Air-liquid interface culture promotes maturation and allows environmental exposure of pluripotent stem cell–derived alveolar epithelium
Kristine M. Abo, … , Darrell N. Kotton, Andrew A. Wilson
Kristine M. Abo, … , Darrell N. Kotton, Andrew A. Wilson
Published March 22, 2022
Citation Information: JCI Insight. 2022;7(6):e155589. https://doi.org/10.1172/jci.insight.155589.
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Resource and Technical Advance Stem cells

Air-liquid interface culture promotes maturation and allows environmental exposure of pluripotent stem cell–derived alveolar epithelium

Abstract

Type 2 alveolar epithelial cells (AT2s), facultative progenitor cells of the lung alveolus, play a vital role in the biology of the distal lung. In vitro model systems that incorporate human cells, recapitulate the biology of primary AT2s, and interface with the outside environment could serve as useful tools to elucidate functional characteristics of AT2s in homeostasis and disease. We and others recently adapted human induced pluripotent stem cell–derived AT2s (iAT2s) for air-liquid interface (ALI) culture. Here, we comprehensively characterize the effects of ALI culture on iAT2s and benchmark their transcriptional profile relative to both freshly sorted and cultured primary human fetal and adult AT2s. We find that iAT2s cultured at ALI maintain an AT2 phenotype while upregulating expression of transcripts associated with AT2 maturation. We then leverage this platform to assay the effects of exposure to clinically significant, inhaled toxicants including cigarette smoke and electronic cigarette vapor.

Authors

Kristine M. Abo, Julio Sainz de Aja, Jonathan Lindstrom-Vautrin, Konstantinos-Dionysios Alysandratos, Alexsia Richards, Carolina Garcia-de-Alba, Jessie Huang, Olivia T. Hix, Rhiannon B. Werder, Esther Bullitt, Anne Hinds, Isaac Falconer, Carlos Villacorta-Martin, Rudolf Jaenisch, Carla F. Kim, Darrell N. Kotton, Andrew A. Wilson

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Figure 3

iAT2s resemble primary AT2s in epithelial gene expression and differ in immune response state.

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iAT2s resemble primary AT2s in epithelial gene expression and differ in ...
(A) Principal component analysis (PCA) of 10 samples (n = 3 per condition) showing global transcriptomic variance (%) of PC1 and PC2. Day 0, undifferentiated PSCs; day 15, day 15 NKX2.1+ progenitors; day 35 = day 35 tdTomato+ iAT2s; iAT2 3D, day 281 iAT2s, 10 days after passage in self-renewing 3D culture; iAT2 ALI, day 281 iAT2s, 10 days after passage to cell culture inserts; early HFL, weeks 16–17.5 (early canalicular) human fetal lung; late HFL, week 20–21 (late canalicular) human fetal lung; adult sorted AT2s, adult HTII-280–sorted AT2s; adult cultured AT2, adult HTII-280–sorted AT2s cultured in vitro; pediatric cultured AT2, pediatric HTII-280–sorted AT2s cultured in vitro. (B) Heatmap of row-normalized expression of key AT2 markers across iAT2 culture formats and primary lung samples. (C) Heatmap of Pearson correlation coefficients calculated between each sample based on normalized expression of human lung epithelial genes from an independent data set (25) and plotted as an average across samples for each group (see Supplemental Figure 4 for replicate values). (D) Heatmaps of row-normalized Z scores of top 100 differentially expressed genes between adult sorted AT2 versus iAT2 ALI (FDR < 0.05, ranked by log fold change) in the Hallmark gene sets Interferon Gamma Response, TNFA Signaling via NFkB, and Inflammatory Response.