Prenatal treatment with retinoic acid accelerates type 1 alveolar cell proliferation of the hypoplastic lung in the nitrofen model of congenital diaphragmatic hernia

Congenital diaphragmatic hernia (CDH) occurs in ~1:2,000 pregnancies and is associated with substantial morbidity and mortality. Fetal tracheal occlusion (TO) is an emerging therapy that improves lung growth and reduces mortality, although substantial respiratory compromise persists in survivors. In this study, we used tracheal fluid in a fetal sheep model of CDH with TO for proteomic analysis with subsequent validation of findings in sheep lung tissue. We found that the proteomic profiles of CDH tracheal fluid was most similar to control lung and CDH/TO lung most similar to TO lung. Among 118 proteins altered in CDH, only 11 were reciprocally regulated in CDH/TO. The most significantly altered pathways and processes were cell proliferation, phosphatidylinositol 3-kinase/AKT/mammalian target of rapamycin signaling, inflammation, and microtubule dynamics. CDH suppressed and TO promoted cell proliferation and AKT-related signaling cascades. By Western blot analysis and immunohistochemistry, epithelial PCNA and phosphorylated AKT were decreased in CDH and increased in TO and CDH/TO lungs. The Wnt target Axin2 was decreased threefold in CDH lung compared with control without a significant increase in CDH/TO lung. Cilia-related pathways were among the most dysregulated with CDH lung having a nearly twofold increase in acetylated α-tubulin and a relative increase in the number of ciliated cells. While TO improves lung growth and patient survival in CDH, the procedure substantially alters many processes important in lung development and cell differentiation. Further elucidation of these changes will be critical to improving lung health in infants with CDH treated with TO.

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Pbx1, Meis1, and Runx1 Expression Is Decreased in the Diaphragmatic and Pulmonary Mesenchyme of Rats with Nitrofen-Induced Congenital Diaphragmatic Hernia

European Journal of Pediatric Surgery ◽

10.1055/s-0040-1714736 ◽

2020 ◽

Author(s):

Toshiaki Takahashi ◽

Florian Friedmacher ◽

Julia Zimmer ◽

Prem Puri

Keyword(s):

Cell Proliferation ◽

Congenital Diaphragmatic Hernia ◽

Diaphragmatic Hernia ◽

Laser Scanning ◽

Integration Site ◽

Mesenchymal Cell ◽

Branching Morphogenesis ◽

Laser Scanning Microscopy ◽

Confocal Laser ◽

Runx1 Expression

Abstract Introduction Congenital diaphragmatic hernia (CDH) and associated pulmonary hypoplasia (PH) are thought to originate from mesenchymal defects in pleuroperitoneal folds (PPFs) and primordial lungs. Pre-B-cell leukemia homeobox 1 (Pbx1), its binding partner myeloid ecotropic integration site 1 (Meis1), and runt-related transcription factor 1 (Runx1) are expressed in diaphragmatic and lung mesenchyme, functioning as transcription cofactors that modulate mesenchymal cell proliferation. Furthermore, Pbx1 −/− mice develop diaphragmatic defects and PH similar to human CDH. We hypothesized that diaphragmatic and pulmonary Pbx1, Meis1, and Runx1 expression is decreased in the nitrofen-induced CDH model. Materials and Methods Time-mated rats were exposed to nitrofen or vehicle on gestational day 9 (D9). Fetal diaphragms (n = 72) and lungs (n = 48) were microdissected on D13, D15, and D18, and were divided into control and nitrofen-exposed specimens. Diaphragmatic and pulmonary gene expression levels of Pbx1, Meis1, and Runx1 were analyzed by quantitative real-time polymerase chain reaction. Immunofluorescence-double-staining for Pbx1, Meis1, and Runx1 was combined with mesenchymal/myogenic markers Gata4 and myogenin to evaluate protein expression. Results Relative mRNA expression of Pbx1, Meis1, and Runx1 was significantly decreased in PPFs (D13), developing diaphragms/lungs (D15), and muscularized diaphragms/differentiated lungs (D18) of nitrofen-exposed fetuses compared with controls. Confocal-laser-scanning-microscopy revealed markedly diminished Pbx1, Meis1, and Runx1 immunofluorescence in diaphragmatic and pulmonary mesenchyme, associated with less proliferating mesenchymal cells in nitrofen-exposed fetuses on D13, D15, and D18 compared with controls. Conclusion Decreased Pbx1, Meis1, and Runx1 expression during diaphragmatic development and lung branching morphogenesis may reduce mesenchymal cell proliferation, causing malformed PPFs and disrupted airway branching, thus leading to diaphragmatic defects and PH in the nitrofen-induced CDH model.

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