Advanced Organotypic In Vitro Model Systems for Host-Microbial Coculture.

IF 5.5 3区 工程技术 Q1 BIOCHEMICAL RESEARCH METHODS BioChip Journal Pub Date : 2023-05-22 DOI:10.1007/s13206-023-00103-5
Raehyun Kim
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引用次数: 1

Abstract

In vitro model systems have been advanced to recapitulate important physiological features of the target organ in vivo more closely than the conventional cell line cultures on a petri dish. The advanced organotypic model systems can be used as a complementary or alternative tool for various testing and screening. Numerous data from germ-free animal studies and genome sequencings of clinical samples indicate that human microbiota is an essential part of the human body, but current in vitro model systems rarely include them, which can be one of the reasons for the discrepancy in the tissue phenotypes and outcome of therapeutic intervention between in vivo and in vitro tissues. A coculture model system with appropriate microbes and host cells may have great potential to bridge the gap between the in vitro model and the in vivo counterpart. However, successfully integrating two species in one system introduces new variables to consider and poses new challenges to overcome. This review aims to provide perspectives on the important factors that should be considered for developing organotypic bacterial coculture models. Recent advances in various organotypic bacterial coculture models are highlighted. Finally, challenges and opportunities in developing organotypic microbial coculture models are also discussed.

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宿主微生物共培养的先进器官型体外模型系统。
已经提出了体外模型系统,以比在培养皿上的传统细胞系培养更接近地概括体内靶器官的重要生理特征。先进的器官型模型系统可以用作各种测试和筛选的补充或替代工具。来自无菌动物研究和临床样本基因组测序的大量数据表明,人类微生物群是人体的重要组成部分,但目前的体外模型系统很少包括它们,这可能是体内和体外组织在组织表型和治疗干预结果方面存在差异的原因之一。具有适当微生物和宿主细胞的共培养模型系统可能具有很大的潜力来弥合体外模型和体内模型之间的差距。然而,成功地将两个物种整合在一个系统中引入了需要考虑的新变量,并提出了需要克服的新挑战。这篇综述旨在为开发器官型细菌共培养模型应考虑的重要因素提供观点。重点介绍了各种器官型细菌共培养模型的最新进展。最后,还讨论了开发器官型微生物共培养模型的挑战和机遇。
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来源期刊
BioChip Journal
BioChip Journal 生物-生化研究方法
CiteScore
7.70
自引率
16.30%
发文量
47
审稿时长
6-12 weeks
期刊介绍: BioChip Journal publishes original research and reviews in all areas of the biochip technology in the following disciplines, including protein chip, DNA chip, cell chip, lab-on-a-chip, bio-MEMS, biosensor, micro/nano mechanics, microfluidics, high-throughput screening technology, medical science, genomics, proteomics, bioinformatics, medical diagnostics, environmental monitoring and micro/nanotechnology. The Journal is committed to rapid peer review to ensure the publication of highest quality original research and timely news and review articles.
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