Department of Life Sciences, Imperial College London, London, UK.
The Francis Crick Institute, London, UK.
Nat Cell Biol. 2020 Dec;22(12):1399-1410. doi: 10.1038/s41556-020-00601-w. Epub 2020 Nov 23.
Severe infections are a major stress on haematopoiesis, where the consequences for haematopoietic stem cells (HSCs) have only recently started to emerge. HSC function critically depends on the integrity of complex bone marrow (BM) niches; however, what role the BM microenvironment plays in mediating the effects of infection on HSCs remains an open question. Here, using a murine model of malaria and combining single-cell RNA sequencing, mathematical modelling, transplantation assays and intravital microscopy, we show that haematopoiesis is reprogrammed upon infection, whereby the HSC compartment turns over substantially faster than at steady-state and HSC function is drastically affected. Interferon is found to affect both haematopoietic and mesenchymal BM cells and we specifically identify a dramatic loss of osteoblasts and alterations in endothelial cell function. Osteo-active parathyroid hormone treatment abolishes infection-triggered HSC proliferation and-coupled with reactive oxygen species quenching-enables partial rescuing of HSC function.
严重感染对造血系统是一个重大的压力,而造血干细胞(HSCs)所受的影响最近才开始显现。HSC 的功能严重依赖于复杂的骨髓(BM)龛位的完整性;然而,BM 微环境在介导感染对 HSCs 的影响方面起着什么作用,这仍然是一个悬而未决的问题。在这里,我们使用疟疾的小鼠模型,并结合单细胞 RNA 测序、数学建模、移植实验和活体显微镜,表明感染会导致造血系统重新编程,从而使 HSC 区室的更新速度比稳定状态下快得多,HSC 的功能也受到严重影响。干扰素被发现会影响造血和间充质 BM 细胞,我们特别发现成骨细胞明显减少,内皮细胞功能发生改变。骨活性甲状旁腺激素治疗可消除感染引起的 HSC 增殖,并与清除活性氧相结合,可部分恢复 HSC 功能。