Culture impact on the transcriptomic programs of primary and iPSC-derived human alveolar type 2 cells
Konstantinos-Dionysios Alysandratos, Carolina Garcia-de-Alba, Changfu Yao, Patrizia Pessina, Jessie Huang, Carlos Villacorta-Martin, Olivia T. Hix, Kasey Minakin, Claire L. Burgess, Pushpinder Bawa, Aditi Murthy, Bindu Konda, Michael F. Beers, Barry R. Stripp, Carla F. Kim, Darrell N. Kotton
Konstantinos-Dionysios Alysandratos, Carolina Garcia-de-Alba, Changfu Yao, Patrizia Pessina, Jessie Huang, Carlos Villacorta-Martin, Olivia T. Hix, Kasey Minakin, Claire L. Burgess, Pushpinder Bawa, Aditi Murthy, Bindu Konda, Michael F. Beers, Barry R. Stripp, Carla F. Kim, Darrell N. Kotton
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Research Article Pulmonology Stem cells

Culture impact on the transcriptomic programs of primary and iPSC-derived human alveolar type 2 cells

Abstract

Dysfunction of alveolar epithelial type 2 cells (AEC2s), the facultative progenitors of lung alveoli, is implicated in pulmonary disease pathogenesis, highlighting the importance of human in vitro models. However, AEC2-like cells in culture have yet to be directly compared to their in vivo counterparts at single-cell resolution. Here, we performed head-to-head comparisons among the transcriptomes of primary (1°) adult human AEC2s, their cultured progeny, and human induced pluripotent stem cell–derived AEC2s (iAEC2s). We found each population occupied a distinct transcriptomic space with cultured AEC2s (1° and iAEC2s) exhibiting similarities to and differences from freshly purified 1° cells. Across each cell type, we found an inverse relationship between proliferative and maturation states, with preculture 1° AEC2s being most quiescent/mature and iAEC2s being most proliferative/least mature. Cultures of either type of human AEC2s did not generate detectable alveolar type 1 cells in these defined conditions; however, a subset of iAEC2s cocultured with fibroblasts acquired a transitional cell state described in mice and humans to arise during fibrosis or following injury. Hence, we provide direct comparisons of the transcriptomic programs of 1° and engineered AEC2s, 2 in vitro models that can be harnessed to study human lung health and disease.

Authors

Konstantinos-Dionysios Alysandratos, Carolina Garcia-de-Alba, Changfu Yao, Patrizia Pessina, Jessie Huang, Carlos Villacorta-Martin, Olivia T. Hix, Kasey Minakin, Claire L. Burgess, Pushpinder Bawa, Aditi Murthy, Bindu Konda, Michael F. Beers, Barry R. Stripp, Carla F. Kim, Darrell N. Kotton

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Figure 3

AEC2 maturation is inversely related to proliferation.

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AEC2 maturation is inversely related to proliferation. (A) Violin plots ...
(A) Violin plots showing normalized expression for MKI67 and cell cycle phase in preculture 1° AEC2s, cultured 1° AEC2s, and iAEC2s by scRNA-Seq. (B) Violin plots showing normalized expression for individual genes from a published AEC2 differentiation gene set (36). (C) Violin plots showing normalized expression for individual genes from a published maturation gene set (36). (D) Bar plot of cell cycle phase proportions by sample. (E) Violin plots showing normalized expression for indicated gene sets in preculture 1° AEC2s, cultured 1° AEC2s, and iAEC2s by scRNA-Seq. (F) Normalized gene expression overlaid on UMAP plots for the indicated transcripts. (G) Violin plots of AEC2 maturation gene set by cell cycle phase in preculture 1° AEC2s, cultured 1° AEC2s, and iAEC2s. (H) Violin plots of expressed genes in preculture 1° AEC2s, cultured 1° AEC2s, and iAEC2s by scRNA-Seq. ****P < 0.0001 by 1-way ANOVA with Bonferroni correction for multiple comparisons for all panels.