A novel in vitro tubular model to recapitulate features of distal airways: the bronchioid.

IF 16.6 1区 医学 Q1 RESPIRATORY SYSTEM European Respiratory Journal Pub Date : 2024-12-05 Print Date: 2024-12-01 DOI:10.1183/13993003.00562-2024
Elise Maurat, Katharina Raasch, Alexander M Leipold, Pauline Henrot, Maeva Zysman, Renaud Prevel, Thomas Trian, Tobias Krammer, Vanessa Bergeron, Matthieu Thumerel, Pierre Nassoy, Patrick Berger, Antoine-Emmanuel Saliba, Laetitia Andrique, Gaëlle Recher, Isabelle Dupin
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Abstract

Background: Airflow limitation is the hallmark of obstructive pulmonary diseases, with the distal airways representing a major site of obstruction. Although numerous in vitro models of bronchi already exist, there is currently no culture system for obstructive diseases that reproduces the architecture and function of small airways. Here, we aimed to engineer a model of distal airways to overcome the limitations of current culture systems.

Methods: We developed a so-called bronchioid model by encapsulating human bronchial adult stem cells derived from clinical samples in a tubular scaffold made of alginate gel.

Results: This template drives the spontaneous self-organisation of epithelial cells into a tubular structure. Fine control of the level of contraction is required to establish a model of the bronchiole, which has a physiologically relevant shape and size. Three-dimensional imaging, gene expression and single-cell RNA-sequencing analysis of bronchioids made of bronchial epithelial cells revealed tubular organisation, epithelial junction formation and differentiation into ciliated and goblet cells. Ciliary beating was observed, at a decreased frequency in bronchioids made of cells from COPD patients. The bronchioid could be infected by rhinovirus. An air-liquid interface was introduced that modulated gene expression.

Conclusion: Here, we provide a proof of concept of a perfusable bronchioid with proper mucociliary and contractile functions. The key advantages of our approach, such as the air‒liquid interface, lumen accessibility, recapitulation of pathological features and possible assessment of clinically relevant end-points, will make our pulmonary organoid-like model a powerful tool for preclinical studies.

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再现远端气道特征的新型体外小管模型:支气管
背景:气流受限是阻塞性肺病的特征,远端气道是阻塞的主要部位。虽然已经有了许多支气管体外模型,但目前还没有能再现小气道结构和功能的阻塞性疾病培养系统。在此,我们旨在设计一种远端气道模型,以克服现有培养系统的局限性:方法:我们将从临床样本中提取的人类支气管成体干细胞包裹在藻酸盐凝胶制成的管状支架中,建立了所谓的支气管模型:结果:这一模板促使上皮细胞自发自组织成管状结构。要建立具有生理相关形状和大小的支气管模型,需要对收缩程度进行精细控制。对支气管上皮细胞组成的支气管进行的三维成像、基因表达和单细胞 RNA-seq 分析显示了管状组织、上皮连接的形成以及纤毛细胞和上皮细胞的分化。在由慢性阻塞性肺病患者细胞制成的支气管体中可观察到纤毛跳动,但频率有所降低。支气管可被鼻病毒感染。引入的气液界面可调节基因表达:在此,我们提供了具有适当粘膜纤毛和收缩功能的可灌注支气管组织的概念验证。我们研究方法的主要优势,如气液界面、管腔可及性、病理特征再现以及可能的临床相关终点评估,将使我们的类肺器官模型成为临床前研究的有力工具。
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来源期刊
European Respiratory Journal
European Respiratory Journal 医学-呼吸系统
CiteScore
27.50
自引率
3.30%
发文量
345
审稿时长
2-4 weeks
期刊介绍: The European Respiratory Journal (ERJ) is the flagship journal of the European Respiratory Society. It has a current impact factor of 24.9. The journal covers various aspects of adult and paediatric respiratory medicine, including cell biology, epidemiology, immunology, oncology, pathophysiology, imaging, occupational medicine, intensive care, sleep medicine, and thoracic surgery. In addition to original research material, the ERJ publishes editorial commentaries, reviews, short research letters, and correspondence to the editor. The articles are published continuously and collected into 12 monthly issues in two volumes per year.
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