Project description:This dataset consists of single-cell RNA-seq (Smart-seq2) data from 95 forward programmed cells derived from human induced pluripotent stem cells (hiPSCs). Cells conditionally expressing either ATOH1, ETV2 or NKX3-1 under the control of a tetracycline-response element (Tet-ON system) were co-cultured on Matrigel in 2 dimensions. Data was used to explore the forward-programming potential of these transcription factors (TFs) when cell lines with the capacity to differentiate in isolation are cultured together.
Project description:The purpose of this experiment was to compare the transcriptome of FoP-Heps, with undifferentiated hiPSCs, HLCs generated by direct differentiation, and primary samples (adult and fetal). FoP-Heps where generated in vitro from hESCs by forward programming (FoP) using a combination of 4 transcription factors (HNF1A, FOXA3, HNF6, RORc). Human fetal liver samples where obtained from first trimester embryos.
Project description:We have published a novel method for the large-scale in vitro generation of megakaryocytes (MKs), the blood platelet precursors, by applying a transcription factor (TF) driven forward programming strategy to human pluripotent stem cells (hPSCs). We have demonstrated that the concurrent expression of GATA1, FLI1 and TAL1 in hPSCs and chemically defined culture conditions with minimal supportive cytokines produce highly pure MK cultures with long-term growth and release of functional platelets. Unravelling the molecular mechanisms underlying MK forward programming will bring biological insights that shall lead to improvements of the MK programming technology. Particularly, we have been focusing on the characterisation of the MK progenitor that allows long-term expansion of pure MK cultures, which is a key asset of the method. Using single cell RNA sequencing of long-term cultures, we have started to identify and functionally confirmed surface markers of the MK progenitor.
Project description:Microarray gene expression data is used to compare the transcriptomics of hiPSC, hiPSC derived forward programmed-, hiPSC derived directed differentiated- megakaryoctes AND cord- blood derived megakaryocytes
Project description:We show that a synthetic modified messenger RNA (smRNA)-based reprogramming method that leads to the generation of transgene-free OLs has been developed. An smRNA encoding a modified form of OLIG2, a key TF in OL development, in which the serine 147 phosphorylation site is replaced with alanine, OLIG2S147A, is designed to reprogram hiPSCs into OLs. We demonstrate that repeated administration of the smRNA encoding OLIG2 S147A lead to higher and more stable protein expression. Using the single-mutant OLIG2 smRNA morphogen, we establish a 6-day smRNA transfection protocol, and glial induction lead to rapid NG2+ OL progenitor cell (OPC) generation (> 70% purity) from hiPSC-derived neural progenitor cells (NPCs). The smRNA-induced NG2+ OPCs can mature into functional OLs in vitro and promote remyelination in vivo. Proteomic analysis of OLIG2-binding proteins indicates that OLIG2 is bound by the heat shock protein 70 (HSP70) complex. The HSP70 complex is bound more strongly to OLIG2 with the modified phosphorylation site than to wild-type OLIG2.
Project description:In our study, PRDM14 and NFRkB were found to enhance the reprogramming of human fibroblasts to hiPSCs in the presence of OCT4, SOX2, KLF4, with/without c-MYC (OSK/OSKC). To examnie if the obtained hiPSC share similar expression signature with hESC, we conducted the microarray analysis on the hiPSCs, hESCs and fibroblasts. The result showed that all of the examined hiPSCs resembled hESCs, but differed from fibroblasts MRC5. 4 hiPSC lines, 2 hESC lines and 1 type of fibroblasts were analyzed in total. Each sample is done in duplicates.
Project description:In our study, PRDM14 and NFRkB were found to enhance the reprogramming of human fibroblasts to hiPSCs in the presence of OCT4, SOX2, KLF4, with/without c-MYC (OSK/OSKC). To examnie if the obtained hiPSC share similar expression signature with hESC, we conducted the microarray analysis on the hiPSCs, hESCs and fibroblasts. The result showed that all of the examined hiPSCs resembled hESCs, but differed from fibroblasts MRC5.