技术资料

To gain insight into the molecular regulation of human heart development,a detailed comparison of the mRNA and miRNA transcriptomes across differentiating human-induced pluripotent stem cell (hiPSC)-derived cardiomyocytes and biopsies from fetal,adult,and hypertensive human hearts was performed. Gene ontology analysis of the mRNA expression levels of the hiPSCs differentiating into cardiomyocytes revealed 3 distinct groups of genes: pluripotent specific,transitional cardiac specification,and mature cardiomyocyte specific. Hierarchical clustering of the mRNA data revealed that the transcriptome of hiPSC cardiomyocytes largely stabilizes 20 days after initiation of differentiation. Nevertheless,analysis of cells continuously cultured for 120 days indicated that the cardiomyocytes continued to mature toward a more adult-like gene expression pattern. Analysis of cardiomyocyte-specific miRNAs (miR-1,miR-133a/b,and miR-208a/b) revealed an miRNA pattern indicative of stem cell to cardiomyocyte specification. A biostatistitical approach integrated the miRNA and mRNA expression profiles revealing a cardiomyocyte differentiation miRNA network and identified putative mRNAs targeted by multiple miRNAs. Together,these data reveal the miRNA network in human heart development and support the notion that overlapping miRNA networks re-enforce transcriptional control during developmental specification. View Publication

Pluripotent stem cells are able to give rise to all cell types of the organism. There are two sources for human pluripotent stem cells: embryonic stem cells (ESCs) derived from surplus blastocysts created for in vitro fertilization and induced pluripotent stem cells (iPSCs) generated by reprogramming of somatic cells. ESCs have been an area of intense research during the past decade,and two clinical trials have been recently approved. iPSCs were created only recently,and most of the research has been focused on the iPSC generation protocols and investigation of mechanisms of direct reprogramming. The iPSC technology makes possible to derive pluripotent stem cells from any patient. However,there are a number of hurdles to be overcome before iPSCs will find a niche in practice. In this review,we discuss differences and similarities of the two pluripotent cell types and assess prospects for application of these cells in biomedicine. View Publication

We present a predictive bioprocess design strategy employing cell- and molecular-level analysis of rate-limiting steps in human pluripotent stem cell (hPSC) expansion and differentiation,and apply it to produce definitive endoderm (DE) progenitors using a scalable directed-differentiation technology. We define a bioprocess optimization parameter (L; targeted cell Loss) and,with quantitative cell division tracking and fate monitoring,identify and overcome key suspension bioprocess bottlenecks. Adapting process operating conditions to pivotal parameters (single cell survival and growth rate) in a cell-line-specific manner enabled adherent-equivalent expansion of hPSCs in feeder- and matrix-free defined-medium suspension culture. Predominantly instructive differentiation mechanisms were found to underlie a subsequent 18-fold expansion,during directed differentiation,to high-purity DE competent for further commitment along pancreatic and hepatic lineages. This study demonstrates that iPSC expansion and differentiation conditions can be prospectively specified to guide the enhanced production of target cells in a scale-free directed differentiation system. View Publication

Human pluripotent stem cells (hPSCs),including human embryonic stem cells (hESCs) and human induced pluripotent stem cells (hiPSCs),share the properties of unlimited self-renewal and the capacity to become any cell type in the body,making them well suited for regenerative medicine and cell therapy. So far,almost all hPSC lines have been directly or indirectly exposed to animal-derived products,which would hinder their use for clinical purposes. One of the biggest challenges in this area is to remove animal components from the derivation,propagation,and cryopreservation of hPSCs. Moreover,the presence of undefined components of animal or human origin in culture system may interfere with the interpretation of the effect of exogenous agents on the growth and differentiation of hPSCs and are prone to significant variability. To explore hPSC expansion in defined,xeno-free conditions,2 different groups of culture systems were used to culture different hESC and hiPSC lines. Our results suggested that (1) medium,matrix,and exogenous factors have synergistic effects on the adhesion and growth of hPSCs; (2) cooperation of exogenous factors including basic fibroblast growth factor,Rho-associated kinase inhibitor (ROCK),and other growth factors is critical for hPSC adhesion and proliferation; (3) basal media have different effects on hPSC attachment to the culture surface; and (4) a medium or matrix component can work synergistically in one culture system,and not at all in another. In this study,we found that Vitronectin/TeSR2 and PDL/HEScGRO (Y-27632) systems were optimal for maintaining the long-term culture of 3 hESC lines and 2 hiPSC lines under defined,xeno-free conditions. View Publication

