Xiaofei Shangguan scite author profile

The induction, growth, and differentiation of epithelial lung buds are regulated by the interaction of signals between the lung epithelium and its surrounding mesenchyme. Fibroblast growth factor-10 (FGF-10), which is expressed in the mesenchyme near the distal tips, and bone morphogenetic protein 4 (BMP4), which is expressed in the most distal regions of the epithelium, are important molecules in lung morphogenesis. In the present study, we used two in vitro systems to examine the induction, growth, and differentiation of lung epithelium. Transfilter cultures were used to determine the effect of diffusible factors from the distal lung mesenchyme (LgM) on epithelial branching, and FGF-10 bead cultures were used to ascertain the effect of a high local concentration of a single diffusible molecule on the epithelium. Embryonic tracheal epithelium (TrE) was induced to grow in both culture systems and to express the distal epithelial marker surfactant protein C at the tips nearest the diffusible protein source. TrE cultured on the opposite side of a filter to LgM branched in a pattern resembling intact lungs, whereas TrE cultured in apposition to an FGF-10 bead resembled a single elongating epithelial bud. Examination of the role of BMP4 on lung bud morphogenesis revealed that BMP4 signaling suppressed expression of the proximal epithelial genes Ccsp and Foxj1 in both types of culture and upregulated the expression of Sprouty 2 in TrE cultured with an FGF-10 bead. Antagonizing BMP signaling with Noggin, however, increased expression of both Ccsp and Foxj1.

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BMP4 modulates fibroblast growth factor–mediated induction of proximal and distal lung differentiation in mouse embryonic tracheal epithelium in mesenchyme‐free culture

Hyatt

Shangguan

Shannon

2002

Developmental Dynamics

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Chondroitin sulfate proteoglycans are required for lung growth and morphogenesis in vitro

Shannon

McCormick‐Shannon

Burhans

et al. 2003

American Journal of Physiology-Lung Cellular and Molecular Phys

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. Chondroitin sulfate proteoglycans are required for lung growth and morphogenesis in vitro. Am J Physiol Lung Cell Mol Physiol 285: L1323-L1336, 2003. First published August 15, 2003 10.1152/ajplung.00226. 2003 have been shown to play a key role in the development of many tissues. We have investigated the role of sulfated PGs in early rat lung development by treating cultured tissues with 30 mM sodium chlorate, a global inhibitor of PG sulfation. Chlorate treatment disrupted growth and branching of embryonic day 13 lung explants. Isolated lung epithelium (LgE) migrated toward and invaded lung mesenchyme (LgM), and chlorate irreversibly suppressed this response. Chlorate also inhibited migration of LgE toward beads soaked in FGF10. Chlorate severely decreased branching morphogenesis in tissue recombinants consisting of LgM plus either LgE or tracheal epithelium (TrE) and decreased expression of surfactant protein C gene (SP-C). Chlorate also reduced bone morphogenetic protein-4 expression in cultured tips and recombinants but had no effect on the expression of clara cell 10-kDa protein (CC10), sonic hedgehog (Shh), FGF10, and FGF receptor 2IIIb. Chlorate reduced the growth of LgE in mesenchyme-free culture but did not affect SP-C expression. In contrast, chlorate inhibited both rudiment growth and the induction of SP-C in mesenchyme-free cultured TrE. Treatment of lung tips and tissue recombinants with chondroitinase ABC abolished branching morphogenesis. Chondroitinase also suppressed growth of TrE in mesenchyme-free culture. Chondroitinase treatment, however, had no effect on the induction of SP-C expression in any of these cultures. These results demonstrate the overall importance of sulfated PGs to normal lung development and demonstrate a dynamic role for chondroitin sulfate PGs in embryonic lung growth and morphogenesis. lung; branching morphogenesis LUNG ORGANOGENESIS REQUIRES the coordinated temporal and spatial expression of multiple genes, both prenatally and after birth. Deviations from the normal developmental program resulting from improper or insufficient gene expression can have serious consequences, such as pulmonary hypoplasia, pulmonary agenesis, congenital alveolar proteinosis, and neonatal respiratory distress syndrome. Studies in both mammals (3, 67, 75) and birds (13, 52) have repeatedly shown that normal lung morphogenesis and differentiation are dependent on reciprocal interactions between the endodermal epithelium and mesenchyme derived from the splanchnic mesoderm. These interactions are responsible not only for patterning of the lung but also for the specification of the many specialized cell types that populate both the epithelial and mesenchymal tissue compartments. Elucidation of the molecular basis of these interactions has been the subject of intense recent interest. Although much remains to be learned, the results thus far demonstrate that these interactions are highly complex, involving the interplay of numerous hormones, growth factors, and downstream effectors such as trans...

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