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Versatile human in vitro triple coculture model coincubated with adhered gut microbes reproducibly mimics pro-inflammatory host-microbe interactions in the colon.多功能人源体外三重共培养模型与黏附的肠道微生物共孵育可重现性模拟结肠中的促炎宿主-微生物相互作用。
FASEB J. 2021 Dec;35(12):e21992. doi: 10.1096/fj.202101135R.
2
Biochemical and rheological analysis of human colonic culture mucus reveals similarity to gut mucus.对人类结肠培养黏液的生化和流变学分析表明,它与肠道黏液具有相似性。
Biophys J. 2021 Dec 7;120(23):5384-5394. doi: 10.1016/j.bpj.2021.10.024. Epub 2021 Oct 23.
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Comparing the permeability of human and porcine small intestinal mucus for particle transport studies.比较人源和猪源小肠黏液对颗粒传递研究的通透性。
Sci Rep. 2020 Nov 20;10(1):20290. doi: 10.1038/s41598-020-77129-4.
4
Mucus barrier, mucins and gut microbiota: the expected slimy partners?黏液屏障、黏蛋白和肠道微生物群:理想的黏糊搭档?
Gut. 2020 Dec;69(12):2232-2243. doi: 10.1136/gutjnl-2020-322260. Epub 2020 Sep 11.
5
Mucins and the Microbiome.黏蛋白与微生物组。
Annu Rev Biochem. 2020 Jun 20;89:769-793. doi: 10.1146/annurev-biochem-011520-105053. Epub 2020 Apr 3.
6
Using Microfluidics to Model Mucus.利用微流控技术模拟黏液。
Cell Mol Gastroenterol Hepatol. 2020;9(3):551-552. doi: 10.1016/j.jcmgh.2019.12.003. Epub 2020 Jan 6.
7
Effects of polystyrene microbeads on cytotoxicity and transcriptomic profiles in human Caco-2 cells.聚苯乙烯微珠对人 Caco-2 细胞的细胞毒性和转录组谱的影响。
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8
Permeability of the small intestinal mucus for physiologically relevant studies: Impact of mucus location and ex vivo treatment.用于生理学相关研究的小肠黏液通透性:黏液位置和离体处理的影响。
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9
Using 3D gastrointestinal tract in vitro models with microfold cells and mucus secreting ability to assess the hazard of copper oxide nanomaterials.采用具有微褶细胞和黏液分泌能力的 3D 胃肠道体外模型评估氧化铜纳米材料的危害。
J Nanobiotechnology. 2019 May 21;17(1):70. doi: 10.1186/s12951-019-0503-1.
10
Leaky gut: mechanisms, measurement and clinical implications in humans.肠漏:在人类中的机制、测量方法和临床意义。
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生成具有生理相关生物物理黏液特性的肠道模型。

Generating an Gut Model with Physiologically Relevant Biophysical Mucus Properties.

作者信息

McCright Jacob, Sinha Arnav, Maisel Katharina

机构信息

Fischell Department of Bioengineering, University of Maryland, College Park, MD 20742 USA.

出版信息

Cell Mol Bioeng. 2022 Oct 6;15(5):479-491. doi: 10.1007/s12195-022-00740-0. eCollection 2022 Oct.

DOI:10.1007/s12195-022-00740-0
PMID:36444342
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC9700528/
Abstract

INTRODUCTION

Gastrointestinal (GI) models have received lasting attention as an effective tool to model drug and nutrient absorption, study GI diseases, and design new drug delivery vehicles. A complete model of the GI epithelium should at a minimum include the two key functional components of the GI tract: mucus and the underlying epithelium. Mucus plays a key role in protecting and lubricating the GI tract, poses a barrier to orally administered therapies and pathogens, and serves as the microenvironment for the GI microbiome. These functions are reliant on the biophysical material properties of the mucus produced, including viscosity and pore size.

METHODS

In this study, we generated models containing Caco-2 enterocyte-like cells and HT29-MTX goblet-like cells and determined the effects of coculture and mucus layer on epithelial permeability and biophysical properties of mucus using multiple particle tracking (MPT).

RESULTS

We found that mucus height increased as the amount of HT29-MTX goblet-like cells increased. Additionally, we found that increasing the amount of HT29-MTX goblet-like cells within culture corresponded to an increase in mucus pore size and mucus microviscosity, measured using MPT. When compared to mucus samples from mice and pigs, we found that a 90:10 ratio of Caco-2:HT29-MTX coculture displayed similar mucus pore size to porcine jejunum and that the mucus produced from 90:10 and 80:20 ratios of cells shared mechanical properties to porcine jejunum and ileum mucus.

CONCLUSIONS

GI coculture models are valuable tools in simulating the mucus barrier and can be utilized for a variety of applications including the study of GI diseases, food absorption, or therapeutic development.

摘要

引言

胃肠道(GI)模型作为模拟药物和营养物质吸收、研究胃肠道疾病以及设计新型药物递送载体的有效工具,一直备受关注。完整的胃肠道上皮模型至少应包括胃肠道的两个关键功能组件:黏液和其下方的上皮细胞。黏液在保护和润滑胃肠道、对口服疗法和病原体构成屏障以及作为胃肠道微生物群的微环境方面发挥着关键作用。这些功能依赖于所产生黏液的生物物理材料特性,包括黏度和孔径。

方法

在本研究中,我们构建了包含Caco-2肠上皮样细胞和HT29-MTX杯状样细胞的模型,并使用多粒子追踪(MPT)技术确定了共培养和黏液层对上皮通透性及黏液生物物理特性的影响。

结果

我们发现,随着HT29-MTX杯状样细胞数量的增加,黏液高度增加。此外,我们还发现,培养体系中HT29-MTX杯状样细胞数量的增加,对应着使用MPT测量的黏液孔径和黏液微黏度的增加。与小鼠和猪的黏液样本相比,我们发现Caco-2:HT29-MTX以90:10比例共培养时产生的黏液孔径与猪空肠相似,并且细胞比例为90:10和80:20时产生的黏液与猪空肠和回肠黏液具有相同的力学特性。

结论

胃肠道共培养模型是模拟黏液屏障的有价值工具,可用于多种应用,包括胃肠道疾病研究、食物吸收或治疗开发。