Sox17 Is Essential for the Specification of Cardiac Mesoderm in Embryonic Stem Cells

Early steps for cardiac specification are problematic for the study of mammalian embryos, which has favored using pluripotent cells that recapitulate cardiac myogenesis. Furthermore, circuits governing cardiac specification have relevance to the application of ES cells and other cells for heart repa...

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Bibliographic Details
Published in:Proceedings of the National Academy of Sciences - PNAS 2007-03, Vol.104 (10), p.3859-3864
Main Authors: Liu, Yu, Asakura, Masanori, Inoue, Hironori, Nakamura, Teruya, Sano, Motoaki, Niu, Zhiyv, Chen, Michelle, Schwartz, Robert J., Schneider, Michael D.
Format: Article
Language:English
Subjects:
Animals
Biological Sciences
Body Patterning
Cell Differentiation
Cell growth
Cellular differentiation
Embryonic stem cells
Embryonic Stem Cells - cytology
Embryos
Endoderm
Gene Expression Regulation
Genes
Heart
HMGB Proteins - physiology
Lentivirus - metabolism
Mesoderm
Mesoderm - cytology
Mesoderm - metabolism
Mice
Muscle development
Myocardium - cytology
Oligonucleotide Array Sequence Analysis
Pluripotent stem cells
Protein Structure, Tertiary
Ribonucleic acid
RNA
RNA Interference
Rodents
Signal Transduction
SOXF Transcription Factors
Stem cells
T lymphocytes
Transcription factors
Transcription Factors - metabolism
Transcription Factors - physiology
Tumors
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Summary:Early steps for cardiac specification are problematic for the study of mammalian embryos, which has favored using pluripotent cells that recapitulate cardiac myogenesis. Furthermore, circuits governing cardiac specification have relevance to the application of ES cells and other cells for heart repair. In mouse teratocarcinoma cells, canonical Wnts that inhibit heart formation in avian or amphibian embryos and explants activate cardiogenesis, paradoxically. Here, we show that the Wnt/β-catenin pathway also is essential for cardiac myogenesis to occur in ES cells, acting at a gastrulation-like stage, mediating mesoderm formation and patterning (two prerequisites for cardiac myogenesis itself). Among genes associated temporally with this step was Sox17, encoding an endodermal HMG-box transcription factor. Using lentiviral vectors for RNA interference in differentiating ES cells, an essential role for Sox17 was proven in cardiac muscle cell formation. Sox17 short-hairpin RNA suppresses cardiac myogenesis selectively, acting subsequent to mesoderm formation yet before induction of Mesp1 and Mesp2, a pair of related basic helix-loop-helix transcription factors that together are indispensable for creating heart mesoderm. Sox17 short-hairpin RNA blocks cardiac myogenesis non-cell autonomously and impairs the induction of Hex, a homeodomain transcription factor that is known to be required for the production of endoderm-derived heart-inducing factors.
ISSN:0027-8424
1091-6490
DOI:10.1073/pnas.0609100104