Systematic Analysis of Smooth Muscle and Cartilage Ring Formation during Mouse Tracheal Tubulogenesis.

Haoyu Wu, Ping Wang, Ziying Liu, Chunyan Lu, Wenguang Yin
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Abstract

The trachea tube is the exclusive route to allow gas exchange between the external environment and the lungs. Recent studies have shown the critical role of mesenchymal cells in tracheal tubulogenesis. Improved methods for studying the dynamics of the tracheal mesenchyme development are needed to investigate the cellular and molecular mechanisms during tracheal tubulogenesis. Here, we describe a detailed protocol for a systematic analysis of tracheal tube development to enable observing tracheal smooth muscle (SM) and cartilage ring formation. We describe immunostaining, confocal and stereomicroscopy imaging, and quantitative methods to study the process of tracheal SM and cartilage ring development, including SM cell alignment, polarization, and changes in cell shape as well as mesenchymal condensation. The technologies and approaches described here not only improve analysis of the patterning of the developing trachea but also help uncover the mechanisms underlying airway disease. This protocol also provides a useful technique to analyze cell organization, polarity, and nuclear shape in other organ systems.

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Abstract Image

Abstract Image

小鼠气管小管形成过程中平滑肌和软骨环形成的系统分析。
气管是外部环境和肺部之间气体交换的唯一通道。近年来的研究表明,间充质细胞在气管小管形成中起着至关重要的作用。为了研究气管小管形成过程中的细胞和分子机制,需要改进研究气管间质发育动力学的方法。在这里,我们描述了一个详细的方案系统分析气管管的发展,使观察气管平滑肌(SM)和软骨环形成。我们描述了免疫染色、共聚焦和立体显微镜成像以及定量方法来研究气管SM和软骨环的发育过程,包括SM细胞的排列、极化、细胞形状的变化以及间质凝聚。本文描述的技术和方法不仅提高了对发育中的气管模式的分析,而且有助于揭示气道疾病的机制。该协议也提供了一个有用的技术来分析细胞组织,极性和核形状在其他器官系统。
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