Optimization of a micro-scale air-liquid-interface model of human proximal airway epithelium for moderate throughput drug screening for SARS-CoV-2.

IF 5.8 2区医学 Q1 Medicine

Respiratory Research Pub Date : 2025-01-16 DOI:10.1186/s12931-025-03095-y

Chandani Sen, Tammy M Rickabaugh, Arjit Vijey Jeyachandran, Constance Yuen, Maisam Ghannam, Abdo Durra, Adam Aziz, Kristen Castillo, Gustavo Garcia, Arunima Purkayastha, Brandon Han, Felix W Boulton, Eugene Chekler, Robert Garces, Karen C Wolff, Laura Riva, Melanie G Kirkpatrick, Amal Gebara-Lamb, Case W McNamara, Ulrich A K Betz, Vaithilingaraja Arumugaswami, Robert Damoiseaux, Brigitte N Gomperts

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引用次数: 0

Abstract

Background: Many respiratory viruses attack the airway epithelium and cause a wide spectrum of diseases for which we have limited therapies. To date, a few primary human stem cell-based models of the proximal airway have been reported for drug discovery but scaling them up to a higher throughput platform remains a significant challenge. As a result, most of the drug screening assays for respiratory viruses are performed on commercial cell line-based 2D cultures that provide limited translational ability.

Methods: We optimized a primary human stem cell-based mucociliary airway epithelium model of SARS-CoV-2 infection, in 96-well air-liquid-interface (ALI) format, which is amenable to moderate throughput drug screening. We tested the model against SARS-CoV-2 parental strain (Wuhan) and variants Beta, Delta, and Omicron. We applied this model to screen 2100 compounds from targeted drug libraries using a high throughput-high content image-based quantification method.

Results: The model recapitulated the heterogeneity of infection among patients with SARS-CoV-2 parental strain and variants. While there were heterogeneous responses across variants for host factor targeting compounds, the two direct-acting antivirals we tested, Remdesivir and Paxlovid, showed consistent efficacy in reducing infection across all variants and donors. Using the model, we characterized a new antiviral drug effective against both the parental strain and the Omicron variant.

Conclusion: This study demonstrates that the 96-well ALI model of primary human mucociliary epithelium can recapitulate the heterogeneity of infection among different donors and SARS-CoV-2 variants and can be used for moderate throughput screening. Compounds that target host factors showed variability among patients in response to SARS-CoV-2, while direct-acting antivirals were effective against SARS-CoV-2 despite the heterogeneity of patients tested.

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用于中等通量SARS-CoV-2药物筛选的人近端气道上皮微尺度气液界面模型的优化

背景：许多呼吸道病毒攻击气道上皮，并引起广泛的疾病，我们的治疗有限。迄今为止，一些基于人类干细胞的近端气道模型已被报道用于药物发现，但将其扩展到更高通量的平台仍然是一个重大挑战。因此，大多数呼吸道病毒的药物筛选试验都是在基于商业细胞系的2D培养物上进行的，这种培养物的翻译能力有限。方法：建立适于中等通量药物筛选的96孔气液界面（ALI）模型，优化基于人干细胞的原代SARS-CoV-2感染气道粘膜纤毛上皮模型。我们对SARS-CoV-2亲本株（武汉）和变体Beta、Delta和Omicron进行了模型测试。我们应用该模型使用高通量-高含量基于图像的定量方法从靶向药物文库中筛选2100种化合物。结果：该模型重现了SARS-CoV-2亲本株和变异株患者感染的异质性。虽然宿主因子靶向化合物的不同变体存在不同的反应，但我们测试的两种直接作用抗病毒药物Remdesivir和Paxlovid在减少所有变体和供体感染方面表现出一致的疗效。利用该模型，我们确定了一种新的抗病毒药物对亲本菌株和Omicron变体都有效。结论：本研究表明，96孔原代人纤毛粘膜上皮ALI模型能够再现不同供体和SARS-CoV-2变异体感染的异质性，可用于中等通量筛选。靶向宿主因子的化合物在不同患者对SARS-CoV-2的反应中表现出差异，而直接作用的抗病毒药物对SARS-CoV-2有效，尽管受测患者存在异质性。

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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来源期刊

Respiratory Research RESPIRATORY SYSTEM-

CiteScore

9.70

自引率

1.70%

发文量

314

审稿时长

4-8 weeks

期刊介绍： Respiratory Research publishes high-quality clinical and basic research, review and commentary articles on all aspects of respiratory medicine and related diseases. As the leading fully open access journal in the field, Respiratory Research provides an essential resource for pulmonologists, allergists, immunologists and other physicians, researchers, healthcare workers and medical students with worldwide dissemination of articles resulting in high visibility and generating international discussion. Topics of specific interest include asthma, chronic obstructive pulmonary disease, cystic fibrosis, genetics, infectious diseases, interstitial lung diseases, lung development, lung tumors, occupational and environmental factors, pulmonary circulation, pulmonary pharmacology and therapeutics, respiratory immunology, respiratory physiology, and sleep-related respiratory problems.