Etablissement Français du Sang-Aquitaine Limousin (EFS-AqLi), Bordeaux, France.
INSERM (U1035), Cellules souches hématopoïétiques normales et leucémiques, Bordeaux, France.
J Cell Physiol. 2018 Jan;233(1):338-349. doi: 10.1002/jcp.25881. Epub 2017 Mar 28.
Hematopoietic stem cells (HSCs), which are located in the bone marrow, also circulate in cord and peripheral blood. Despite high availability, HSCs from steady state peripheral blood (SSPB) are little known and not used for research or cell therapy. We thus aimed to characterize and select HSCs from SSPB by a direct approach with a view to delineating their main functional and metabolic properties and the mechanisms responsible for their maintenance. We chose to work on Side Population (SP) cells which are highly enriched in HSCs in mouse, human bone marrow, and cord blood. However, no SP cells from SSBP have as yet been characterized. Here we showed that SP cells from SSPB exhibited a higher proliferative capacity and generated more clonogenic progenitors than non-SP cells in vitro. Furthermore, xenotransplantation studies on immunodeficient mice demonstrated that SP cells are up to 45 times more enriched in cells with engraftment capacity than non-SP cells. From a cell regulation point of view, we showed that SP activity depended on O concentrations close to those found in HSC niches, an effect which is dependent on both hypoxia-induced factors HIF-1α and HIF-2α. Moreover SP cells displayed a reduced mitochondrial mass and, in particular, a lower mitochondrial activity compared to non-SP cells, while they exhibited a similar level of glucose incorporation. These results provided evidence that SP cells from SSPB displayed properties of very primitive cells and HSC, thus rendering them an interesting model for research and cell therapy.
造血干细胞(HSCs)位于骨髓中,也存在于脐带和外周血中循环。尽管供应丰富,但来自稳定状态外周血(SSPB)的 HSCs 知之甚少,也未用于研究或细胞治疗。因此,我们旨在通过直接方法从 SSPB 中鉴定和选择 HSCs,以描绘它们的主要功能和代谢特性以及维持它们的机制。我们选择研究侧群(SP)细胞,这些细胞在小鼠、人类骨髓和脐带血中高度富集 HSCs。然而,目前尚未对 SSPB 的 SP 细胞进行表征。在这里,我们表明,与非 SP 细胞相比,来自 SSPB 的 SP 细胞在体外具有更高的增殖能力和生成更多克隆形成前体的能力。此外,在免疫缺陷小鼠的异种移植研究中,我们证明 SP 细胞在具有植入能力的细胞中富集了多达 45 倍,而非 SP 细胞则没有。从细胞调节的角度来看,我们表明 SP 活性取决于接近 HSC 龛中发现的 O 浓度,这种作用依赖于缺氧诱导因子 HIF-1α 和 HIF-2α。此外,SP 细胞的线粒体质量降低,特别是与非 SP 细胞相比,线粒体活性降低,而它们的葡萄糖摄取水平相似。这些结果表明,来自 SSPB 的 SP 细胞表现出非常原始细胞和 HSC 的特性,因此为研究和细胞治疗提供了一个有趣的模型。
