造血干细胞微环境在其炎症环境中的调节
Tuning of the Hematopoietic Stem Cell Compartment in its Inflammatory Environment.
作者信息
Govindarajah Vinothini, Reynaud Damien
机构信息
Stem Cell Program, Division of Experimental Hematology and Cancer Biology, Cincinnati Children's Hospital Medical Center, Cincinnati, OH, USA.
Department of Pediatrics, University of Cincinnati College of Medicine, Cincinnati, OH, USA.
出版信息
Curr Stem Cell Rep. 2018 Sep;4(3):189-200. doi: 10.1007/s40778-018-0131-y. Epub 2018 Jul 13.
PURPOSE OF REVIEW
The hematopoietic stem cell (HSC) compartment is the cornerstone of a lifelong blood cell production but also contributes to the ability of the hematopoietic system to dynamically respond to environmental challenges. This review summarizes our knowledge about the interaction between HSCs and its inflammatory environment during life and questions how its disruption could affect the health of the hematopoietic system.
RECENT FINDINGS
The latest research demonstrates the direct role of inflammatory signals in promoting the emergence of the HSCs during development and in setting their steady-state activity in adults. They indicate that inflammatory patho-physiological conditions or immunological history could shape the structure and biology of the HSC compartment, therefore altering its overall fitness.
SUMMARY
Through instructive and/or selective mechanisms, the inflammatory environment seems to provide a key homeostatic signal for HSCs. Although the mechanistic basis of this complex interplay remains to be fully understood, its dysregulation has broad consequences on HSC physiology and the development of hematological diseases. As such, developing experimental models that fully recapitulate a normal basal inflammatory state could be essential to fully assess HSC biology in native conditions.
综述目的
造血干细胞(HSC)库是终身血细胞生成的基石,同时也有助于造血系统动态应对环境挑战的能力。本综述总结了我们对生命过程中造血干细胞与其炎症环境之间相互作用的认识,并探讨了这种相互作用的破坏如何影响造血系统的健康。
最新发现
最新研究表明炎症信号在发育过程中促进造血干细胞的出现以及在成年期设定其稳态活性方面具有直接作用。研究表明,炎症病理生理状况或免疫史可能塑造造血干细胞库的结构和生物学特性,从而改变其整体健康状况。
总结
通过指导性和/或选择性机制,炎症环境似乎为造血干细胞提供了关键的稳态信号。尽管这种复杂相互作用的机制基础仍有待充分理解,但其失调对造血干细胞生理学和血液系统疾病的发展具有广泛影响。因此,开发能够完全重现正常基础炎症状态的实验模型对于在自然条件下全面评估造血干细胞生物学特性可能至关重要。
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