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Embryonic Stem Cells/Induced Pluripotent Stem Cells
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FGF2 Specifies hESC-Derived Definitive Endoderm into Foregut/Midgut Cell Lineages in a Concentration-Dependent Manner†‡§
Article first published online: 3 NOV 2009
DOI: 10.1002/stem.249
Copyright © 2009 AlphaMed Press
Additional Information
How to Cite
Ameri, J., Ståhlberg, A., Pedersen, J., Johansson, J. K., Johannesson, M. M., Artner, I. and Semb, H. (2010), FGF2 Specifies hESC-Derived Definitive Endoderm into Foregut/Midgut Cell Lineages in a Concentration-Dependent Manner. STEM CELLS, 28: 45–56. doi: 10.1002/stem.249
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Author contributions: J.A.: conception and design, collection and assembly of data, data analysis and interpretation, manuscript writing; A.S.: contribution of analysis tools (primers), data analysis and interpretation; J.P. and J.K.J.: collection of data, data interpretation; M.M.J.: contribution of analysis tools (primers), data interpretation; I.A.: data interpretation, manuscript writing; H.S.: conception and design, data interpretation, manuscript writing, financial support, administrative support, final approval of manuscript.
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Disclosure of potential conflicts of interest is found at the end of this article.
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First published online in STEM CELLS EXPRESS November 3, 2009.
Publication History
- Issue published online: 12 JAN 2010
- Article first published online: 3 NOV 2009
- Accepted manuscript online: 3 NOV 2009 12:00AM EST
- Manuscript Accepted: 20 OCT 2009
- Manuscript Received: 27 AUG 2009
Funded by
- Juvenile Diabetes Research Foundation (JDRF)
- Swedish Research Council
- Swedish Diabetes Association Research Foundation
- Stem Cell Center
- Lund University
- Unknown funding agency
- JDRF-Center for Beta Cell Therapy in Europe (supported by JDRF and EU)
- JDRF career development award
- Swedish Research Council
Keywords:
- Human embryonic stem cells;
- Differentiation;
- Definitive endoderm;
- Pancreatic endoderm;
- FGF signaling;
- Fibroblast growth factor 2
Abstract
Fibroblast growth factor (FGF) signaling controls axis formation during endoderm development. Studies in lower vertebrates have demonstrated that FGF2 primarily patterns the ventral foregut endoderm into liver and lung, whereas FGF4 exhibits broad anterior-posterior and left-right patterning activities. Furthermore, an inductive role of FGF2 during dorsal pancreas formation has been shown. However, whether FGF2 plays a similar role during human endoderm development remains unknown. Here, we show that FGF2 specifies hESC-derived definitive endoderm (DE) into different foregut lineages in a dosage-dependent manner. Specifically, increasing concentrations of FGF2 inhibits hepatocyte differentiation, whereas intermediate concentration of FGF2 promotes differentiation toward a pancreatic cell fate. At high FGF2 levels specification of midgut endoderm into small intestinal progenitors is increased at the expense of PDX1+ pancreatic progenitors. High FGF2 concentrations also promote differentiation toward an anterior foregut pulmonary cell fate. Finally, by dissecting the FGF receptor intracellular pathway that regulates pancreas specification, we demonstrate for the first time to the best of our knowledge that induction of PDX1+ pancreatic progenitors relies on FGF2-mediated activation of the MAPK signaling pathway. Altogether, these observations suggest a broader gut endodermal patterning activity of FGF2 that corresponds to what has previously been advocated for FGF4, implying a functional switch from FGF4 to FGF2 during evolution. Thus, our results provide new knowledge of how cell fate specification of human DE is controlled—facts that will be of great value for future regenerative cell therapies. STEM CELLS 2010;28:45–56