Chen Jichun, Kang Ju-Gyeong, Keyvanfar Keyvan, Young Neal S, Hwang Paul M
Hematology Branch, National Heart, Lung, and Blood Institute, National Institutes of Health, Bethesda, MD, USA.
Center for Molecular Medicine, National Heart, Lung, and Blood Institute, National Institutes of Health, Bethesda, MD, USA.
Exp Hematol. 2016 Sep;44(9):866-873.e4. doi: 10.1016/j.exphem.2016.04.010. Epub 2016 Apr 23.
Molecular oxygen sustains aerobic life, but it also serves as the substrate for oxidative stress, which has been associated with the pathogenesis of disease and with aging. Compared with mice housed in normoxia (21% O2), reducing ambient oxygen to 10% O2 (hypoxia) resulted in increased hematopoietic stem cell (HSC) function as measured by bone marrow (BM) cell engraftment onto lethally irradiated recipients. The number of BM c-Kit(+)Sca-1(+)Lin(-) (KSL) cells as well as the number of cells with other hematopoietic stem and progenitor cell markers were increased in hypoxia mice, whereas the BM cells' colony-forming capacity remained unchanged. KSL cells from hypoxia mice showed a decreased level of oxidative stress and increased expression of transcription factor Gata1 and cytokine receptor c-Mpl, consistent with the observations of increased erythropoiesis and enhanced HSC engraftment. These observations demonstrate the benefit of a hypoxic HSC niche and suggest that hypoxic conditions can be further optimized to preserve stem cell integrity in vivo.
分子氧维持着有氧生命,但它也是氧化应激的底物,而氧化应激与疾病的发病机制以及衰老相关。与饲养在常氧环境(21% O₂)中的小鼠相比,将环境氧气浓度降至10% O₂(低氧),通过将骨髓(BM)细胞移植到接受致死性照射的受体体内来衡量,造血干细胞(HSC)功能增强。低氧小鼠骨髓中c-Kit(+)Sca-1(+)Lin(-)(KSL)细胞的数量以及其他造血干细胞和祖细胞标志物的细胞数量均增加,而骨髓细胞的集落形成能力保持不变。低氧小鼠的KSL细胞显示出氧化应激水平降低,转录因子Gata1和细胞因子受体c-Mpl的表达增加,这与红细胞生成增加和造血干细胞移植增强的观察结果一致。这些观察结果证明了低氧造血干细胞龛的益处,并表明可以进一步优化低氧条件以在体内维持干细胞的完整性。