高度可扩展的人类肺泡类器官用于研究呼吸系统疾病

B107. MOLECULAR MECHANISMS OF SARS-CoV-2, INFLUENZA, AND OTHER LUNG INFECTIONS Pub Date : 2022-05-01 DOI:10.1164/ajrccm-conference.2022.205.1_meetingabstracts.a3627

P. Kramer, V. Ho, C. Bowden, N. Ronaghan, U. Pena, D. Rowbotham, T. Brown, M. Tellis, J. Finn, A.Y. Yoshikawa, A. Eaves, S. Louis, W. Chang, J. Hou

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引用次数: 0

摘要

类器官正在成为研究人类发育和疾病的绝佳工具。COVID-19大流行突出了包括肺泡上皮1型(AT1)和2型(AT2)细胞在内的生理相关肺泡感染模型的重要性。为了解决呼吸研究对肺泡类器官培养系统的需求，我们开发了PneumaCult™肺泡类器官扩增和分化培养基，用于分离的原代人AT2细胞的高效扩增并随后分化为AT1细胞。通过在康宁®Matrigel®穹窿中使用无血清的PneumaCult™肺泡类器官扩增培养基培养纯化的人AT2细胞，从不同供体(n=5)的一组中建立肺泡类器官。通常在第10-14天，类器官完全建立并显示球形形态。肺泡类器官可以通过在扩增培养基中作为单细胞传代长期扩增，也可以使用PneumaCult™肺泡类器官分化培养基分化为AT1细胞。在PneumaCult™肺泡类器官扩增培养基中，含有自我更新的AT2细胞，以HT2-280在89.9 +/- 14.5(平均+/- SD;n=5个供体)细胞中的表达为标志，并存在Pro-SPC，显示出> 10,000倍的巨大扩增潜力，在10代(n=5个供体)内超过13个群体翻倍。在PneumaCult™肺泡类器官分化培养基中分化10天后，93.8 +/- 7.2(平均+/- SD;n=5个供体)细胞中AT2标记物HT2-280和Pro-SPC下调，并开始表达AT1标记物HT1-56, RAGE和GPRC5a阳性。此外，我们评估了SARS-CoV-2进入受体ACE2的表达，该受体存在于未分化和分化的肺泡类器官中。为了研究这些肺泡类器官在传染病建模中的应用，用gfp标记的呼吸道合胞病毒(RSV)转导含at2的肺泡类器官。肺泡类器官易受病毒感染，荧光显微镜和定量PCR证实了其复制能力。总之，PneumaCult™肺泡类器官扩增和分化培养基是一种高效、可重复的工具，可用于无饲料的AT2细胞扩增和向AT1细胞的稳健分化，可用于传染病建模。

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Highly Expandable Human Alveolar Organoids to Study Respiratory Diseases

Organoids are emerging to be an excellent tool for studying human development and disease. The COVID-19 pandemic has highlighted the importance of physiologically relevant alveolar infection models that include both alveolar epithelial type 1 (AT1) and type 2 (AT2) cells. To address the need for an alveolar organoid culture system for respiratory research, we developed the PneumaCult™ Alveolar Organoid Expansion and Differentiation Media for the highly efficient expansion of isolated primary human AT2 cells and subsequent differentiation into AT1 cells. Alveolar organoids were established from a panel of various donors (n=5) by culturing purified human AT2 cells in Corning® Matrigel® domes with serum-free PneumaCult™ Alveolar Organoid Expansion Medium. Typically by day 10-14 the organoids are fully established and display a spherical morphology. Alveolar organoids can then be either expanded long-term by passaging cultures as single cells in Expansion Medium or differentiated into AT1 cells using the PneumaCult™ Alveolar Organoid Differentiation Medium. Organoids in PneumaCult™ Alveolar Organoid Expansion Medium contain self-renewing AT2 cells marked by the expression of HT2-280 in 89.9 +/- 14.5 (mean +/- SD;n=5 donors) of cells and the presence of Pro-SPC, demonstrate a great expansion potential of > 10,000-fold with more than 13 population doublings within 10 passages (n=5 donors). Alveolar organoids differentiated for 10 days in the PneumaCult™ Alveolar Organoid Differentiation Medium downregulate AT2 markers HT2-280 and Pro-SPC and start expressing AT1 markers HT1-56 in 93.8 +/- 7.2 (mean +/- SD;n=5 donors) of cells and are positive for RAGE and GPRC5a. Furthermore, we assessed the expression of SARS-CoV-2 entry receptor ACE2, which is present in both undifferentiated and differentiated alveolar organoids.To investigate the use of these alveolar organoids for infectious disease modeling, AT2-containing alveolar organoids were transduced with a GFP-labelled Respiratory Syncytial Virus (RSV). Alveolar organoids were susceptible to viral infection and replication was confirmed by fluorescence microscopy and quantitative PCR. In summary, the PneumaCult™ Alveolar Organoid Expansion and Differentiation Media are highly efficient and reproducible tools for the feeder-free expansion of AT2 cells and robust differentiation into AT1 cells, which can be used for infectious disease modeling.

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B107. MOLECULAR MECHANISMS OF SARS-CoV-2, INFLUENZA, AND OTHER LUNG INFECTIONS

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