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Generation of midbrain dopaminergic (mDA) neurons from human pluripotent stem cells provides a platform for inquiry into basic and translational studies of Parkinson's disease (PD). However,heterogeneity in differentiation in vitro makes it difficult to identify mDA neurons in culture or in vivo following transplantation. Here,we report the generation of a human embryonic stem cell (hESC) line with a tyrosine hydroxylase (TH)-RFP (red fluorescent protein) reporter. We validated that RFP faithfully mimicked TH expression during differentiation. Use of this TH-RFP reporter cell line enabled purification of mDA-like neurons from heterogeneous cultures with subsequent characterization of neuron transcriptional and epigenetic programs (global binding profiles of H3K27ac,H3K4me1,and 5-hydroxymethylcytosine [5hmC]) at four different stages of development. We anticipate that the tools and data described here will contribute to the development of mDA neurons for applications in disease modeling and/or drug screening and cell replacement therapies for PD. View Publication

BACKGROUND The robust generation of human hematopoietic progenitor cells from induced or embryonic pluripotent stem cells would be beneficial for multiple areas of research,including mechanistic studies of hematopoiesis,the development of cellular therapies for autoimmune diseases,induced transplant tolerance,anticancer immunotherapies,disease modeling,and drug/toxicity screening. Over the past years,significant progress has been made in identifying effective protocols for hematopoietic differentiation from pluripotent stem cells and understanding stages of mesodermal,endothelial,and hematopoietic specification. Thus,it has been shown that variations in cytokine and inhibitory molecule treatments in the first few days of hematopoietic differentiation define primitive versus definitive potential of produced hematopoietic progenitor cells. The majority of current feeder-free,defined systems for hematopoietic induction from pluripotent stem cells include prolonged incubations with various cytokines that make the differentiation process complex and time consuming. We established that the application of Wnt agonist CHIR99021 efficiently promotes differentiation of human pluripotent stem cells in the absence of any hematopoietic cytokines to the stage of hemogenic endothelium capable of definitive hematopoiesis. METHODS The hemogenic endothelium differentiation was accomplished in an adherent,serum-free culture system by applying CHIR99021. Hemogenic endothelium progenitor cells were isolated on day 5 of differentiation and evaluated for their endothelial,myeloid,and lymphoid potential. RESULTS Monolayer induction based on GSK3 inhibition,described here,yielded a large number of CD31(+)CD34(+) hemogenic endothelium cells. When isolated and propagated in adherent conditions,these progenitors gave rise to mature endothelium. When further cocultured with OP9 mouse stromal cells,these progenitors gave rise to various cells of myeloid lineages as well as natural killer lymphoid,T-lymphoid,and B-lymphoid cells. CONCLUSION The results of this study substantiate a method that significantly reduces the complexity of current protocols for hematopoietic induction,offers a defined system to study the factors that affect the early stages of hematopoiesis,and provides a new route of lymphoid and myeloid cell derivation from human pluripotent stem cells,thus enhancing their use in translational medicine. View Publication

Human fibroblast cells collected from a 3-year old,female Rett Syndrome patient with a 32bp deletion in the X-linked MECP2 gene were obtained from the Coriell Institute. Fibroblasts were reprogrammed to iPSC cells using a Sendai-virus delivery system expressing human KOSM transcription factors. Cell-line pluripotency was demonstrated by gene expression,immunocytochemistry,in-vitro differentiation trilineage capacity and was of normal karyotype. Interestingly,subsequent clones retained the epigenetic memory of the parent fibroblasts allowing for the segregation of wild-type and mutant expressing clones. This MECP2 mutant expressing clone may serve as a model for investigating MECP2 reactivation in Rett's Syndrome. View Publication

Peripheral blood was collected from a clinically diagnosed 60-year old female patient with multiple schwannoma. Peripheral blood mononuclear cells (PBMCs) were reprogrammed with the Yamanaka KMOS reprogramming factors using the Sendai-virus reprogramming system. The transgene-free iPSC line showed pluripotency verified by immunofluorescent staining for pluripotency markers,and the iPSC line was able to differentiate into the 3 germ layers in vivo. The iPSC line also showed normal karyotype. This in vitro cellular model will be useful for further pathological studies of multiple schwannoma. View Publication

