Project description:Female human induced pluripotent stem cell (hiPSC) lines exhibit considerable variability in X-inactivation status. Some lines maintain one transcriptionally active X chromosome (Xa) and one inactive X (Xi) from donor cells. However, hiPSC lines that have two Xas are infrequently produced. We show here Xinactivation status in female hiPSC lines depends on derivation conditions. hiPSC lines generated using the Kyoto method, which employs leukemia inhibitory factor (LIF)-expressing SNL feeders, frequently had two Xas. Lines derived on other feeders maintained an Xi. In addition, there appears to be a window in which SNL feeders promote Xi-reactivation. Upon differentiation, Xa/Xa hiPSCs silenced one X. The efficient production of Xa/Xa hiPSC lines provides unprecedented opportunities to understand human X-reactivation and inactivation. Gene expression patterns were compared between several human embryonic stem cell (hESC) and hiPSC lines. Gene expression ratios between genes on X and those on autosomes were calculated from each cell lines.
Project description:Female human induced pluripotent stem cell (hiPSC) lines exhibit considerable variability in X-inactivation status. Some lines maintain one transcriptionally active X chromosome (Xa) and one inactive X (Xi) from donor cells. However, hiPSC lines that have two Xas are infrequently produced. We show here Xinactivation status in female hiPSC lines depends on derivation conditions. hiPSC lines generated using the Kyoto method, which employs leukemia inhibitory factor (LIF)-expressing SNL feeders, frequently had two Xas. Lines derived on other feeders maintained an Xi. In addition, there appears to be a window in which SNL feeders promote Xi-reactivation. Upon differentiation, Xa/Xa hiPSCs silenced one X. The efficient production of Xa/Xa hiPSC lines provides unprecedented opportunities to understand human X-reactivation and inactivation. Gene expression patterns were compared between several human embryonic stem cell (hESC) and hiPSC lines. Gene expression ratios between genes on X and those on autosomes were calculated from each cell lines.
Project description:Genetically matched human iPSCs from different origins were generated using bone marrow stromal cells and dermal fibroblasts of the same donor, and the global gene expression profile were analyzed. Comparison of gene expressions among 14 iPS clones, 4 and 4 were derived from bone marrow stromal cells(BM), 2 and 4 were from dermal skin fibroblasts(SF) of donor90 and 91, respectively.
Project description:Chronic infantile neurological cutaneous and articular (CINCA) syndrome is an IL-1-driven autoinflammatory disorder caused mainly by NLRP3 mutations. The pathogenesis of CINCA syndrome patients who carry NLRP3 mutations as somatic mosaicism has not been precisely described because of the difficulty in separating individual cells based on the presence or absence of the mutation. Here, we report the generation of NLRP3-mutant and non-mutant induced pluripotent stem cell (iPSC) lines from two CINCA syndrome patients with somatic mosaicism, and describe their differentiation into macrophages (iPS-MPs). We found that mutant cells are predominantly responsible for the pathogenesis in these mosaic patients because only mutant iPS-MPs showed the disease relevant phenotype of abnormal IL-1M-NM-2 secretion. We also confirmed that the existing anti-inflammatory compounds inhibited the abnormal IL-1M-NM-2 secretion, indicating that mutant iPS-MPs are applicable for drug screening for CINCA syndrome and other NLRP3-related inflammatory conditions. Our results illustrate that patient-derived iPSCs are useful for dissecting somatic mosaicism, and that NLRP3-mutant iPSCs can provide a valuable platform for drug discovery for multiple NLRP3-related disorders. To characterize iPS and differentiated cells, RNA expression profiles were evaluated by microarray analysis.We analyzed iPC cells and macrophage from healthy volunteers and CINCA syndrome patients. Human ES cella and fibroblasts were used as control.
Project description:HiPSCs and human myoblast cells were differentiated into myocytes, and the global gene expression profile were analyzed. Comparison of gene expressions among 8 experiments, 3 were derived from hiPSCs(cell line; 253G1), 1 was derived from hiPSCs(cell line; 253G4), 1 was derived from hiPSCs(cell line; 201B7), 2 were from human myoblast cell line (Hu5/E18) and 1 was undifferentiated hiPSCs.
Project description:We established human pluripotent stem cell (PSC) lines expressing Synovial Sarcoma-specific oncogene, SYT-SSX2, under the control of doxycycline with dose- and time-dependent manner. Gene expression profiles were analyzed to identify early response genes of SYT-SSX2. SYT-SSX2-inducible PSC lines including two hESCs and one hiPSC were analyzed at several time points (0, 6, 12, 18, 24 hours) after doxycycline treatment.
