Generation of human alveolar epithelial type I cells from pluripotent stem cells

IF 19.8 1区医学 Q1 CELL & TISSUE ENGINEERING

Cell stem cell Pub Date : 2024-04-19 DOI:10.1016/j.stem.2024.03.017

Claire L. Burgess, Jessie Huang, Pushpinder S. Bawa, Konstantinos-Dionysios Alysandratos, Kasey Minakin, Lauren J. Ayers, Michael P. Morley, Apoorva Babu, Carlos Villacorta-Martin, Maria Yampolskaya, Anne Hinds, Bibek R. Thapa, Feiya Wang, Adeline Matschulat, Pankaj Mehta, Edward E. Morrisey, Xaralabos Varelas, Darrell N. Kotton

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Abstract

Alveolar epithelial type I cells (AT1s) line the gas exchange barrier of the distal lung and have been historically challenging to isolate or maintain in cell culture. Here, we engineer a human in vitro AT1 model system via directed differentiation of induced pluripotent stem cells (iPSCs). We use primary adult AT1 global transcriptomes to suggest benchmarks and pathways, such as Hippo-LATS-YAP/TAZ signaling, enriched in these cells. Next, we generate iPSC-derived alveolar epithelial type II cells (AT2s) and find that nuclear YAP signaling is sufficient to promote a broad transcriptomic shift from AT2 to AT1 gene programs. The resulting cells express a molecular, morphologic, and functional phenotype reminiscent of human AT1 cells, including the capacity to form a flat epithelial barrier producing characteristic extracellular matrix molecules and secreted ligands. Our results provide an in vitro model of human alveolar epithelial differentiation and a potential source of human AT1s.

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用多能干细胞生成人肺泡上皮 I 型细胞

肺泡上皮I型细胞（AT1s）是远端肺部气体交换屏障的组成部分，一直以来，要分离或在细胞培养中维持这种细胞都很困难。在这里，我们通过诱导多能干细胞（iPSCs）的定向分化，构建了人类体外 AT1 模型系统。我们利用原代成体AT1全局转录组提出了在这些细胞中富集的基准和途径，如Hippo-LATS-YAP/TAZ信号转导。接下来，我们生成了 iPSC 衍生的肺泡上皮 II 型细胞（AT2s），并发现核 YAP 信号足以促进 AT2 基因程序向 AT1 基因程序的广泛转录组转变。由此产生的细胞表现出与人类 AT1 细胞相似的分子、形态和功能表型，包括形成平坦的上皮屏障，产生特征性细胞外基质分子和分泌配体的能力。我们的研究结果提供了人类肺泡上皮分化的体外模型和人类 AT1 的潜在来源。

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

Cell stem cell 生物-细胞生物学

CiteScore

37.10

自引率

2.50%

发文量

151

审稿时长

42 days

期刊介绍： Cell Stem Cell is a comprehensive journal covering the entire spectrum of stem cell biology. It encompasses various topics, including embryonic stem cells, pluripotency, germline stem cells, tissue-specific stem cells, differentiation, epigenetics, genomics, cancer stem cells, stem cell niches, disease models, nuclear transfer technology, bioengineering, drug discovery, in vivo imaging, therapeutic applications, regenerative medicine, clinical insights, research policies, ethical considerations, and technical innovations. The journal welcomes studies from any model system providing insights into stem cell biology, with a focus on human stem cells. It publishes research reports of significant importance, along with review and analysis articles covering diverse aspects of stem cell research.