时钟基因Bmal1对小鼠造血干细胞的内在特性是不可或缺的。

Aki Ieyasu, Yoko Tajima, Shigeki Shimba, Hiromitsu Nakauchi, Satoshi Yamazaki
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引用次数: 9

摘要

背景:众所周知,昼夜节律影响多种生物现象,如细胞周期、睡眠-觉醒节律、激素释放和其他重要生理功能。鉴于冬眠造血干细胞(HSCs)的细胞周期进入在控制造血过程中起着关键作用,我们询问了作为转录因子在调节昼夜节律中起核心作用的时钟基因 Bmal1 的功能意义。在此,我们利用 Bmal1 缺失(Bmal1-/-)小鼠研究了 Bmal1 对造血干细胞功能的必要性:通过体外集落形成试验,我们发现 Bmal1⁺/⁺和 Bmal1-/- CD34-KSL 细胞形成混合集落的频率没有显著差异。骨髓竞争试验也显示,Bmal1-/-骨髓细胞与野生型细胞竞争正常,并显示出长期的多造血系重建。此外,Bmal1⁺/⁺和Bmal1-/-小鼠骨髓造血干细胞的频率和冬眠状态没有明显差异,表明它们不受昼夜节律的影响:本文讨论了昼夜节律对造血干细胞功能的必要性。我们的数据清楚地表明,一个关键的昼夜节律基因Bmal1对于造血干细胞的内在功能(如分化、增殖和再繁殖能力)是不可或缺的。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

Clock gene Bmal1 is dispensable for intrinsic properties of murine hematopoietic stem cells.

Clock gene Bmal1 is dispensable for intrinsic properties of murine hematopoietic stem cells.

Clock gene Bmal1 is dispensable for intrinsic properties of murine hematopoietic stem cells.

Background: Circadian rhythms are known to influence a variety of biological phenomena such as cell cycle, sleep-wake rhythm, hormone release and other important physiological functions. Given that cell cycle entry of hibernating hematopoietic stem cells (HSCs) plays a critical role in controlling hematopoiesis, we asked functional significance of the clock gene Bmal1, which plays a central role in regulating circadian rhythms as a transcription factor. Here we investigated the necessity of Bmal1 for HSC functions using Bmal1 deficient (Bmal1⁻/⁻) mice.

Findings: Using colony-forming assays in vitro, we found that the frequency of mixed colony formation between Bmal1⁺/⁺ and Bmal1⁻/⁻ CD34-KSL cells does not differ significantly. Competitive bone marrow assays also revealed that Bmal1⁻/⁻ bone marrow cells competed normally with wild-type cells and displayed long-term multi-hematopoietic lineage reconstitution. In addition, there were no significant differences in the frequencies and hibernation state of bone marrow HSCs between Bmal1⁺/⁺ and Bmal1⁻/⁻ mice, suggesting that they are independent of circadian rhythms.

Conclusions: This paper discusses the necessity of circadian rhythms for HSC functions. Our data clearly shows that a key circadian clock gene Bmal1 is dispensable for intrinsic functions of HSCs, such as differentiation, proliferation and repopulating ability.

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