Project description:I developed a new culture system for hES cells; this system does not require supplementation with bFGF to obtain hES cells that are suitable for tissue engineering and regenerative medicine. This culture system employed mesenchymal stem cells derived from hES cells (hESC-MSCs) as autologous human feeder cells in the absence of bFGF. For pluripotency-related gene expression profiling, a cDNA microarray analysis was performed SNUhES3 cultured on the autofeeder hESC-MSCs layer maintained the undifferentiated state for 30 passages in a manner similar to the SNUhES3 cells on xenofeeder STO cell layer. To compare the pluripotency-related genes in SNUhES3 cells cultured on autofeeder or xenofeeder system, I used agilent one-color array. Two independant experiment performed.
Project description:Hepatocytes generated from human induced pluripotent stem cells (hiPSCs) are unprecedented resources for pharmaceuticals and cell therapy. However, little attention has so far been paid to variations among hiPSC lines in terms of their hepatic differentiation. We developed an improved hepatic differentiation protocol and compared multiple hiPSC lines. This comparison indicated that the hepatic differentiation propensity varies among sibling hiPSC clones derived from the same adult human dermal fibroblasts (aHDFs). In addition, hiPSC clones derived from peripheral blood cells (PB-iPSCs) consistently showed good hepatic differentiation efficiency, whereas many hiPSC clones from adult dermal fibroblasts (aHDF-iPSCs) showed poor hepatic differentiation. However, when we compared hiPSCs from blood and dermal fibroblasts from the same individuals, we found that variations in hepatic differentiation were largely attributable to donor differences, rather than to the types of the original cells. In order to understand the molecular mechanisms underlying the observed variations in hepatic differentiation, we performed microarray analyses of sibling aHDF-iPSC clones, and aHDF- and PB-iPSC clones from the same individuals. Undifferentiated aHDF- and PB-iPSCs from the same individuals (two Parkinson’s disease patients (PD #1 and PD #2) and one adult healthy donor (donor91))
Project description:The variation among induced pluripotent stem cells (iPSCs) in their differentiation capacity to specific lineages is frequently attributed to somatic memory. In this study, we compared hematopoietic differentiation capacity of 35 human iPSC lines derived from four different tissues and four embryonic stem cell lines. The analysis revealed that hematopoietic commitment capacity (PSCs to hematopoietic precursors) is correlated with the expression level of the IGF2 gene independent of the iPSC origins. In contrast, maturation capacity (hematopoietic precursors to mature blood) is affected by iPSC origin; blood-derived iPSCs showed the highest capacity. However, some fibroblast-derived iPSCs showed higher capacity than blood-derived clones. Tracking of DNA methylation changes during reprogramming reveals that maturation capacity is highly associated with aberrant DNA methylation acquired during reprogramming, rather than the types of iPSC origins. These data demonstrated that variations in the hematopoietic differentiation capacity of iPSCs are not attributable to somatic memories of their origins. Bisulfite-converted genomic DNA lysates from human induced pluripotent stem cells derived from dermal fibroblasts, peripheral T cells, cord blood, and dental pulp cells were hybridized to the Illumina HumanMethylation450 BeadChip.
Project description:The variation among induced pluripotent stem cells (iPSCs) in their differentiation capacity to specific lineages is frequently attributed to somatic memory. In this study, we compared hematopoietic differentiation capacity of 35 human iPSC lines derived from four different tissues and four embryonic stem cell lines. The analysis revealed that hematopoietic commitment capacity (PSCs to hematopoietic precursors) is correlated with the expression level of the IGF2 gene independent of the iPSC origins. In contrast, maturation capacity (hematopoietic precursors to mature blood) is affected by iPSC origin; blood-derived iPSCs showed the highest capacity. However, some fibroblast-derived iPSCs showed higher capacity than blood-derived clones. Tracking of DNA methylation changes during reprogramming reveals that maturation capacity is highly associated with aberrant DNA methylation acquired during reprogramming, rather than the types of iPSC origins. These data demonstrated that variations in the hematopoietic differentiation capacity of iPSCs are not attributable to somatic memories of their origins. Bisulfite converted genomic DNA lysates from induced pluripotent stem cellã??and embryonic stem cell lines were hybridized to Illumina HumanMethylation450 BeadChip.