TY - JOUR
T1 - Evidence for human lung stem cells
AU - Kajstura, Jan
AU - Rota, Marcello
AU - Hall, Sean R.
AU - Hosoda, Toru
AU - D'Amario, Domenico
AU - Sanada, Fumihiro
AU - Zheng, Hanqiao
AU - Ogórek, Barbara
AU - Rondon-Clavo, Carlos
AU - Ferreira-Martins, João
AU - Matsuda, Alex
AU - Arranto, Christian
AU - Goichberg, Polina
AU - Giordano, Giovanna
AU - Haley, Kathleen J.
AU - Bardelli, Silvana
AU - Rayatzadeh, Hussein
AU - Liu, Xiaoli
AU - Quaini, Federico
AU - Liao, Ronglih
AU - Leri, Annarosa
AU - Perrella, Mark A.
AU - Loscalzo, Joseph
AU - Anversa, Piero
PY - 2011/5/12
Y1 - 2011/5/12
N2 - BACKGROUND: Although progenitor cells have been described in distinct anatomical regions of the lung, description of resident stem cells has remained elusive. METHODS: Surgical lung-tissue specimens were studied in situ to identify and characterize human lung stem cells. We defined their phenotype and functional properties in vitro and in vivo. RESULTS: Human lungs contain undifferentiated human lung stem cells nested in niches in the distal airways. These cells are self-renewing, clonogenic, and multipotent in vitro. After injection into damaged mouse lung in vivo, human lung stem cells form human bronchioles, alveoli, and pulmonary vessels integrated structurally and functionally with the damaged organ. The formation of a chimeric lung was confirmed by detection of human transcripts for epithelial and vascular genes. In addition, the self-renewal and long-term proliferation of human lung stem cells was shown in serial-transplantation assays. CONCLUSIONS: Human lungs contain identifiable stem cells. In animal models, these cells participate in tissue homeostasis and regeneration. They have the undemonstrated potential to promote tissue restoration in patients with lung disease. (Funded by the National Institutes of Health.)
AB - BACKGROUND: Although progenitor cells have been described in distinct anatomical regions of the lung, description of resident stem cells has remained elusive. METHODS: Surgical lung-tissue specimens were studied in situ to identify and characterize human lung stem cells. We defined their phenotype and functional properties in vitro and in vivo. RESULTS: Human lungs contain undifferentiated human lung stem cells nested in niches in the distal airways. These cells are self-renewing, clonogenic, and multipotent in vitro. After injection into damaged mouse lung in vivo, human lung stem cells form human bronchioles, alveoli, and pulmonary vessels integrated structurally and functionally with the damaged organ. The formation of a chimeric lung was confirmed by detection of human transcripts for epithelial and vascular genes. In addition, the self-renewal and long-term proliferation of human lung stem cells was shown in serial-transplantation assays. CONCLUSIONS: Human lungs contain identifiable stem cells. In animal models, these cells participate in tissue homeostasis and regeneration. They have the undemonstrated potential to promote tissue restoration in patients with lung disease. (Funded by the National Institutes of Health.)
UR - http://www.scopus.com/inward/record.url?scp=79955924124&partnerID=8YFLogxK
U2 - 10.1056/NEJMoa1101324
DO - 10.1056/NEJMoa1101324
M3 - Article
SN - 0028-4793
VL - 364
SP - 1795
EP - 1806
JO - New England Journal of Medicine
JF - New England Journal of Medicine
IS - 19
ER -