From anaerobes to aerointolerant prokaryotes

Q1 Medicine

Human Microbiome Journal Pub Date : 2020-03-01 DOI:10.1016/j.humic.2019.100068

Sokhna Ndongo , Saber Khelaifia , Jean-Christophe Lagier , Didier Raoult

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引用次数: 7

Abstract

An increasing number of scientists are turning to the microbiota to understand and/or explain the origin of various human metabolic or inflammatory diseases. Oxygen-intolerant bacteria represent the major population of the human intestinal microbiota. Their isolation is often difficult or even fastidious. The number of studies showing their beneficial role in human health is growing exponentially. Faecalibacterium prausnitzii and Akkermansia muciniphila are abundantly represented in healthy intestinal microbiota and their imbalance is positively correlated with inflammatory diseases and metabolic disorders (obesity, diabetes, cancers). Their use as probiotics presents very promising results in restoring the balance of microbial flora but also in the treatment of certain pathological conditions. The Christensenellaceae family has recently emerged as a hereditary taxon and studies have shown that its abundance is positively correlated with leanness and controls obesity in recipient mice. Here, we report the different culture strategies and techniques used for their isolation; the role of antioxidants in the survival of these oxygen-sensitive species in clinical sample and their maintenance in culture isolates.

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从厌氧菌到不耐受空气的原核生物

越来越多的科学家正在转向微生物群来理解和/或解释各种人类代谢或炎症性疾病的起源。耐氧细菌是人类肠道菌群的主要菌群。他们的隔离往往是困难的，甚至是挑剔的。显示它们对人类健康有益作用的研究数量呈指数级增长。prausnitzii Faecalibacterium和Akkermansia muciniphila在健康的肠道微生物群中大量存在，它们的失衡与炎症性疾病和代谢紊乱(肥胖、糖尿病、癌症)呈正相关。它们作为益生菌的使用在恢复微生物菌群的平衡以及治疗某些病理条件方面表现出非常有希望的结果。Christensenellaceae家族最近作为一个遗传分类单元出现，研究表明其丰度与受体小鼠的瘦和控制肥胖呈正相关。在这里，我们报告了用于分离它们的不同培养策略和技术;抗氧化剂在临床样品中这些氧敏感物种的生存及其在培养分离物中的维持中的作用。

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

Human Microbiome Journal Medicine-Infectious Diseases

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发文量

期刊介绍： The innumerable microbes living in and on our bodies are known to affect human wellbeing, but our knowledge of their role is still at the very early stages of understanding. Human Microbiome is a new open access journal dedicated to research on the impact of the microbiome on human health and disease. The journal will publish original research, reviews, comments, human microbe descriptions and genome, and letters. Topics covered will include: the repertoire of human-associated microbes, therapeutic intervention, pathophysiology, experimental models, physiological, geographical, and pathological changes, and technical reports; genomic, metabolomic, transcriptomic, and culturomic approaches are welcome.