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Mesenchyme Induces Embryonic and Induced Pluripotent Stem Cells to a Distal Lung Epithelial Cell Phenotype

Derivation of lung epithelial cells from stem cells remains a challenging task, due in part
to a lack of understanding of the molecular mediators driving commitment of endoderm to an early lung lineage. Reciprocal signalling between the lung mesenchyme and epithelium is crucial for proper differentiation and branching morphogenesis to occur. We hypothesized that the combination of signalling pathways comprising early epithelial-mesenchymal interactions and the 3-D spatial environment are required for induction of embryonic and induced pluripotent stem cells (ESC and iPSC, respectively) into a lung cell phenotype with the hallmarks of the distal niche. Aggregating early lung mesenchyme with endoderm-induced ESC and iPSC resulted in differentiation to an NKX2.1 and pro-SFTPC positive lineage. The differentiating cells organized into tubular structures and became polarized epithelial cells. Ultrastructure
analysis revealed precursors of lamellar bodies, and Sftpb mRNA expression was detected. Quantification of the differentiation using an Nkx2.1-reporter ESC line revealed that 80% were committed to an early lung lineage, a vast improvement over what has previously been
published.
The FGF growth factor family comprises well-known mediators of growth and differentiation
during the development of many organs, including the lung. We found that FGF2 signalling through the FGFR2iiic receptor isoform was mediating the commitment of the stem cells to an early lung epithelial phenotype, as defined by NKX2.1/proSFTPC expression. FGF7 signalling through the FGFR2iiib receptor was found to be important for the maturation and morphogenesis of the NKX2.1/proSFTPC positive lineage, but did not play a role in the initial commitment. The
addition of FGF2 to endoderm-induced ESC or iPSC in the absence of mesenchyme was able to
commit the cells to an NKX2.1-positive lineage, but no proSFTPC was detected. Furthermore,the cells did not become polarized and no longer organized into tubular structures. These findings suggest that while FGF2 is important for initial commitment, additional mesenchyme components including matrix proteins, supporting cell lineages and other growth factors are crucial for an efficient differentiation to an early lung epithelial cell lineage.

Identiferoai:union.ndltd.org:LACETR/oai:collectionscanada.gc.ca:OTU.1807/34003
Date11 December 2012
CreatorsFox, Emily
ContributorsPost, Martin
Source SetsLibrary and Archives Canada ETDs Repository / Centre d'archives des thèses électroniques de Bibliothèque et Archives Canada
Languageen_ca
Detected LanguageEnglish
TypeThesis

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