Complex Microbiota in Laboratory Rodents: Management Considerations.

IF 3.1 3区 农林科学 Q1 VETERINARY SCIENCES
Ilar Journal Pub Date : 2020-10-19 DOI:10.1093/ilar/ilaa011
Craig L Franklin, Aaron C Ericsson
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引用次数: 7

Abstract

Our bodies and those of our animal research subjects are colonized by bacterial communities that occupy virtually every organ system, including many previously considered sterile. These bacteria reside as complex communities that are collectively referred to as microbiota. Prior to the turn of the century, characterization of these communities was limited by a reliance on culture of organisms on a battery of selective media. It was recognized that the vast majority of microbes, especially those occupying unique niches of the body such as the anaerobic environment of the intestinal tract, were uncultivatable. However, with the onset and advancement of next-generation sequencing technology, we are now capable of characterizing these complex communities without the need to cultivate, and this has resulted in an explosion of information and new challenges in interpreting data generated about, and in the context of, these complex communities. We have long known that these microbial communities often exist in an intricate balance that, if disrupted (ie, dysbiosis), can lead to disease or increased susceptibility to disease. Because of many functional redundancies, the makeup of these colonies can vary dramatically within healthy individuals [1]. However, there is growing evidence that subtle differences can alter the phenotype of various animal models, which may translate to the varying susceptibility to disease seen in the human population. In this manuscript, we discuss how to include complex microbiota as a consideration in experimental design and model reproducibility and how to exploit the extensive variation that exists in contemporary rodent research colonies. Our focus will be the intestinal or gut microbiota (GM), but it should be recognized that microbial communities exist in many other body compartments and these too likely influence health and disease [2, 3]. Much like host genetics, can we one day harness the vast genetic capacity of the microbes we live with in ways that will benefit human and animal health?

实验室啮齿类动物的复杂微生物群:管理考虑。
我们的身体和我们的动物研究对象的身体被细菌群落定植,它们几乎占据了每个器官系统,包括许多以前被认为是无菌的。这些细菌以复杂的群落形式存在,统称为微生物群。在世纪之交之前,这些群落的特征被限制在依赖于生物在一系列选择性培养基上的培养。人们认识到,绝大多数微生物,特别是那些占据人体独特生态位的微生物,如肠道的厌氧环境,是不可培养的。然而,随着新一代测序技术的出现和进步,我们现在可以不需要培养就能描述这些复杂群落的特征,这导致了信息的爆炸式增长,在解释这些复杂群落产生的数据和在这些复杂群落的背景下产生的新挑战。我们早就知道,这些微生物群落往往存在于一种复杂的平衡中,如果这种平衡被破坏(即生态失调),就会导致疾病或增加对疾病的易感性。由于许多功能冗余,这些菌落的组成在健康个体中可能会发生巨大变化[1]。然而,越来越多的证据表明,细微的差异可以改变各种动物模型的表型,这可能转化为人类对疾病的不同易感性。在这篇手稿中,我们讨论了如何将复杂的微生物群作为实验设计和模型可重复性的考虑因素,以及如何利用当代啮齿动物研究群体中存在的广泛变化。我们的重点将是肠道或肠道微生物群(GM),但应该认识到微生物群落存在于许多其他身体隔间中,这些也可能影响健康和疾病[2,3]。就像宿主遗传学一样,我们能否有朝一日利用与我们生活在一起的微生物的巨大遗传能力,造福人类和动物的健康?
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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来源期刊
Ilar Journal
Ilar Journal 农林科学-兽医学
CiteScore
5.10
自引率
20.00%
发文量
8
审稿时长
>18 weeks
期刊介绍: The ILAR Journal is the peer-reviewed, theme-oriented publication of the Institute for Laboratory Animal Research (ILAR), which provides timely information for all who study, use, care for, and oversee the use of animals in research. The journal publishes original articles that review research on animals either as direct subjects or as surrogates for humans. According to policy, any previously unpublished animal research reported in the ILAR Journal will have been conducted according to the scientific, technical, and humanely appropriate guidelines current at the time the research was conducted in accordance with the Guide for the Care and Use of Laboratory Animals or other guidance provided by taxonomically-oriented professional societies (e.g., American Society of Mammalogy) as referenced in the Guide.
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