In vitro models of the developing brain such as three-dimensional brain organoids offer an unprecedented opportunity to study aspects of human brain development and disease. However,the cells generated within organoids and the extent to which they recapitulate the regional complexity,cellular diversity and circuit functionality of the brain remain undefined. Here we analyse gene expression in over 80,000 individual cells isolated from 31 human brain organoids. We find that organoids can generate a broad diversity of cells,which are related to endogenous classes,including cells from the cerebral cortex and the retina. Organoids could be developed over extended periods (more than 9 months),allowing for the establishment of relatively mature features,including the formation of dendritic spines and spontaneously active neuronal networks. Finally,neuronal activity within organoids could be controlled using light stimulation of photosensitive cells,which may offer a way to probe the functionality of human neuronal circuits using physiological sensory stimuli. View Publication

Deubiquitinating enzymes may play a major regulatory role in pluripotent stem cells (PSCs) but few studies have investigated this topic. Within this family of enzymes,we found that the ubiquitin specific peptidase,USP44,is highly expressed in embryonic stem cells,induced PSCs and testes as compared to differentiated progenies and somatic organs. Analysis by qPCR and 5'RACE showed that alternate promoters are responsible for expression in PSCs and organs. We noticed 7 regions of transcription initiation,some of them with cell- or tissue-specific activity. Close analysis showed that one of the promoters involved in stem cell and testis-specific activity is differentially regulated in those tissues. At the epigenetic level,USP44 transcription was correlated with DNA methylation of a CpG island close to the main promoter region. These data imply a complex picture where regulating factors like OCT4 may interact with other epigenetic mechanisms to regulate USP44 expression in PSCs and testes. View Publication

Recent reports have documented the differentiation of human pluripotent stem cells toward the skeletal myogenic lineage using transgene- and cell purification-free approaches. Although these protocols generate myocytes,they have not demonstrated scalability,safety,and in vivo engraftment,which are key aspects for their future clinical application. Here we recapitulate one prominent protocol,and show that it gives rise to a heterogeneous cell population containing myocytes and other cell types. Upon transplantation,the majority of human donor cells could not contribute to myofiber formation. As a proof-of-principle,we incorporated the inducible PAX7 lentiviral system into this protocol,which then enabled scalable expansion of a homogeneous population of skeletal myogenic progenitors capable of forming myofibers in vivo. Our findings demonstrate the methods for scalable expansion of PAX7(+) myogenic progenitors and their purification are critical for practical application to cell replacement treatment of muscle degenerative diseases. View Publication

Congenital heart defects are the most common birth defect. The limiting factor in tissue engineering repair strategies is an autologous source of functional cardiomyocytes. Amniotic fluid contains an ideal cell source for prenatal harvest and use in correction of congenital heart defects. This study aims to investigate the potential of amniotic fluid-derived stem cells (AFSC) to undergo non-viral reprogramming into induced pluripotent stem cells (iPSC) followed by growth-factor-free differentiation into functional cardiomyocytes. AFSC from human second trimester amniotic fluid were transfected by non-viral vesicle fusion with modified mRNA of OCT4,KLF4,SOX2,LIN28,cMYC and nuclear GFP over 18 days,then differentiated using inhibitors of GSK3 followed 48 hours later by inhibition of WNT. AFSC-derived iPSC had high expression of OCT4,NANOG,TRA-1-60,and TRA-1-81 after 18 days of mRNA transfection and formed teratomas containing mesodermal,ectodermal,and endodermal germ layers in immunodeficient mice. By Day 30 of cardiomyocyte differentiation,cells contracted spontaneously,expressed connexin 43 and β-myosin heavy chain organized in sarcomeric banding patterns,expressed cardiac troponin T and β-myosin heavy chain,showed upregulation of NKX2.5,ISL-1 and cardiac troponin T with downregulation of POU5F1,and displayed calcium and voltage transients similar to those in developing cardiomyocytes. These results demonstrate that cells from human amniotic fluid can be differentiated through a pluripotent state into functional cardiomyocytes. View Publication

