An injury-induced mesenchymal-epithelial cell niche coordinates regenerative responses in the lung.

Severe lung injury causes airway basal stem cells to migrate and outcompete alveolar stem cells, resulting in dysplastic repair. We found that this "stem cell collision" generates an injury-induced tissue niche containing keratin 5 epithelial cells and plastic Pdgfra mesenchymal cells. Single-cell analysis revealed that the injury-induced niche is governed by mesenchymal proliferation and Notch signaling, which suppressed Wnt/Fgf signaling in the injured niche.

Identification of Meibomian gland stem cell populations and mechanisms of aging.

Meibomian glands secrete lipid-rich meibum, which prevents tear evaporation. Aging-related Meibomian gland shrinkage may result in part from stem cell exhaustion and is associated with evaporative dry eye disease, a common condition lacking effective treatment. The identities and niche of Meibomian gland stem cells and the signals controlling their activity are poorly defined.

Airway-derived emphysema-specific alveolar type II cells exhibit impaired regenerative potential in COPD.

Emphysema, the progressive destruction of gas exchange surfaces in the lungs, is a hallmark of COPD that is presently incurable. This therapeutic gap is largely due to a poor understanding of potential drivers of impaired tissue regeneration, such as abnormal lung epithelial progenitor cells, including alveolar type II (ATII) and airway club cells. We discovered an emphysema-specific subpopulation of ATII cells located in enlarged distal alveolar sacs, termed asATII cells.

Generation of human alveolar epithelial type I cells from pluripotent stem cells.

Alveolar epithelial type I cells (AT1s) line the gas exchange barrier of the distal lung and have been historically challenging to isolate or maintain in cell culture. Here, we engineer a human in vitro AT1 model system via directed differentiation of induced pluripotent stem cells (iPSCs). We use primary adult AT1 global transcriptomes to suggest benchmarks and pathways, such as Hippo-LATS-YAP/TAZ signaling, enriched in these cells.