Human Enteroid Monolayers: A Novel, Functionally-Stable Model for Investigating Oral Drug Disposition.

IF 4.4 3区 医学 Q1 PHARMACOLOGY & PHARMACY Drug Metabolism and Disposition Pub Date : 2024-08-09 DOI:10.1124/dmd.124.001551
Christopher Arian, Eimear O'Mahony, James W MacDonald, Theo K Bammler, Mark Donowitz, Edward J Kelly, Kenneth E Thummel
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Abstract

To further the development of an in vitro model which faithfully recapitulates drug disposition of orally administered drugs, we investigated the utility of human enteroid monolayers to simultaneously assess intestinal drug absorption and first-pass metabolism processes. We cultured human enteroid monolayers from three donors, derived via biopsies containing duodenal stem cells that were propagated and then differentiated atop permeable Transwell® inserts, and confirmed transformation into a largely enterocyte population via RNA-seq analysis and immunocytochemical (ICC) assays. Proper cell morphology was assessed and confirmed via bright field microscopy and ICC imaging of tight junction proteins and other apically and basolaterally localized proteins. Enteroid monolayer barrier integrity was demonstrated by elevated transepithelial electrical resistance (TEER) that stabilized after 10 days in culture and persisted for 42 days. These results were corroborated by low paracellular transport probe permeability at 7 and 21 days in culture. The activity of a prominent drug metabolizing enzyme, CYP3A, was confirmed at 7, 21, and 42 days culture under basal, 1α,25(OH)2 vitamin D3-induced, and 6',7'-dihydroxybergamottin-inhibited conditions. The duration of these experiments is particularly noteworthy, as this is the first study assessing drug metabolizing enzymes and transporters (DMET) expression/function for enteroids cultured for greater than 12 days. The sum of these results suggests enteroid monolayers are a promising ex vivo model to investigate and quantitatively predict an orally administered drug's intestinal absorption and/or metabolism. Significance Statement This study presents a novel ex vivo model of the human intestine, human intestinal organoid (enteroid) monolayers, that maintain barrier function and metabolic functionality for up to 42-days in culture. The incorporation of both barrier integrity and metabolic function over an extended period within the same model is an advancement over historically used in vitro systems, which either lack one or both of these attributes or have limited viability.

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人肠黏膜单层:用于研究口服药物分布的新型功能稳定模型
为了进一步开发体外模型,以忠实再现口服药物的药物处置过程,我们研究了人类肠道单层细胞的效用,以同时评估肠道药物吸收和首过代谢过程。我们培养了来自三位供体的人类肠道单层细胞,这些单层细胞来自含有十二指肠干细胞的活组织切片,经过繁殖后在可渗透的 Transwell® 插入物上分化,并通过 RNA-seq 分析和免疫细胞化学 (ICC) 检测证实它们已转化为主要的肠道细胞群。通过明视野显微镜和紧连结蛋白及其他顶端和基底定位蛋白的 ICC 成像,评估并确认了适当的细胞形态。肠壁单层屏障的完整性通过经上皮细胞电阻(TEER)的升高而得到证实,TEER 在培养 10 天后趋于稳定,并持续 42 天。在培养 7 天和 21 天时,细胞旁转运探针通透性较低,也证实了这些结果。在基础、1α,25(OH)2 维生素 D3 诱导和 6',7'-二羟基佛手素抑制条件下,一种重要的药物代谢酶 CYP3A 的活性在培养 7 天、21 天和 42 天时得到了证实。这些实验的持续时间尤其值得注意,因为这是首次对培养超过 12 天的肠道菌进行药物代谢酶和转运体(DMET)表达/功能评估的研究。这些结果表明,肠粘膜单层是一种很有前景的体内外模型,可用于研究和定量预测口服药物的肠道吸收和/或代谢。意义声明 本研究提出了一种新的人体肠道体外模型--人体肠道类器官(肠道)单层细胞,它能在长达 42 天的培养过程中保持屏障功能和新陈代谢功能。与历史上使用的体外系统相比,在同一模型中同时长期保持屏障完整性和新陈代谢功能是一种进步,因为体外系统要么缺乏其中一个或两个属性,要么活力有限。
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来源期刊
CiteScore
6.50
自引率
12.80%
发文量
128
审稿时长
3 months
期刊介绍: An important reference for all pharmacology and toxicology departments, DMD is also a valuable resource for medicinal chemists involved in drug design and biochemists with an interest in drug metabolism, expression of drug metabolizing enzymes, and regulation of drug metabolizing enzyme gene expression. Articles provide experimental results from in vitro and in vivo systems that bring you significant and original information on metabolism and disposition of endogenous and exogenous compounds, including pharmacologic agents and environmental chemicals.
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