A topographic atlas defines developmental origins of cell heterogeneity in the human embryonic lung-Reference-Cited by-同舟云学术

A topographic atlas defines developmental origins of cell heterogeneity in the human embryonic lung

Published:2023-01-16 Issue: Volume: Page:
ISSN:1465-7392
Container-title:Nature Cell Biology
language:en
Short-container-title:Nat Cell Biol

Author:

Sountoulidis Alexandros^ORCID,Marco Salas Sergio,Braun Emelie,Avenel Christophe,Bergenstråhle Joseph,Theelke Jonas^ORCID,Vicari Marco^ORCID,Czarnewski Paulo^ORCID,Liontos Andreas,Abalo Xesus^ORCID,Andrusivová Žaneta,Mirzazadeh Reza,Asp Michaela,Li Xiaofei,Hu Lijuan,Sariyar Sanem,Martinez Casals Anna,Ayoglu Burcu,Firsova Alexandra^ORCID,Michaëlsson Jakob,Lundberg Emma^ORCID,Wählby Carolina,Sundström Erik,Linnarsson Sten^ORCID,Lundeberg Joakim^ORCID,Nilsson Mats^ORCID,Samakovlis Christos^ORCID

Abstract

AbstractThe lung contains numerous specialized cell types with distinct roles in tissue function and integrity. To clarify the origins and mechanisms generating cell heterogeneity, we created a comprehensive topographic atlas of early human lung development. Here we report 83 cell states and several spatially resolved developmental trajectories and predict cell interactions within defined tissue niches. We integrated single-cell RNA sequencing and spatially resolved transcriptomics into a web-based, open platform for interactive exploration. We show distinct gene expression programmes, accompanying sequential events of cell differentiation and maturation of the secretory and neuroendocrine cell types in proximal epithelium. We define the origin of airway fibroblasts associated with airway smooth muscle in bronchovascular bundles and describe a trajectory of Schwann cell progenitors to intrinsic parasympathetic neurons controlling bronchoconstriction. Our atlas provides a rich resource for further research and a reference for defining deviations from homeostatic and repair mechanisms leading to pulmonary diseases.

Publisher

Springer Science and Business Media LLC

Subject

Cell Biology

Link

https://www.nature.com/articles/s41556-022-01064-x.pdf

Reference139 articles.

1. Franks, T. J. et al. Resident cellular components of the human lung: current knowledge and goals for research on cell phenotyping and function. Proc. Am. Thorac. Soc. 5, 763–766 (2008).

2. Travaglini, K. J. et al. A molecular cell atlas of the human lung from single-cell RNA sequencing. Nature 587, 619–625 (2020).

3. Vieira Braga, F. A. et al. A cellular census of human lungs identifies novel cell states in health and in asthma. Nat. Med. 25, 1153–1163 (2019).

4. Adams, T. S. et al. Single-cell RNA-seq reveals ectopic and aberrant lung-resident cell populations in idiopathic pulmonary fibrosis. Sci. Adv. 6, eaba1983 (2020).

5. Okuda, K. et al. Secretory cells dominate airway CFTR expression and function in human airway superficial epithelia. Am. J. Respir. Crit. Care Med. 203, 1275–1289 (2021).

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