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The advent of the human-induced pluripotent stem cell (hiPSC) technology has transformed biomedical research,providing new tools for human disease modeling,drug development,and regenerative medicine. To fulfill its unique potential in the cardiovascular field,efficient methods should be developed for high-resolution,large-scale,long-term,and serial functional cellular phenotyping of hiPSC-derived cardiomyocytes (hiPSC-CMs). To achieve this goal,we combined the hiPSC technology with genetically encoded voltage (ArcLight) and calcium (GCaMP5G) fluorescent indicators. Expression of ArcLight and GCaMP5G in hiPSC-CMs permitted to reliably follow changes in transmembrane potential and intracellular calcium levels,respectively. This allowed monitoring short- and long-term changes in action-potential and calcium-handling properties and the development of arrhythmias in response to several pharmaceutical agents and in hiPSC-CMs derived from patients with different inherited arrhythmogenic syndromes. Combining genetically encoded fluorescent reporters with hiPSC-CMs may bring a unique value to the study of inherited disorders,developmental biology,and drug development and testing. View Publication

Adult hepatocytes are polarised with their apical and basolateral membranes separated from neighbouring cells by tight junction proteins. Although efficient differentiation of pluripotent stem cells to hepatocytes has been achieved,the formation of proper polarisation in these cells has not been thoroughly investigated. In the present study,human embryonic stem cells (hESCs) and human mesenchymal stem cells (hMSCs) were differentiated to hepatocyte-like cells and the derived hepatocytes were characterised for mature hepatocyte markers. The secretion of hepatic proteins,expression of hepatic genes and the functional hepatic polarisation of stem cell-derived hepatocytes,foetal hepatocytes and the HepG2 hepatic cell line were evaluated and the different lines were compared. The results indicate that hESC-derived hepatocytes are phenotypically more robust and functionally more efficient compared with the hMSC-derived hepatocytes,suggesting their suitability for toxicity studies. View Publication

Mesenchymal stem/stromal cells (MSCs) have great clinical potential in modulating inflammation and promoting tissue repair. Human embryonic stem cells (hESCs) have recently emerged as a potentially superior cell source for MSCs. However,the generation methods reported so far vary greatly in quality and efficiency. Here,we describe a novel method to rapidly and efficiently produce MSCs from hESCs via a trophoblast-like intermediate stage in approximately 11-16 days. We term these cells T-MSCs" and show that T-MSCs express a phenotype and differentiation potential minimally required to define MSCs. T-MSCs exhibit potent immunomodulatory activity in vitro as they can remarkably inhibit proliferation of cocultured T and B lymphocytes. Unlike bone marrow MSCs� View Publication

The translation of laboratory processes into scaled production systems suitable for manufacture is a significant challenge for cell based therapies; in particular there is a lack of analytical methods that are informative and efficient for process control. Here the potential of image analysis as one part of the solution to this issue is explored,using pluripotent stem cell colonies as a valuable and challenging exemplar. The Cell-IQ live cell imaging platform was used to build image libraries of morphological culture attributes such as colony edge� View Publication

The prevalence and specificity of unique fusion oncogenes are high in a number of soft tissue sarcomas (STSs). The close relationship between fusion genes and clinicopathological features suggests that a correlation may exist between the function of fusion proteins and cellular context of the cell-of-origin of each tumor. However,most STSs are origin-unknown tumors and this issue has not yet been investigated in detail. In the present study,we examined the effects of the cellular context on the function of the synovial sarcoma (SS)-specific fusion protein,SS18-SSX,using human pluripotent stem cells (hPSCs) containing the drug-inducible SS18-SSX gene. We selected the neural crest cell (NCC) lineage for the first trial of this system,induced SS18-SSX at various differentiation stages from PSCs to NCC-derived mesenchymal stromal cells (MSCs),and compared its biological effects on each cell type. We found that the expression of FZD10,identified as an SS-specific gene,was induced by SS18-SSX at the PSC and NCC stages,but not at the MSC stage. This stage-specific induction of FZD10 correlated with stage-specific changes in histone marks associated with the FZD10 locus and also with the loss of the BAF47 protein,a member of the SWI/SNF chromatin-remodeling complex. Furthermore,the global gene expression profile of hPSC-derived NCCs was the closest to that of SS cell lines after the induction of SS18-SSX. These results clearly demonstrated that the cellular context is an important factor in the function of SS18-SSX as an epigenetic modifier. View Publication

