Autophagy is required for lung development and morphogenesis
Behzad Yeganeh, Joyce Lee, Leonardo Ermini, Irene Lok, Cameron Ackerley, Martin Post
Behzad Yeganeh, Joyce Lee, Leonardo Ermini, Irene Lok, Cameron Ackerley, Martin Post
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Research Article Development Pulmonology

Autophagy is required for lung development and morphogenesis

Abstract

Bronchopulmonary dysplasia (BPD) remains a major respiratory illness in extremely premature infants. The biological mechanisms leading to BPD are not fully understood, although an arrest in lung development has been implicated. The current study aimed to investigate the occurrence of autophagy in the developing mouse lung and its regulatory role in airway branching and terminal sacculi formation. We found 2 windows of epithelial autophagy activation in the developing mouse lung, both resulting from AMPK activation. Inhibition of AMPK-mediated autophagy led to reduced lung branching in vitro. Conditional deletion of beclin 1 (Becn1) in mouse lung epithelial cells (Becn1Epi-KO), either at early (E10.5) or late (E16.5) gestation, resulted in lethal respiratory distress at birth or shortly after. E10.5 Becn1Epi-KO lungs displayed reduced airway branching and sacculi formation accompanied by impaired vascularization, excessive epithelial cell death, reduced mesenchymal thinning of the interstitial walls, and delayed epithelial maturation. E16.5 Becn1Epi-KO lungs had reduced terminal air sac formation and vascularization and delayed distal epithelial differentiation, a pathology similar to that seen in infants with BPD. Taken together, our findings demonstrate that intrinsic autophagy is an important regulator of lung development and morphogenesis and may contribute to the BPD phenotype when impaired.

Authors

Behzad Yeganeh, Joyce Lee, Leonardo Ermini, Irene Lok, Cameron Ackerley, Martin Post

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Figure 3

Autophagy is accompanied by AMPK activation during embryonic mouse lung development.

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Autophagy is accompanied by AMPK activation during embryonic mouse lung ...
(A) Representative immunoblots of p-AMPKβ (Ser108) and AMPKβ proteins in mouse lung lysates during lung development. Graph shows densitometric analysis of p-AMPKβ (Ser108) during lung development relative to E11.5 lung. ACTB was used as a protein loading control. Results are expressed as the mean ± SEM (n = 3 separate experiments). *P < 0.05 versus E11.5. (B) AMP/ATP plus ADP ratios in embryonic (E12.5, E15.5, and E17.5) and postnatal (P0) lungs. Data show the mean ± SEM (n = 3 separate experiments). aP < 0.05 versus E12.5; bP < 0.05 versus E17.5. (C) Representative IHC images for Ki67 expression in embryonic (E12.5, E15.5, and E17.5) and postnatal (P0) lung tissue. Scale bars: 50 μm. Graph shows quantitative analysis of Ki67+ cells per mm2. Results are expressed as the mean ± SEM (n = 3 separate lungs). *P < 0.05 versus E12.5. Statistical significance for all data was determined by 1-way ANOVA followed by Tukey’s post hoc test.