Xenopus in vitro studies have implicated both transforming growth factor beta (TGF-beta) and fibroblast growth factor (FGF) families in mesoderm induction. Although members of both families are present during mouse mesoderm formation,there is little evidence for their functional role in mesoderm induction. We show that mouse embryonic stem cells,which resemble primitive ectoderm,can differentiate to mesoderm in vitro in a chemically defined medium (CDM) in the absence of fetal bovine serum. In CDM,this differentiation is responsive to TGF-beta family members in a concentration-dependent manner,with activin A mediating the formation of dorsoanterior-like mesoderm and bone morphogenetic protein 4 mediating the formation of ventral mesoderm,including hematopoietic precursors. These effects are not observed in CDM alone or when TGF-beta 1,-beta 2,or -beta 3,acid FGF,or basic FGF is added individually to CDM. In vivo,at day 6.5 of mouse development,activin beta A RNA is detectable in the decidua and bone morphogenetic protein 4 RNA is detectable in the egg cylinder. Together,our data strongly implicate the TGF-beta family in mammalian mesoderm development and hematopoietic cell formation. View Publication

beta 1 Integrins are known to regulate terminal differentiation and morphogenesis in the adult epidermis. We have investigated their role in the embryonic development of keratinocytes by comparing the differentiation of wild-type and beta 1-null mouse embryonal stem (ES) cells. By 12-15 days in culture,differentiation of embryonic or simple epithelial cells occurred in both ES cell populations,as detected by expression of keratins 8,18,and 19. From 21 days,expression of keratins 10 and 14 and of the cornified envelope precursor involucrin indicated that some of the wild-type cells had differentiated into keratinocytes. In contrast,keratinocyte markers were not expressed in beta 1-null cultures. The beta 1-null cells failed to express the alpha 2 and alpha 3 integrin subunits on the cell surface,consistent with the association of these a subunits with beta 1. Furthermore,alpha 6 and beta 4 expression was reduced in the beta 1-null cultures. Although beta 1-null ES cells failed to undergo differentiation into keratinocytes in vitro,they did form keratinocyte cysts expressing alpha 6 beta 4,keratins 1 and 14,and involucrin when allowed to form teratomas by subcutaneous injection in mice; furthermore,beta 1-null keratinocytes were found in the epidermis of a wild-type/beta 1-null chimeric mouse. As judged by immunofluorescence microscopy,extracellular matrix assembly was severely impaired in beta 1-null ES cell cultures,but not in the teratomas or chimeric mouse skin. We therefore speculate that the failure of beta 1-null cells to differentiate into keratinocytes in vitro may reflect an inability to assemble a basement membrane. View Publication

To understand the mechanism of the sequential restriction of multipotency of stem cells during development,we have established culture conditions that allow the differentiation of neuroepithelial precursor cells from embryonic stem (ES) cells. A highly enriched population of neuroepithelial precursor cells derived from ES cells proliferates in the presence of basic fibroblast growth factor (bFGF). These cells differentiate into both neurons and glia following withdrawal of bFGF. By further differentiating the cells in serum-containing medium,the neurons express a wide variety of neuron-specific genes and generate both excitatory and inhibitory synaptic connections. The expression pattern of position-specific neural markers suggests the presence of a variety of central nervous system (CNS) neuronal cell types. These findings indicate that neuronal precursor cells can be isolated from ES cells and that these cells can efficiently differentiate into functional post-mitotic neurons of diverse CNS structures. View Publication

Embryonic stem cells,derived from the inner cell mass of murine blastocysts,can be maintained in a totipotent state in vitro. In appropriate conditions embryonic stem cells have been shown to differentiate in vitro into various derivatives of all three primary germ layers. We describe in this paper conditions to induce differentiation of embryonic stem cells reliably and at high efficiency into adipocytes. A prerequisite is to treat early developing embryonic stem cell-derived embryoid bodies with retinoic acid for a precise period of time. Retinoic acid could not be substituted by adipogenic hormones nor by potent activators of peroxisome proliferator-activated receptors. Treatment with retinoic acid resulted in the subsequent appearance of large clusters of mature adipocytes in embryoid body outgrowths. Lipogenic and lipolytic activities as well as high level expression of adipocyte specific genes could be detected in these cultures. Analysis of expression of potential adipogenic genes,such as peroxisome proliferator-activated receptors gamma and delta and CCAAT/enhancer binding protein beta,during differentiation of retinoic acid-treated embryoid bodies has been performed. The temporal pattern of expression of genes encoding these nuclear factors resembled that found during mouse embryogenesis. The differentiation of embryonic stem cells into adipocytes will provide an invaluable model for the characterisation of the role of genes expressed during the adipocyte development programme and for the identification of new adipogenic regulatory genes. View Publication