Induced pluripotent stem cells hold great potential in regenerative medicine as it enables to generate pluripotent stem cells from any available cell types. Ectopic expression of four transcription factors (Oct4,Sox2,Klf4,and c-Myc) can reprogram fibroblasts directly to pluripotency as shown in multiple species. Here,we describe detailed protocols for generation of iPSCs from adult canine fibroblasts. Robust canine iPSCs will provide powerful tools not only to study human diseases,but also for the development of therapeutic approaches. View Publication

textlessptextgreaterStem cell phenotypes are reflected by post-translational histone modifications,and this chromatin-related memory must be mitotically inherited to maintain cell identity through proliferative expansion. In human embryonic stem cells (hESCs),bivalent genes with both activating (H3K4me3) and repressive (H3K27me3) histone modifications are essential to sustain pluripotency. Yet the molecular mechanisms by which this epigenetic landscape is transferred to progeny cells remains to be established. By mapping genomic enrichment of H3K4me3/H3K27me3 in pure populations of hESCs in G2,mitotic,and G1 phases of the cell cycle,we found striking variations in the levels of H3K4me3 through the G2-M-G1 transition. Analysis of a representative set of bivalent genes revealed that chromatin modifiers involved in H3K4 methylation/demethylation are recruited to bivalent gene promoters in a cell cycle–dependent fashion. Interestingly,bivalent genes enriched with H3K4me3 exclusively during mitosis undergo the strongest upregulation after induction of differentiation. Furthermore,the histone-modification signature of genes that remain bivalent in differentiated cells resolves into a cell cycle–independent pattern after lineage commitment. These results establish a new dimension of chromatin regulation important in maintenance of pluripotency.textless/ptextgreater View Publication

Expression of genes associated with inflammation was analyzed during differentiation of human pluripotent stem cells (PSCs) to hepatic cells. Messenger RNA transcript profiles of differentiated endoderm (day 5),hepatoblast (day 15) and hepatocyte-like cells (day 21) were obtained by RNA sequencing analysis. When compared to endoderm cells an immature cell type,the hepatic cells (days 15 and 21) had significantly higher expression of acute phase protein genes including complement factors,coagulation factors,serum amyloid A and serpins. Furthermore,hepatic phase of cells expressed proinflammatory cytokines IL18 and IL32 as well as cytokine receptors IL18R1,IL1R1,IL1RAP,IL2RG,IL6R,IL6ST and IL10RB. These cells also produced CCL14,CCL15,and CXCL- 1,2,3,16 and 17 chemokines. Endoderm cells had higher levels of chemokine receptors,CXCR4 and CXCR7,than that of hepatic cells. Sirtuin family of genes involved in aging,inflammation and metabolism were differentially regulated in endoderm and hepatic phase cells. Ligands and receptors of the tumor necrosis factor (TNF) family as well as downstream signaling factors TRAF2,TRAF4,FADD,NFKB1 and NFKBIB were differentially expressed during hepatic differentiation. View Publication

Human adipose-derived stem cells (hASCs) become an appealing source for regenerative medicine. However,with the multi-passage or cryopreservation for large-scale growth procedures in terms of preclinical and clinical purposes,hASCs often reveal defective cell viability,which is a major obstacle for cell therapy. In our study,the effects of induced pluripotent stem cells-derived conditioned medium (iPS-CM) on the proliferation and anti-apoptosis in hASCs were investigated. hASCs at passage 1 were identified by the analysis of typical surface antigens with flow cytometry assay and adipogenic and osteogenic differentiation. The effect of iPS-CM on the proliferation in hASCs was analyzed by cell cycle assay and Ki67/P27 quantitative polymerase chain reaction analysis. The effect of iPS-CM on the anti-apoptosis of hASCs irradiated by 468 J/m(2) of ultraviolet C was investigated by annexin v/propidium iodide analysis,mitochondrial membrane potential assay,intracellular reactive oxygen species assay,Western blotting and caspase activity assays. The effect of iPS-CM on the surface antigen expressions of hASCs was analyzed using flow cytometry assay. The levels of Activin A and bFGF in culture supernatant of hASCs with different treatments were also detected by enzyme-linked immunosorbent assay. iPS-CM promoted proliferation and inhibited apoptosis of hASCs. This discovery demonstrates that iPS-CM might be used as one of the available means to overcome the propagation obstacle for hASCs and make for large-scale growth procedures in terms of preclinical and clinical purposes. View Publication

