Mice, Models, Microbiota: How Can We More Accurately Reflect Human Disease?

IF 0.2 Q4 BIOLOGY

University of Toronto Journal of Undergraduate Life Sciences Pub Date : 2021-07-23 DOI:10.33137/JULS.V15I1.36811

Rahman Ladak, D. Philpott

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Abstract

With growing evidence that human disease is affected by the microbiota, many researchers have sought to modulate the microbiomes of mice to improve translational research. Altering their microbiomes, which are usually germ-free or specific pathogen-free, might allow mice to more accurately model human disease and hence produce more applicable findings. However, this has been difficult to apply to individual projects due to the disparity of explained methods and results. In this review, we first describe the immunological functions of the gut microbiota and the methods of altering mice microbiota, from transplantation route to age of transplantation to microbiota source. We then present an approach for how the gut microbiota might be considered when modelling human disease in mice. By organizing findings by type of disease - neurological, immunological, chronic inflammatory, and cancer - we propose that mouse models can be improved by considering the source of the microbiota, the presence or absence of certain microbial phyla, and by timing the transplantation during a physiologically relevant stage of development, such as the first five weeks of life.

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小鼠，模型，微生物群:我们如何更准确地反映人类疾病?

随着越来越多的证据表明人类疾病受到微生物群的影响，许多研究人员寻求调节小鼠的微生物群以改善转化研究。改变它们的微生物组(通常是无菌的或无特定病原体的)可能使小鼠能够更准确地模拟人类疾病，从而产生更适用的发现。然而，由于解释方法和结果的差异，这很难适用于个别项目。在这篇综述中，我们首先描述了肠道微生物群的免疫功能和改变小鼠微生物群的方法，从移植途径到移植年龄再到微生物群来源。然后，我们提出了一种方法，如何肠道微生物群可能被认为是模拟人类疾病在小鼠。通过按疾病类型(神经、免疫、慢性炎症和癌症)组织研究结果，我们建议可以通过考虑微生物群的来源、某些微生物门的存在或缺失，以及在生理相关的发育阶段(如生命的前五周)进行移植来改进小鼠模型。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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University of Toronto Journal of Undergraduate Life Sciences BIOLOGY-

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