Experimental models of antibiotic exposure and atopic disease.

IF 3.3 Q2 ALLERGY Frontiers in allergy Pub Date : 2024-10-25 eCollection Date: 2024-01-01 DOI:10.3389/falgy.2024.1455438
Katherine Donald, B Brett Finlay
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Abstract

In addition to numerous clinical studies, research using experimental models have contributed extensive evidence to the link between antibiotic exposure and atopic disease. A number of mouse models of allergy have been developed and used to uncover the specific effects of various microbiota members and perturbations on allergy development. Studies in mice that lack microbes entirely have also demonstrated the various components of the immune system that require microbial exposure. The importance of the early-life period and the mechanisms by which atopy "protective" species identified in human cohorts promote immune development have been elucidated in mice. Finally, non-animal models involving human-derived cells shed light on specific effects of bacteria on human epithelial and immune responses. When considered alongside clinical cohort studies, experimental model systems have provided crucial evidence for the link between the neonatal gut microbiota and allergic disease, immensely supporting the stewardship of antibiotic administration in infants. The following review aims to describe the range of experimental models used for studying factors that affect the relationship between the gut microbiota and allergic disease and summarize key findings that have come from research in animal and in vitro models.

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抗生素接触与特应性疾病的实验模型
除了大量临床研究外,使用实验模型进行的研究也为抗生素暴露与特应性疾病之间的联系提供了大量证据。目前已开发出许多过敏小鼠模型,并用于揭示各种微生物群成员和干扰对过敏发生的具体影响。对完全缺乏微生物的小鼠进行的研究也表明,免疫系统的各种组成部分都需要接触微生物。在小鼠身上阐明了生命早期的重要性,以及在人类队列中发现的过敏 "保护性 "物种促进免疫发展的机制。最后,涉及人源细胞的非动物模型揭示了细菌对人体上皮和免疫反应的特定影响。与临床队列研究一起考虑时,实验模型系统为新生儿肠道微生物群与过敏性疾病之间的联系提供了重要证据,为婴儿抗生素管理提供了巨大支持。以下综述旨在描述用于研究影响肠道微生物群与过敏性疾病之间关系的各种因素的实验模型,并总结动物和体外模型研究的主要发现。
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2.80
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0.00%
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0
审稿时长
12 weeks
期刊最新文献
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