开发和评估用于研究牛呼吸道疾病的牛肺芯片 (bLOC)。

In vitro models Pub Date : 2022-01-01 Epub Date: 2022-08-17 DOI:10.1007/s44164-022-00030-z
Diane F Lee, Clare L Thompson, Ronald E Baynes, Hiroko Enomoto, Geof W Smith, Mark A Chambers
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摘要

目的:目前的牛近端气道气液界面(ALI)模型有其局限性。它们不能模拟全身给药所需的血流,而且重复采样需要多个独立的培养物。牛肺芯片(bLOC)将克服这些局限性,为药代动力学或致病性研究提供方便、经济的模型:方法:将牛肺动脉内皮细胞播种到 Emulate Lung 芯片的内皮通道中,并与上皮通道中的牛支气管上皮细胞对接。细胞在 ALI 条件下培养长达 21 天。在固定的培养物中,通过粘蛋白定量、相位对比光镜和细胞特异性标记免疫荧光来评估分化情况。屏障完整性通过 FITC 标记的葡聚糖 3-5 kDa 渗透性来确定。为了对模型进行评估,使用液相色谱-质谱法对抗生素药物达氟沙星的内皮-上皮转运进行了跟踪,目的是复制之前在体内测定的数据。FITC-Dextran 3-5 kDa 的渗透阻力证明了该模型的屏障完整性。观察到了支气管上皮细胞和内皮细胞特异性标记物。在内皮通道中观察到的丹诺沙星PK数据接近血浆;但在上皮通道中观察到的丹诺沙星大多低于定量限:结论:成功建立了牛近端气道共培养模型,有望取代体内实验。通过进一步优化和表征,bLOC 可用于牛呼吸道疾病(BRD)的药物药代动力学研究及其他应用。
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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Development and evaluation of a bovine lung-on-chip (bLOC) to study bovine respiratory diseases.

Purpose: Current air-liquid interface (ALI) models of bovine proximal airways have their limitations. They do not simulate blood flow necessary to mimic systemic drug administration, and repeated sampling requires multiple, independent cultures. A bovine lung-on-chip (bLOC) would overcome these limitations, providing a convenient and cost-effective model for pharmacokinetic or pathogenicity studies.

Methods: Bovine pulmonary arterial endothelial cells seeded into the endothelial channel of an Emulate Lung-Chip were interfaced with bovine bronchial epithelial cells in the epithelial channel. Cells were cultured at ALI for up to 21 days. Differentiation was assessed by mucin quantification, phase-contrast light microscopy and immunofluorescence of cell-specific markers in fixed cultures. Barrier integrity was determined by FITC-labelled dextran 3-5 kDa permeability. To evaluate the model, endothelial-epithelial transport of the antibiotic drug, danofloxacin, was followed using liquid chromatography-mass spectrometry, with the aim of replicating data previously determined in vivo.

Results: bLOC cultures secreted quantifiable mucins, whilst cilia formation was evident in the epithelial channel. Barrier integrity of the model was demonstrated by resistance to FITC-Dextran 3-5 kDa permeation. Bronchial epithelial and endothelial cell-specific markers were observed. Close to plasma, representative PK data for danofloxacin was observed in the endothelial channel; however, danofloxacin in the epithelial channel was mostly below the limit of quantification.

Conclusion: A co-culture model of the bovine proximal airway was successfully generated, with potential to replace in vivo experimentation. With further optimisation and characterisation, the bLOC may be suitable to perform drug pharmacokinetic studies for bovine respiratory disease (BRD), and other applications.

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