Singapore Immunology Network (SIgN), Agency for Science, Technology and Research (A*STAR), 8A Biomedical Grove, Immunos #04-06, Singapore, 138648, Republic of Singapore.
Central Institute for Experimental Animals (CIEA), 3-25-12 Tonomachi, Kawasaki-ku, Kawasaki, Kanagawa, 210-0821, Japan.
Stem Cell Res Ther. 2024 Jun 9;15(1):164. doi: 10.1186/s13287-024-03756-7.
Transplantation of CD34 hematopoietic stem and progenitor cells (HSPC) into immunodeficient mice is an established method to generate humanized mice harbouring a human immune system. Different sources and methods for CD34 isolation have been employed by various research groups, resulting in customized models that are difficult to compare. A more detailed characterization of CD34 isolates is needed for a better understanding of engraftable hematopoietic and potentially non-hematopoietic cells. Here we have performed a direct comparison of CD34 isolated from cord blood (CB-CD34) or fetal liver (FL-CD34 and FL-CD34CD14) and their engraftment into immunocompromised NOD/Shi-scid Il2rg (NOG) mice.
NOG mice were transplanted with either CB-CD34, FL-CD34 or FL-CD34CD14 to generate CB-NOG, FL-NOG and FL-CD14-NOG, respectively. After 15-20 weeks, the mice were sacrificed and human immune cell reconstitution was assessed in blood and several organs. Liver sections were pathologically assessed upon Haematoxylin and Eosin staining. To assess the capability of allogenic tumor rejection in CB- vs. FL-reconstituted mice, animals were subcutaneously engrafted with an HLA-mismatched melanoma cell line. Tumor growth was assessed by calliper measurements and a Luminex-based assay was used to compare the cytokine/chemokine profiles.
We show that CB-CD34 are a uniform population of HSPC that reconstitute NOG mice more rapidly than FL-CD34 due to faster B cell development. However, upon long-term engraftment, FL-NOG display increased numbers of neutrophils, dendritic cells and macrophages in multiple tissues. In addition to HSPC, FL-CD34 isolates contain non-hematopoietic CD14 endothelial cells that enhance the engraftment of the human immune system in FL-NOG mice. We demonstrate that these CD14CD34 cells are capable of reconstituting Factor VIII-producing liver sinusoidal endothelial cells (LSEC) in FL-NOG. However, CD14CD34 also contribute to hepatic sinusoidal dilatation and immune cell infiltration, which may culminate in a graft-versus-host disease (GVHD) pathology upon long-term engraftment. Finally, using an HLA-A mismatched CDX melanoma model, we show that FL-NOG, but not CB-NOG, can mount a graft-versus-tumor (GVT) response resulting in tumor rejection.
Our results highlight important phenotypical and functional differences between CB- and FL-NOG and reveal FL-NOG as a potential model to study hepatic sinusoidal dilatation and mechanisms of GVT.
将 CD34 造血干细胞和祖细胞 (HSPC) 移植到免疫缺陷小鼠中是生成具有人免疫系统的人源化小鼠的一种既定方法。不同的研究小组采用了不同的 CD34 分离来源和方法,导致难以比较定制模型。为了更好地理解可植入的造血细胞和潜在的非造血细胞,需要对 CD34 分离物进行更详细的表征。在这里,我们对脐带血 (CB-CD34) 或胎肝 (FL-CD34 和 FL-CD34CD14) 中分离的 CD34 进行了直接比较,并将其植入免疫缺陷 NOD/Shi-scid Il2rg (NOG) 小鼠中。
将 NOG 小鼠分别移植 CB-CD34、FL-CD34 或 FL-CD34CD14,分别生成 CB-NOG、FL-NOG 和 FL-CD14-NOG。15-20 周后,处死小鼠,评估血液和多个器官中的人免疫细胞重建情况。对苏木精和伊红染色的肝切片进行病理评估。为了评估 CB- 与 FL 重建小鼠的同种异体肿瘤排斥能力,将动物皮下植入 HLA 错配的黑色素瘤细胞系。通过卡尺测量评估肿瘤生长,并使用 Luminex 分析比较细胞因子/趋化因子谱。
我们表明,CB-CD34 是 HSPC 的一个均匀群体,由于 B 细胞发育更快,它们比 FL-CD34 更快地重建 NOG 小鼠。然而,在长期植入后,FL-NOG 在多种组织中显示出更多的中性粒细胞、树突状细胞和巨噬细胞。除 HSPC 外,FL-CD34 分离物还含有非造血性 CD14 内皮细胞,可增强 FL-NOG 中人类免疫系统的植入。我们证明这些 CD14CD34 细胞能够在 FL-NOG 中重建产生因子 VIII 的肝窦内皮细胞 (LSEC)。然而,CD14CD34 也有助于肝窦扩张和免疫细胞浸润,这可能导致长期植入后发生移植物抗宿主病 (GVHD) 病理学。最后,使用 HLA-A 错配的 CDX 黑色素瘤模型,我们表明 FL-NOG(而非 CB-NOG)能够引发移植物抗肿瘤 (GVT) 反应,导致肿瘤排斥。
我们的结果突出了 CB- 和 FL-NOG 之间的重要表型和功能差异,并揭示了 FL-NOG 作为研究肝窦扩张和 GVT 机制的潜在模型。
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