A method for the generation of human induced pluripotent stem (iPS) cells was established. This method employs adenovirus carrying the ecotropic retrovirus receptor mCAT1 and Moloney murine leukemia virus (MMLV)-based retroviral vectors carrying the four transcription factors POU5F1 (OCT3/4),KLF4,SOX2,and MYC (c-Myc) (Masaki H & Ishikawa T Stem Cell Res 1:105-15,2007). The differentiation of human iPS cells into hepatic cells was performed by a stepwise protocol (Song Z et al. Cell Res 19:1233-42,2009). These cells have potential as patient-specific in vitro models for studying disease etiology and could be used in drug discovery programs tailored to deal with genetic variations in drug efficacy and toxicity. View Publication

Long non-coding RNAs (lncRNAs) are a numerous class of newly discovered genes in the human genome,which have been proposed to be key regulators of biological processes,including stem cell pluripotency and neurogenesis. However,at present very little functional characterization of lncRNAs in human differentiation has been carried out. In the present study,we address this using human embryonic stem cells (hESCs) as a paradigm for pluripotency and neuronal differentiation. With a newly developed method,hESCs were robustly and efficiently differentiated into neurons,and we profiled the expression of thousands of lncRNAs using a custom-designed microarray. Some hESC-specific lncRNAs involved in pluripotency maintenance were identified,and shown to physically interact with SOX2,and PRC2 complex component,SUZ12. Using a similar approach,we identified lncRNAs required for neurogenesis. Knockdown studies indicated that loss of any of these lncRNAs blocked neurogenesis,and immunoprecipitation studies revealed physical association with REST and SUZ12. This study indicates that lncRNAs are important regulators of pluripotency and neurogenesis,and represents important evidence for an indispensable role of lncRNAs in human brain development. View Publication

Stochastic processes and imprinting,along with genetic factors,lead to monoallelic or allele-biased gene expression. Stochastic monoallelic expression fine-tunes information processing in immune cells and the olfactory system,and imprinting plays an important role in development. Recent studies suggest that both stochastic events and imprinting may be more widespread than previously considered. We are interested in allele-biased gene expression occurring in the brain because parent-of-origin effects suggestive of imprinting appear to play a role in the transmission of schizophrenia (SZ) and autism spectrum disorders (ASD) in some families. In addition,allele-biased expression could help explain monozygotic (MZ) twin discordance and reduced penetrance. The ability to study allele-biased expression in human neurons has been transformed with the advent of induced pluripotent stem cell (iPSC) technology and next generation sequencing. Using transcriptome sequencing (RNA-Seq) we identified 801 genes in differentiating neurons that were expressed in an allele-biased manner. These included a number of putative SZ and ASD candidates,such as A2BP1 (RBFOX1),ERBB4,NLGN4X,NRG1,NRG3,NRXN1,and NLGN1. Overall,there was a modest enrichment for SZ and ASD candidate genes among those that showed evidence for allele-biased expression (chi-square,p = 0.02). In addition to helping explain MZ twin discordance and reduced penetrance,the capacity to group many candidate genes affecting a variety of molecular and cellular pathways under a common regulatory process - allele-biased expression - could have therapeutic implications. View Publication

Oxidative stress contributes to tissue injury and cell death during the development of various diseases. The present study aims at investigating whether oxidative stress triggered by the exposure to hydrogen peroxide (H2O2) can induce apoptosis of induced pluripotent stem cells (iPS cells) in a mechanism mediated by insulin-like growth factor (IGF-1) and microRNA-1 (miR-1). iPS cells treated with H2O2 showed increases in miR-1 expression,mitochondria dysfunction,cytochrome-c release and apoptosis,Addition of IGF-1 into the iPS cell cultures reduced the H2O2 cytotoxicity. Prediction algorithms showed that 3'-untranslated regions of IGF-1 gene as a target of miR-1. Moreover,miR-1 mimic,but not miR-1 mimic negative control,diminished the protective effect of IGF-1 on H2O2-induced mitochondrial dysfunction,cytochrome-c release and apoptosis in iPS cells. In conclusion,IGF-1 inhibits H2O2-induced mitochondrial dysfunction,cytochrome-c release and apoptosis. IGF-1's effect is,at least partially,regulated by miR-1 in iPS cells. ?? 2012 Elsevier Inc. View Publication

