Integrin α6β4 identifies an adult distal lung epithelial population with regenerative potential in mice
Harold A. Chapman, … , Ying Wei, Thiennu H. Vu
Harold A. Chapman, … , Ying Wei, Thiennu H. Vu
Published June 23, 2011
Citation Information: J Clin Invest. 2011;121(7):2855-2862. https://doi.org/10.1172/JCI57673.
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Research Article

Integrin α6β4 identifies an adult distal lung epithelial population with regenerative potential in mice

Abstract

Laminins and their integrin receptors are implicated in epithelial cell differentiation and progenitor cell maintenance. We report here that a previously unrecognized subpopulation of mouse alveolar epithelial cells (AECs) expressing the laminin receptor α6β4, but little or no pro–surfactant C (pro-SPC), is endowed with regenerative potential. Ex vivo, this subpopulation expanded clonally as progenitors but also differentiated toward mature cell types. Integrin β4 itself was not required for AEC proliferation or differentiation. An in vivo embryonic lung organoid assay, which we believe to be novel, was used to show that purified β4+ adult AECs admixed with E14.5 lung single-cell suspensions and implanted under kidney capsules self-organized into distinct Clara cell 10-kDa secretory protein (CC10+) airway-like and SPC+ saccular structures within 6 days. Using a bleomycin model of lung injury and an SPC-driven inducible cre to fate-map AECs, we found the majority of type II AECs in fibrotic areas were not derived from preexisting type II AECs, demonstrating that SPC– progenitor cells replenished type II AECs during repair. Our findings support the idea that there is a stable AEC progenitor population in the adult lung, provide in vivo evidence of AEC progenitor cell differentiation after parenchymal injury, and identify a strong candidate progenitor cell for maintenance of type II AECs during lung repair.

Authors

Harold A. Chapman, Xiaopeng Li, Jonathan P. Alexander, Alexis Brumwell, Walter Lorizio, Kevin Tan, Arnoud Sonnenberg, Ying Wei, Thiennu H. Vu

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Figure 3

Embryonic lung organoid assay.

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Embryonic lung organoid assay. (A) Aggregates of single-cell preparation...
(A) Aggregates of single-cell preparations of E14.5 lung cells placed under renal capsules developed visible structures (white) after 5 days in vivo. The red structure is the underlying kidney. (B) Low-power view of H&E stains of the organoid revealed fluid-filled lacy structure under the capsule with visible airway-like and saccular elements. (C) Higher-power view revealed rbcs in blood vessel (arrowhead), suggestive of vascular continuity with the host kidney. (D) H&E-stained sections of day 2, day 4, and day 6 organoids showing development of the organoid to the saccular stage by day 6, similar to that of the E18.5 lung (see Supplemental Figure 5). (E) Distribution of SPC and Pecam-1 in a day 5 organoid. See Supplemental Figure 5 for distribution of Pecam-1 and SPC and absence of CC10 staining in E14.5 lungs. (F) CC10 and pro-SPC double staining of day 5 organoid sections. Airway-like regions led to SPC+ saccules with few, if any, SPC+CC10+ cells. Scale bars: 5 mm (A); 200 μm (B); 50 μm (C and E); 100 μm (D and F).