Project description:The aim of the study was to define the specific gene expression signature of pancreatic endoderm cells (PECs), by designing a strategy for generating putative PECs (PDX1+/NKX6-1+, and posterior foregut endoderm (PFG) cells (PDX1+/NKX6-1-). Cell line: PDX1-eGFP reporter cell line (PDXeG clone 170-3) generated using the HUES-4 embryonic stem cell line. Human embryonic stem cells (hESCs) were maintained on irradiated mouse embryonic fibroblasts (MEFs). Generation of a hESC-derived PDX1-eGFP reporter cell line: A PDX1-targeting vector was constructed by inserting an eGFP-pSV40-NeoR reporter cassette into the 5′ untranslated region of the PDX1 gene upstream of the PDX1 start codon (ATG), resulting in an GFP-tagged PDX1 allele. The GFP cassette was flanked by a 12.5kb homologous arm on the 5’ direction and by a 3,5kb homologous arm on the 3 direction. The final targeting construct was verified by PCR, restriction analysis and sequencing. After approximately 2 weeks emerging clones were picked, expanded and analyzed by PCR. The Neomycin cassette was deleted by using a CRE expression vector (NLS-CRE-IRES-Puro) that was transiently co-transfected with a DsRED or GFP plasmid into selected targeted cloned. 24 hours post electroporation, GFP/DsRED positive single cells were FACS sorted and plated into 96-well plates. Clones were expanded and characterized for Neo excision by PCR. Differentiation protocol: hESCs cultured on MEFs were grown until 90% confluency and differentiated into definitive endoderm (DE) by using a modified version of the D’Amour protocol (D'Amour et al., 2005). The first day of differentiation, hESCs were cultured in the presence of 100ng/ml human Activin A (Peprotech) and 25ng/ml Wnt3a (R&D systems) in RPMI medium (Life Technologies). The four following days 100ng/ml human Activin A was added together with 1x B27-insulin in RPMI medium (Life Technologies). To generate posterior foregut cells, DE cells were treated with 64 ng/ml bFGF for additional 12 days. To generate pancreatic endoderm cells, DE cells were first treated with 2uM retinoic acid (RA, Sigma Aldrich) in DMEM/F12 medium containing 1x B27 +insulin (Life Technologies) for three days and then finally treated with 64 ng/ml FGF2 in combination with 100 ng/ml Noggin for the remaining 9 days.

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Project description:Endodermal progenitor cells (EP cells) are derived from human embryonic stem cell(ESC)-derived definitive endoderm (DE) cells. EP cells are cultured in high BMP media and DE cells are in high Activin media. Both cells can be further differentiated to liver, pancreas, etc. We used microarray to detail the global gene expression profile of DE cells and EP cells to delineate the difference of DE cells and EP cells.

Project description:Endodermal progenitor cells (EP cells) are derived from human embryonic stem cell(ESC)-derived definitive endoderm (DE) cells. EP cells are cultured in high BMP media and DE cells are in high Activin media. Both cells can be further differentiated to liver, pancreas, etc. We used microarray to detail the global gene expression profile of DE cells and EP cells to delineate the difference of DE cells and EP cells. ESCs were sorted by SSEA3 and SSEA4. DE cells and EP cells were sorted by CXCR4 and CD117. Sorted cells were lysed in RLT buffer. RNA was extracted and hybridized to Affimetrix microarrays. Each group had 3 biological replicates.

Project description:This dataset is part of ERC funded HumEn project (http://www.hum-en.eu/). This dataset relates to standardization of genome wide DNase 1 hypersensitivity methods in the differentiation system developed in HumEn project.

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