In Vitro and In Vivo Development of the Human Airway at Single-Cell Resolution
Bud tip progenitor cells give rise to all murine lung epithelial lineages and have been described in the developing human lung; however, the mechanisms controlling human bud tip differentiation into specific lineages are unclear. Here, we used homogeneous human bud tip organoid cultures and identified SMAD signaling as a key regulator of the bud tip-to-airway transition. SMAD induction led to the differentiation of airway-like organoids possessing functional basal cells capable of clonal expansion and multilineage differentiation. To benchmark in vitro-derived organoids, we developed a single-cell mRNA sequencing atlas of the human lung from 11.5 to 21 weeks of development, which revealed high degrees of similarity between the in vitro-derived and in vivo airway. Together, this work sheds light on human airway differentiation in vitro and provides a single-cell atlas of the developing human lung.
In Vitro and In Vivo Development of the Human Airway at Single-Cell Resolution
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Atlas
Analysis Portals
Project Label
InVitroandInVivoDevelopmentoftheHumanAirwayatSinglSpecies
Homo sapiens
Sample Type
Anatomical Entity
Organ Part
Selected Cell Types
Unspecified
Model Organ
respiratory airway
Disease Status (Specimen)
Unspecified
Disease Status (Donor)
Unspecified
Development Stage
Library Construction Method
10x 3' v2
Nucleic Acid Source
single cell
Paired End
falseFile Format
fastq
Cell Count Estimate
UnspecifiedDonor Count
5