Experimental and Molecular Medicine (Aug 2023)

A single-cell atlas of in vitro multiculture systems uncovers the in vivo lineage trajectory and cell state in the human lung

  • Woochan Lee,
  • Seyoon Lee,
  • Jung-Ki Yoon,
  • Dakyung Lee,
  • Yuri Kim,
  • Yeon Bi Han,
  • Rokhyun Kim,
  • Sungji Moon,
  • Young Jun Park,
  • Kyunghyuk Park,
  • Bukyoung Cha,
  • Jaeyong Choi,
  • Juhyun Kim,
  • Na-young Ha,
  • Kwhanmien Kim,
  • Sukki Cho,
  • Nam-Hyuk Cho,
  • Tushar J. Desai,
  • Jin-Haeng Chung,
  • Joo-Hyeon Lee,
  • Jong-Il Kim

DOI
https://doi.org/10.1038/s12276-023-01076-z
Journal volume & issue
Vol. 55, no. 8
pp. 1831 – 1842

Abstract

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Abstract We present an in-depth single-cell atlas of in vitro multiculture systems on human primary airway epithelium derived from normal and diseased lungs of 27 individual donors. Our large-scale single-cell profiling identified new cell states and differentiation trajectories of rare airway epithelial cell types in human distal lungs. By integrating single-cell datasets of human lung tissues, we discovered immune-primed subsets enriched in lungs and organoids derived from patients with chronic respiratory disease. To demonstrate the full potential of our platform, we further illustrate transcriptomic responses to various respiratory virus infections in vitro airway models. Our work constitutes a single-cell roadmap for the cellular and molecular characteristics of human primary lung cells in vitro and their relevance to human tissues in vivo.