Bronchopulmonary dysplasia (BPD) is characterized by impaired lung alveolar and vascular growth. We investigated the hypothesis that neonatal exposure to hyperoxia leads to persistent BPD phenotype caused by decreased expression of liver kinase B1 (LKB1), a key regulator of mitochondrial function. We exposed mouse pups from Postnatal Day (P)1 through P10 to 21% or 75% oxygen. Half of the pups in each group received metformin or saline intraperitoneally from P1 to P10. Pups were killed at P4 or P10 or recovered in 21% O until euthanasia at P21. Lung histology and morphometry, immunofluorescence, and immunoblots were performed to detect changes in lung structure and expression of LKB1; downstream targets AMPK, PGC-1α, and electron transport chain (ETC) complexes; and Notch ligands Jagged 1 and delta-like 4. LKB1 signaling and angiogenesis were assessed in human pulmonary artery endothelial cells (exposed to 21% or 95% O for 36 hours. Levels of LKB1, phosphorylated AMPK, PGC-1α, and ETC complexes were decreased in lungs at P10 and P21 in hyperoxia. Metformin increased LKB1, phosphorylated AMPK, PGC-1α, and ETC complexes at P10 and P21 in pups exposed to hyperoxia. Radial alveolar count was decreased, and mean linear intercept increased in pups exposed to hyperoxia at P10 and P21; these were improved by metformin. Lung capillary density was decreased in hyperoxia at P10 and P21 and was increased by metformin. angiogenesis was decreased in human pulmonary artery endothelial cells by 95% O and was improved by metformin. Decreased LKB1 signaling may contribute to decreased alveolar and vascular growth in a mouse model of BPD.
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