensive proliferation of a small fraction of LTC-IC

机译:一种新颖的单细胞增殖测定法表明,长期培养起始细胞(LTC-IC)的长期维护是由于一小部分LTC-IC的广泛增殖导致的

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We have previously shown that when adult marrow CD34+/HLA-DR- cells are cultured for 5 or 8 weeks in the presence of stroma-conditioned media with interleukin-3 (IL-3) and macrophage inflammatory protein-1 alpha (MIP-1 alpha), long-term culture-initiating cells (LTC-IC) are maintained but not expanded. However, if the same cultures are evaluated after 2 weeks, we show that LTC-IC expand 5.5- +/- 0.2-fold. Because expansion of LTC-IC is likely the result of a balance between proliferation and loss of LTC-IC, we hypothesized that, although LTC-IC proliferate in these cultures, loss of a fraction of LTC-IC underlies the lack of long-term expansion. To evaluate the fate of LTC-IC (proliferation, conservation, or loss), we performed PKH-26 labeling assays and developed a single LTC-IC proliferation assay. For PKH-26 labeling assays, CD34+/HLA-DR- cells were incubated with the membrane intercallating dye, PKH-26, before culture for 14 days in stroma-noncontact cultures + IL-3 + MIP-1 alpha. Progeny was reselected by fluorescence-activated cell sorting based on their PKH-26 fluorescence intensity. These studies showed that LTC-IC proliferate because 80% of LTC-IC at week 2 had 0.5 to 1 log lower fluorescence intensity than did freshly labeled CD34+/HLA-DR- cells. To further determine the fate of LTC-IC, we also developed a single LTC-IC proliferation assay. A population of CD34+/CD33- cells, highly enriched in LTC-IC, was sorted singly in stroma-conditioned media+IL-3 + MIP-1 alpha. After 5 weeks, the content of each well was divided equally over 8 secondary stroma-containing wells and cultured for 8 weeks to determine the capacity of the single-cell progeny to initiate 1 or more secondary stromal cultures. Progeny of single-sorted cells were able to initiate up to 8 secondary long-term cultures, demonstrating that LTC-IC proliferate in stroma-conditioned media+IL-3 + MIP-1 alpha. However, more than 65% of single-sorted LTC-IC were not conserved because their progeny could no longer initiate secondary long-term cultures. This finding indicates that, although stromal factors and IL-3 + MIP-1 alpha can induce proliferation of LTC-IC, failure to conserve a large fraction of LTC-IC results in lack of long-term expansion.(ABSTRACT TRUNCATED AT 400 WORDS)
机译:先前我们已经表明,在有白细胞介素3(IL-3)和巨噬细胞炎性蛋白1α(MIP-1)的基质条件培养基存在下,当成年骨髓CD34 + / HLA-DR-细胞培养5或8周时α),长期培养起始细胞(LTC-IC)得以维持,但没有扩增。但是,如果在2周后评估相同的培养物,我们将显示LTC-IC扩展5.5-+ /-0.2倍。因为LTC-IC的扩增很可能是LTC-IC增殖与损失之间平衡的结果,所以我们假设,尽管LTC-IC在这些培养物中增殖,但一部分LTC-IC的损失是长期缺乏的基础。扩张。为了评估LTC-IC的命运(增殖,保守或丢失),我们进行了PKH-26标记测定并开发了一个LTC-IC增殖测定。对于PKH-26标记测定,将CD34 + / HLA-DR-细胞与膜相互作用染料PKH-26孵育,然后在基质非接触培养+ IL-3 + MIP-1α中培养14天。后代通过其PKH-26荧光强度通过荧光激活细胞分选进行重新选择。这些研究表明LTC-IC增殖是因为在第2周时80%的LTC-IC的荧光强度比新鲜标记的CD34 + / HLA-DR-细胞低0.5至1 log。为了进一步确定LTC-IC的命运,我们还开发了单个LTC-IC增殖测定法。在基质条件培养基+ IL-3 + MIP-1 alpha中单独筛选高度富含LTC-IC的CD34 + / CD33-细胞。 5周后,将每个孔的内容物平均分配到8个含次级基质的孔中,并培养8周以确定单细胞后代启动1个或多个次级基质培养的能力。单分选细胞的后代能够启动多达8次次级长期培养,表明LTC-IC在基质条件培养基+ IL-3 + MIP-1 alpha中增殖。但是,超过65%的单分类LTC-IC并不保守,因为它们的后代不再能够启动次级长期培养。这一发现表明,尽管基质因子和IL-3 + MIP-1α可以诱导LTC-IC增殖,但未能保存大部分LTC-IC导致缺乏长期扩展。(摘要截短了400字)

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