BACKGROUND: Human induced pluripotent stem cell-derived cardiomyocytes (hiPS-CMs) are a promising source of cells for regenerating myocardium. However,several issues,especially the large-scale preparation of hiPS-CMs and elimination of undifferentiated iPS cells,must be resolved before hiPS cells can be used clinically. The cell-sheet technique is one of the useful methods for transplanting large numbers of cells. We hypothesized that hiPS-CM-sheet transplantation would be feasible,safe,and therapeutically effective for the treatment of ischemic cardiomyopathy.backslashnbackslashnMETHODS AND RESULTS: Human iPS cells were established by infecting human dermal fibroblasts with a retrovirus carrying Oct3/4,Sox2,Klf4,and c-Myc. Cardiomyogenic differentiation was induced by WNT signaling molecules,yielding hiPS-CMs that were almost 90% positive for α-actinin,Nkx2.5,and cardiac troponin T. hiPS-CM sheets were created using thermoresponsive dishes and transplanted over the myocardial infarcts in a porcine model of ischemic cardiomyopathy induced by ameroid constriction of the left anterior descending coronary artery (n=6 for the iPS group receiving sheet transplantation and the sham-operated group; both groups received tacrolimus daily). Transplantation significantly improved cardiac performance and attenuated left ventricular remodeling. hiPS-CMs were detectable 8 weeks after transplantation,but very few survived long term. No teratoma formation was observed in animals that received hiPS-CM sheets.backslashnbackslashnCONCLUSIONS: The culture system used yields a large number of highly pure hiPS-CMs,and hiPS-CM sheets could improve cardiac function after ischemic cardiomyopathy. This newly developed culture system and the hiPS-CM sheets may provide a basis for the clinical use of hiPS cells in cardiac regeneration therapy. View Publication

Electronic cigarettes (EC) and refill fluids are distributed with little information on their pre- and postnatal health effects. This study compares the cytotoxicity of EC refill fluids using embryonic and adult cells and examines the chemical characteristics of refill fluids using HPLC. Refill solutions were tested on human embryonic stem cells (hESC),mouse neural stem cells (mNSC),and human pulmonary fibroblasts (hPF) using the MTT assay,and NOAELs and IC50s were determined from dose-response curves. Spectral analysis was performed when products of the same flavor had different MTT outcomes. hESC and mNSC were generally more sensitive to refill solutions than hPF. All products from one company were cytotoxic to hESC and mNSC,but non-cytotoxic to hPF. Cytotoxicity was not due to nicotine,but was correlated with the number and concentration of chemicals used to flavor fluids. Additional studies are needed to fully assess the prenatal effect of refill fluids. ?? 2012 Elsevier Inc. View Publication

Human embryonic stem cells (hESCs) and induced pluripotent stem cells (hiPSCs) have been shown to differentiate into primordial germ cells (PGCs) but not into spermatogonia,haploid spermatocytes,or spermatids. Here,we show that hESCs and hiPSCs differentiate directly into advanced male germ cell lineages,including postmeiotic,spermatid-like cells,in vitro without genetic manipulation. Furthermore,our procedure mirrors spermatogenesis in vivo by differentiating PSCs into UTF1-,PLZF-,and CDH1-positive spermatogonia-like cells; HIWI- and HILI-positive spermatocyte-like cells; and haploid cells expressing acrosin,transition protein 1,and protamine 1 (proteins that are uniquely found in spermatids and/or sperm). These spermatids show uniparental genomic imprints similar to those of human sperm on two loci: H19 and IGF2. These results demonstrate that male PSCs have the ability to differentiate directly into advanced germ cell lineages and may represent a novel strategy for studying spermatogenesis in vitro View Publication

Multiple signalling pathways maintain human embryonic stem cells (hESC) in an undifferentiated state. Here we sought to define the significance of G protein signal transduction in the preservation of this state distinct from other cellular processes. Continuous treatment with drugs targeting G(αs)-,G(α-i/o)- and G(α-q/11)-subunit signalling mediators were assessed in independent hESC lines after 7days to discern effects on normalised alkaline phosphatase positive colony frequency vs total cell content. This identified PLCβ,intracellular free calcium and CAMKII kinase activity downstream of G(α-q/11) as of particular importance to the former. To confirm the significance of this finding we generated an agonist-responsive hESC line transgenic for a G(α-q/11) subunit-coupled receptor and demonstrated that an undifferentiated state could be promoted in the presence of an agonist without exogenously supplied bFGF and that this correlated with elevated intracellular calcium. Similarly,treatment of unmodified hESCs with a range of intracellular free calcium-modulating drugs in biologically defined mTESR culture system lacking exogenous bFGF promoted an hESC phenotype after 1week of continuous culture as defined by co-expression of OCT4 and NANOG. At least one of these drugs,lysophosphatidic acid significantly elevates phosphorylation of calmodulin and STAT3 in this culture system (ptextless0.05). These findings substantiate a role for G-protein and calcium signalling in undifferentiated hESC culture. View Publication