稳定移植人类肠道细菌微生物组的双人源化 BLT 小鼠的特征

Lance Daharsh, Saroj Chandra Lohani, A. Ramer-Tait, Qingsheng Li
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引用次数: 0

摘要

具有类人免疫系统的人源化小鼠通常用于研究对人类特异性病原体的免疫反应。然而,使用人源化小鼠的一个限制是它们的原生小鼠肠道微生物群与人类有很大不同。鉴于肠道微生物群对人类健康的重要性,这些差异可能会严重影响将人源化小鼠研究结果转化为人类结果的能力。此外,我们亟需改进临床前模型,以研究肠道微生物组、免疫系统和人类疾病之间复杂的体内关系。我们之前创造了具有功能性人类免疫系统和稳定的类人肠道微生物组的双重人源化小鼠。在这里,我们通过将健康人类捐献者的粪便材料移植到人源化小鼠的肠道中,对双人源化小鼠模型中移植的人类肠道细菌微生物组进行了表征。对双重人源化小鼠粪便样本中细菌微生物组的分析表明,它们具有独特的 16S rRNA 基因图谱,与人类供体样本一致。重要的是,移植的类人肠道微生物组在研究期间一直在小鼠体内保持稳定,一直持续到移植后的 14.5 周。与人源化小鼠相比,双重人源化小鼠的微生物组也具有更接近人类供体的预测功能能力。总之,我们的研究强调了人类粪便微生物群在 BLT 人源化小鼠中的成功移植,并强调了该模型的稳定性,为研究人类肠道微生物群、免疫系统和各种疾病之间错综复杂的体内相互作用提供了一个宝贵的平台。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Characterization of double humanized BLT-mice with stable engraftment of a human gut bacterial microbiome
Humanized mice with human-like immune systems are commonly used to study immune responses to human-specific pathogens. However, one limitation of using humanized mice is their native murine gut microbiota, which significantly differs from that in humans. Given the importance of the gut microbiome to human health, these differences may profoundly impact the ability to translate results from humanized mouse studies to humans. Further, there is a critical need for improved pre-clinical models to study the complex in vivo relationships of the gut microbiome, immune system, and human disease. We previously created double humanized mice with a functional human immune system and a stable, human-like gut microbiome. Here, we characterized the engrafted human gut bacterial microbiome in our double humanized mouse model generated by transplanting fecal material from healthy human donors into the gut of humanized mice. Analysis of bacterial microbiomes in fecal samples from double humanized mice revealed they had unique 16S rRNA gene profiles consistent with those of the individual human donor samples. Importantly, transplanted human-like gut microbiomes were stable in mice for the duration of the study, extending up to 14.5 weeks post-transplant. Microbiomes of double humanized mice also harbored predicted functional capacities that more closely resembled those of the human donors than humanized mice. In conclusion, our study highlights the successful engraftment of human fecal microbiota in BLT humanized mice and underscores the stability of this model, offering a valuable platform for investigating the intricate interplay among the human gut microbiome, immune system, and various diseases in vivo.
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