Calcineurin/Nfat signaling is required for perinatal lung maturation and function
Vrushank Davé, … , Gerald R. Crabtree, Jeffrey A. Whitsett
Vrushank Davé, … , Gerald R. Crabtree, Jeffrey A. Whitsett
Published October 2, 2006
Citation Information: J Clin Invest. 2006;116(10):2597-2609. https://doi.org/10.1172/JCI27331.
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Research Article Pulmonology

Calcineurin/Nfat signaling is required for perinatal lung maturation and function

Abstract

Pulmonary surfactant proteins and lipids are required for lung function after birth. Lung immaturity and resultant surfactant deficiency cause respiratory distress syndrome, a common disorder contributing to morbidity and mortality in preterm infants. Surfactant synthesis increases prior to birth in association with formation of the alveoli that mediate efficient gas exchange. To identify mechanisms controlling perinatal lung maturation, the Calcineurin b1 (Cnb1) gene was deleted in the respiratory epithelium of the fetal mouse. Deletion of Cnb1 caused respiratory failure after birth and inhibited the structural maturation of the peripheral lung. Synthesis of surfactant and a lamellar body–associated protein, ABC transporter A3 (ABCA3), was decreased prior to birth. Nuclear factor of activated T cells (Nfat) calcineurin-dependent 3 (Nfatc3), a transcription factor modulated by calcineurin, was identified as a direct activator of Sftpa, Sftpb, Sftpc, Abca3, Foxa1, and Foxa2 genes. The calcineurin/Nfat pathway controls the morphologic maturation of lungs prior to birth and regulates expression of genes involved in surfactant homeostasis that are critical for adaptation to air breathing.

Authors

Vrushank Davé, Tawanna Childs, Yan Xu, Machiko Ikegami, Valérie Besnard, Yutaka Maeda, Susan E. Wert, Joel R. Neilson, Gerald R. Crabtree, Jeffrey A. Whitsett

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Figure 3

Defects in pulmonary surfactant synthesis and peripheral lung maturation in Cnb1Δ/Δ mice.

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Defects in pulmonary surfactant synthesis and peripheral lung maturation...
(A) proSP-B and proSP-C immunostaining was readily detected at E18.5 in control littermates, but was decreased in Cnb1Δ/Δ mice. Scale bars: 100 μm. S1 nuclease analyses (B and C) and immunoblotting (D) of lung homogenates from Cnb1Δ/Δ mice demonstratd decreased Sftpa, Sftpb, and Sftpc mRNA and protein. SP-D was decreased in Cnb1Δ/Δ mice (D). (E) Sat PC was decreased by ~40% (mean ± SEM; n = 8–9 mice per genotype). *P < 0.05, unpaired 2-tailed Student’s t test. (F) T1-α and aquaporin-5 (Aqp-5) staining was decreased, while Foxj1 and CCSP staining was unaltered. Scale bars: 100 μm. (G) Electron microscopy of fetal lungs from Cnb1Δ/Δ and control mice at E18.5 demonstrated ultrastructural immaturity of the respiratory type II epithelial cells in the peripheral lung saccules. Alveolar epithelial cells lacked lamellar bodies and contained abundant glycogen (gly). Surfactant was absent from the luminal space. Lamellar bodies (lb), multivesicular bodies (mvb), decreased glycogen, microvilli (mv), and secreted surfactant (arrows) was observed in controls. nu, nucleus. Micrographs are representative of n = 3–4 separate mice per genotype.