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1 Department of Molecular Genetics, College of Medicine, University of Illinois at Chicago, Chicago, Illinois 60607-7170; and 2 Division of Pulmonary Biology, Children's Hospital Medical Center, Cincinnati, Ohio 45229-3039
Previously, we showed
that newborn forkhead box (Fox)f1(+/
) mice with diminished
pulmonary FoxF1 levels died of severe lung hemorrhage and exhibited
abnormal formation of alveolar sacs and capillaries. Another group
recently reported that Foxf1(+/) mouse embryos displayed a
number of organ and skeletal defects including fusion of lung lobes.
However, identification of pulmonary genes whose altered expression was
associated with the lobular fusion defect in Foxf1(+/)
lungs remains uncharacterized. The present study was conducted to
determine the nature of the malformations leading to lung fusions in
the FoxF1 embryos and to identify potential signaling pathways
influenced by FoxF1 haploinsufficiency. We show that
Foxf1(+/) embryos exhibit defects in formation and branching of primary lung buds, which causes fusion of the right lung
lobes and vessels. The severity of the Foxf1(+/) lung
fusions was correlated with decreased levels of FoxF1 mRNA. In situ
hybridization studies demonstrated that the defective primary lung-bud
development in early Foxf1(+/) embryos was associated with
fewer pulmonary mesenchymal-epithelial interfaces. Defects in branching
morphogenesis in the Foxf1(+/) embryos were associated
with altered expression of the fibroblast growth factor-10, bone
morphogenetic protein-4, and the Gli3 transcription factor, which are
known to influence primary lung-bud development.
fibroblast growth factor-10; Gli3; bone morphogenetic protein-4; Patched; winged-helix transcription factor; defective lung-bud formation
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