β1 Integrin regulates adult lung alveolar epithelial cell inflammation
Erin J. Plosa, John T. Benjamin, Jennifer M. Sucre, Peter M. Gulleman, Linda A. Gleaves, Wei Han, Seunghyi Kook, Vasiliy V. Polosukhin, Scott M. Haake, Susan H. Guttentag, Lisa R. Young, Ambra Pozzi, Timothy S. Blackwell, Roy Zent
Erin J. Plosa, John T. Benjamin, Jennifer M. Sucre, Peter M. Gulleman, Linda A. Gleaves, Wei Han, Seunghyi Kook, Vasiliy V. Polosukhin, Scott M. Haake, Susan H. Guttentag, Lisa R. Young, Ambra Pozzi, Timothy S. Blackwell, Roy Zent
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Research Article Inflammation Pulmonology

β1 Integrin regulates adult lung alveolar epithelial cell inflammation

Abstract

Integrins, the extracellular matrix receptors that facilitate cell adhesion and migration, are necessary for organ morphogenesis; however, their role in maintaining adult tissue homeostasis is poorly understood. To define the functional importance of β1 integrin in adult mouse lung, we deleted it after completion of development in type 2 alveolar epithelial cells (AECs). Aged β1 integrin–deficient mice exhibited chronic obstructive pulmonary disease–like (COPD-like) pathology characterized by emphysema, lymphoid aggregates, and increased macrophage infiltration. These histopathological abnormalities were preceded by β1 integrin–deficient AEC dysfunction such as excessive ROS production and upregulation of NF-κB–dependent chemokines, including CCL2. Genetic deletion of the CCL2 receptor, Ccr2, in mice with β1 integrin–deficient type 2 AECs impaired recruitment of monocyte-derived macrophages and resulted in accelerated inflammation and severe premature emphysematous destruction. The lungs exhibited reduced AEC efferocytosis and excessive numbers of inflamed type 2 AECs, demonstrating the requirement for recruited monocytes/macrophages in limiting lung injury and remodeling in the setting of a chronically inflamed epithelium. These studies support a critical role for β1 integrin in alveolar homeostasis in the adult lung.

Authors

Erin J. Plosa, John T. Benjamin, Jennifer M. Sucre, Peter M. Gulleman, Linda A. Gleaves, Wei Han, Seunghyi Kook, Vasiliy V. Polosukhin, Scott M. Haake, Susan H. Guttentag, Lisa R. Young, Ambra Pozzi, Timothy S. Blackwell, Roy Zent

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Figure 6

Recruited monocytes/macrophages maintain structural homeostasis in β1rtTA mice through efferocytosis.

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Recruited monocytes/macrophages maintain structural homeostasis in β1rtT...
(A and B) CCR2–/–;β1rtTA lungs show severe remodeling and increased inflammatory infiltrate (arrows) in low-power (A) and high-power (B) images of H&E-stained sections. (C) Increased mean linear intercept in 3-month-old CCR2–/–;β1rtTA lungs. 6–10 sections/mouse; n = 6 β1f/f, n = 6 CCR2–/–;β1f/f, n = 6 β1rtTA, n = 7 CCR2–/–;β1rtTA mice/group). (D) Increased BALF cell counts in CCR2–/–;β1rtTA mice. n = 17 β1f/f; n = 6 CCR2–/–;β1f/f, n = 21 β1rtTA, n = 6 CCR2–/–;β1rtTA mice/group). (E) Immunostaining for CD68 (green) and pro–SP-C (red) demonstrates increased macrophages and type 2 AECs in CCR2–/–;β1rtTA lungs. (F and G) Quantification for numbers of CD68+ (F) and pro–SP-C+ cells/field (G). 20 sections/mouse; n = 4–6 mice/group. (H and I) Immunostaining demonstrates minimal colocalization of CD68+ and pro–SP-C+ cells in CCR2–/–;β1f/f and CCR2–/–; β1rtTA lungs, whereas abundant colocalization was present in β1rtTA lungs. 20 sections/mouse; n = 4–6 mice/group. (J) Quantification of alveolar macrophage (Alv mac) efferocytosis of fluorescently labeled primary type 2 AECs. n = 8–12 mice/group. Scale bar: 200 μm in A, 50 μm in B and E, 5 μm in H. *P < 0.05 by ordinary 1-way ANOVA with secondary analysis by Tukey’s test for multiple comparisons as indicated.