免疫缺陷小鼠人源化的单核细胞屏障。

Emily J Du, Marcus O Muench
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摘要

患有严重免疫缺陷的小鼠已成为在体内环境中研究外来细胞的非常重要的工具。异种移植植物可用于模拟许多物种的细胞,尽管大多数情况下,小鼠通过移植人类细胞或组织来实现人源化,以满足医学研究的需要。综述了免疫缺陷小鼠的发展,导致了目前最先进的菌株,如NOD scid-gamma(NSG)小鼠。NSG小鼠是人类造血干细胞移植或通过输注人类外周血单核细胞进行免疫重建的极好宿主。然而,完全造血移植的障碍仍然存在;值得注意的是,人类细胞在循环中的存活时间很短,这限制了整个血液学和免疫重建。报告表明,单核细胞、单核细胞和巨噬细胞在清除循环中的异种细胞中发挥着关键作用。讨论了影响单核细胞生长、成熟和功能的NOD遗传背景的各个方面,这些方面有利于人类细胞移植。综述了SIRPα等重要受体,它们是先天免疫系统的一部分,能够被单核细胞识别和吞噬外来细胞。人源化小鼠模型的开发花了几十年的时间来创造更多的免疫缺陷小鼠,对这些小鼠进行基因修饰以表达人类基因,并改进移植技术以优化植入。未来的进展可能集中在宿主的单核细胞上,以找到进一步植入和存活异种细胞的方法。
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A Monocytic Barrier to the Humanization of Immunodeficient Mice.

Mice with severe immunodeficiencies have become very important tools for studying foreign cells in an in vivo environment. Xenotransplants can be used to model cells from many species, although most often, mice are humanized through the transplantation of human cells or tissues to meet the needs of medical research. The development of immunodeficient mice is reviewed leading up to the current state-of-the-art strains, such as the NOD-scid-gamma (NSG) mouse. NSG mice are excellent hosts for human hematopoietic stem cell transplants or immune reconstitution through transfusion of human peripheral blood mononuclear cells. However, barriers to full hematopoietic engraftment still remain; notably, the survival of human cells in the circulation is brief, which limits overall hematological and immune reconstitution. Reports have indicated a critical role for monocytic cells - monocytes, macrophages, and dendritic cells - in the clearance of xenogeneic cells from circulation. Various aspects of the NOD genetic background that affect monocytic cell growth, maturation, and function that are favorable to human cell transplantation are discussed. Important receptors, such as SIRPα, that form a part of the innate immune system and enable the recognition and phagocytosis of foreign cells by monocytic cells are reviewed. The development of humanized mouse models has taken decades of work in creating more immunodeficient mice, genetic modification of these mice to express human genes, and refinement of transplant techniques to optimize engraftment. Future advances may focus on the monocytic cells of the host to find ways for further engraftment and survival of xenogeneic cells.

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