Chromatin structure affects the extent of DNA damage and repair. Thus,it has been shown that heterochromatin is more protective against DNA double strand breaks (DSB) formation by ionizing radiation (IR); and that DNA DSB repair may proceed differently in hetero- and euchromatin regions. Human embryonic stem cells (hESC) have a more open chromatin structure than differentiated cells. Here,we study the effect of chromatin structure in hESC on initial DSB formation and subsequent DSB repair. DSB were scored by comet assay; and DSB repair was assessed by repair foci formation via 53BP1 antibody staining. We found that in hESC,heterochromatin is confined to distinct regions,while in differentiated cells it is distributed more evenly within the nuclei. The same dose of ionizing radiation produced considerably more DSB in hESC than in differentiated derivatives,normal human fibroblasts; and one cancer cell line. At the same time,the number of DNA repair foci were not statistically different among these cells. We showed that in hESC,DNA repair foci localized almost exclusively outside the heterochromatin regions. We also noticed that exposure to ionizing radiation resulted in an increase in heterochromatin marker H3K9me3 in cancer HT1080 cells,and to a lesser extent in IMR90 normal fibroblasts,but not in hESCs. These results demonstrate the importance of chromatin conformation for DNA protection and DNA damage repair; and indicate the difference of these processes in hESC. View Publication

BACKGROUND The incidence of neurological complications and fatalities associated with Hand,Foot & Mouth disease has increased over recent years,due to emergence of newly-evolved strains of Enterovirus 71 (EV71). In the search for new antiviral therapeutics against EV71,accurate and sensitive in vitro cellular models for preliminary studies of EV71 pathogenesis is an essential prerequisite,before progressing to expensive and time-consuming live animal studies and clinical trials. METHODS This study thus investigated whether neural lineages derived from pluripotent human embryonic stem cells (hESC) can fulfil this purpose. EV71 infection of hESC-derived neural stem cells (NSC) and mature neurons (MN) was carried out in vitro,in comparison with RD and SH-SY5Y cell lines. RESULTS Upon assessment of post-infection survivability and EV71 production by the various types,it was observed that NSC were significantly more susceptible to EV71 infection compared to MN,RD (rhabdomyosarcoma) and SH-SY5Y cells,which was consistent with previous studies on mice. The SP81 peptide had significantly greater inhibitory effect on EV71 production by NSC and MN compared to the cancer-derived RD and SH-SY5Y cell lines. CONCLUSIONS Hence,this study demonstrates that hESC-derived neural lineages can be utilized as in vitro models for studying EV71 pathogenesis and for screening of antiviral therapeutics. View Publication

Since the discovery of induced pluripotent stem cells (iPSCs),numerous approaches have been explored to improve the original protocol,which is based on a two-dimensional (2D) cell-culture system. Surprisingly,nothing is known about the effect of a more biologically faithful 3D environment on somatic-cell reprogramming. Here,we report a systematic analysis of how reprogramming of somatic cells occurs within engineered 3D extracellular matrices. By modulating microenvironmental stiffness,degradability and biochemical composition,we have identified a previously unknown role for biophysical effectors in the promotion of iPSC generation. We find that the physical cell confinement imposed by the 3D microenvironment boosts reprogramming through an accelerated mesenchymal-to-epithelial transition and increased epigenetic remodelling. We conclude that 3D microenvironmental signals act synergistically with reprogramming transcription factors to increase somatic plasticity. View Publication