Lung Regeneration by Multipotent Stem Cells Residing at the Bronchioalveolar-duct Junction

Overview

Journal Nat Genet

Specialty Genetics

Date 2019 Feb 20

PMID 30778223

Citations 149

Authors

Qiaozhen Liu

Kuo Liu

Guizhong Cui

Xiuzhen Huang

Shun Yao

Wenke Guo

Zhen Qin

Yan Li

Rui Yang

Wenjuan Pu

Libo Zhang

Lingjuan He

Huan Zhao

Wei Yu

Muxue Tang

Xueying Tian

Dongqing Cai

Yu Nie

Shengshou Hu

Tao Ren

Zengyong Qiao

Hefeng Huang

Yi Arial Zeng

Naihe Jing

Guangdun Peng

Hongbin Ji

Bin Zhou

Affiliations

Soon will be listed here.

Abstract

Characterizing the stem cells responsible for lung repair and regeneration is important for the treatment of pulmonary diseases. Recently, a unique cell population located at the bronchioalveolar-duct junctions has been proposed to comprise endogenous stem cells for lung regeneration. However, the role of bronchioalveolar stem cells (BASCs) in vivo remains debated, and the contribution of such cells to lung regeneration is not known. Here we generated a genetic lineage-tracing system that uses dual recombinases (Cre and Dre) to specifically track BASCs in vivo. Fate-mapping and clonal analysis showed that BASCs became activated and responded distinctly to different lung injuries, and differentiated into multiple cell lineages including club cells, ciliated cells, and alveolar type 1 and type 2 cells for lung regeneration. This study provides in vivo genetic evidence that BASCs are bona fide lung epithelial stem cells with deployment of multipotency and self-renewal during lung repair and regeneration.

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