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E47-p21 通路在长期造血干细胞中的细胞内体内需求。

Cell-intrinsic in vivo requirement for the E47-p21 pathway in long-term hematopoietic stem cells.

机构信息

Department of Immunology, University of Pittsburgh School of Medicine, Pittsburgh, PA 15261.

出版信息

J Immunol. 2014 Jan 1;192(1):160-8. doi: 10.4049/jimmunol.1302502. Epub 2013 Nov 20.

DOI:10.4049/jimmunol.1302502
PMID:24259504
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC3893818/
Abstract

Major regulators of long-term hematopoietic stem cell (LT-HSC) self-renewal and proliferation have been identified, but knowledge of their in vivo interaction in a linear pathway is lacking. In this study, we show a direct genetic link between the transcription factor E47 and the major cell cycle regulator p21 in controlling LT-HSC integrity in vivo under repopulation stress. Numerous studies have shown that E47 activates p21 transcription in hematopoietic subsets in vitro, and we now reveal the in vivo relevance of the E47-p21 pathway by reducing the gene dose of each factor individually (E47(het) or p21(het)) versus in tandem (E47(het)p21(het)). E47(het)p21(het) LT-HSCs and downstream short-term hematopoietic stem cells exhibit hyperproliferation and preferential susceptibility to mitotoxin compared to wild-type or single haploinsufficient controls. In serial adoptive transfers that rigorously challenge self-renewal, E47(het)p21(het) LT-HSCs dramatically and progressively decline, indicating the importance of cell-intrinsic E47-p21 in preserving LT-HSCs under stress. Transient numeric recovery of downstream short-term hematopoietic stem cells enabled the production of functionally competent myeloid but not lymphoid cells, as common lymphoid progenitors were decreased, and peripheral lymphocytes were virtually ablated. Thus, we demonstrate a developmental compartment-specific and lineage-specific requirement for the E47-p21 pathway in maintaining LT-HSCs, B cells, and T cells under hematopoietic repopulation stress in vivo.

摘要

已鉴定出长期造血干细胞 (LT-HSC) 自我更新和增殖的主要调节因子,但缺乏关于它们在体内线性途径中相互作用的知识。在这项研究中,我们展示了转录因子 E47 和主要细胞周期调节剂 p21 之间的直接遗传联系,以在体内再定植压力下控制 LT-HSC 的完整性。许多研究表明,E47 在体外的造血亚群中激活 p21 的转录,我们现在通过单独降低每个因子的基因剂量(E47(het) 或 p21(het)) 或串联降低(E47(het)p21(het)) 来揭示 E47-p21 途径的体内相关性。E47(het)p21(het) LT-HSCs 和下游短期造血干细胞与野生型或单倍体不足对照相比表现出过度增殖和对有丝分裂毒素的优先易感性。在严格挑战自我更新的连续过继转移中,E47(het)p21(het) LT-HSCs 急剧且逐渐下降,表明细胞内 E47-p21 在应激下维持 LT-HSCs 的重要性。下游短期造血干细胞的短暂数量恢复使具有功能活性的骨髓细胞但不是淋巴细胞得以产生,因为共同淋巴祖细胞减少,外周淋巴细胞几乎被消除。因此,我们证明了在体内造血再定植应激下,E47-p21 途径在维持 LT-HSCs、B 细胞和 T 细胞中的发育隔室特异性和谱系特异性需求。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/03fe/3893818/75e035c2ef8a/nihms535108f6.jpg
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