Awasthi S et al. (JAN 2012)
Journal of biophotonics 5 1 57--66
Label-free identification and characterization of human pluripotent stem cell-derived cardiomyocytes using second harmonic generation (SHG) microscopy
Pluripotent stem cell-derived cardiomyocytes (PSC-CMs) are a potentially unlimited source of cardiomyocytes (CMs) for cardiac transplantation therapies. The establishment of pure PSC-CM populations is important for this application,but is hampered by a lack of CM-specific surface markers suitable for their identification and sorting. Contemporary purification techniques are either non-specific or require genetic modification. We report a second harmonic generation (SHG) signal detectable in PSC-CMs that is attributable to sarcomeric myosin,dependent on PSC-CM maturity,and retained while PSC-CMs are in suspension. Our study demonstrates the feasibility of developing a SHG-activated flow cytometer for the non-invasive purification of PSC-CMs.
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Ohmine S et al. (JAN 2011)
Stem Cell Research & Therapy 2 6 46
Induced pluripotent stem cells from GMP-grade hematopoietic progenitor cells and mononuclear myeloid cells
INTRODUCTION: The induced pluripotent stem cell (iPSC) technology allows generation of patient-specific pluripotent stem cells,thereby providing a novel cell-therapy platform for severe degenerative diseases. One of the key issues for clinical-grade iPSC derivation is the accessibility of donor cells used for reprogramming. METHODS: We examined the feasibility of reprogramming mobilized GMP-grade hematopoietic progenitor cells (HPCs) and peripheral blood mononuclear cells (PBMCs) and tested the pluripotency of derived iPS clones. RESULTS: Ectopic expression of OCT4,SOX2,KLF4,and c-MYC in HPCs and PBMCs resulted in rapid iPSC derivation. Long-term time-lapse imaging revealed efficient iPSC growth under serum- and feeder-free conditions with frequent mitotic events. HPC- and PBMC-derived iPS cells expressed pluripotency-associated markers,including SSEA-4,TRA-1-60,and NANOG. The global gene-expression profiles demonstrated the induction of endogenous pluripotent genes,such as LIN28,TERT,DPPA4,and PODXL,in derived iPSCs. iPSC clones from blood and other cell sources showed similar ultrastructural morphologies and genome-wide gene-expression profiles. On spontaneous and guided differentiation,HPC- and PBMC-derived iPSCs were differentiated into cells of three germ layers,including insulin-producing cells through endodermal lineage,verifying the pluripotency of the blood-derived iPSC clones. CONCLUSIONS: Because the use of blood cells allows minimally invasive tissue procurement under GMP conditions and rapid cellular reprogramming,mobilized HPCs and unmobilized PBMCs would be ideal somatic cell sources for clinical-grade iPSC derivation,especially from diabetes patients complicated by slow-healing wounds.
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Liu Y et al. (APR 2012)
Stem cells and development 21 6 829--33
Tip110 maintains expression of pluripotent factors in and pluripotency of human embryonic stem cells.
HIV-1 Tat-interacting protein of 110 kDa [Tip110; p110(nrb)/SART3/p110] is an RNA binding nuclear protein implicated in regulation of HIV-1 gene and host gene transcription,pre-mRNA splicing,and cancer immunology. Recently,we demonstrated a role for Tip110 in regulation of hematopoiesis. Here,we show that TIP110 is also expressed in human embryonic stem cells (hESCs) and expression was decreased with differentiation of these ESCs. TIP110 was found,through up- and down-modulation of expression of Tip110,to be important in maintaining pluripotent factor (NANOG,OCT4,and SOX2) expression in and pluripotency of hESCs,although the mechanisms involved and whether the Tip110 effects are direct remain to be determined.
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Cardoso SC et al. (JAN 2011)
PLoS ONE 6 12 e29244
Synchrotron radiation X-ray microfluorescence reveals polarized distribution of atomic elements during differentiation of pluripotent stem cells.
The mechanisms underlying pluripotency and differentiation in embryonic and reprogrammed stem cells are unclear. In this work,we characterized the pluripotent state towards neural differentiated state through analysis of trace elements distribution using the Synchrotron Radiation X-ray Fluorescence Spectroscopy. Naive and neural-stimulated embryoid bodies (EB) derived from embryonic and induced pluripotent stem (ES and iPS) cells were irradiated with a spatial resolution of 20 µm to make elemental maps and qualitative chemical analyses. Results show that these embryo-like aggregates exhibit self-organization at the atomic level. Metallic elements content rises and consistent elemental polarization pattern of P and S in both mouse and human pluripotent stem cells were observed,indicating that neural differentiation and elemental polarization are strongly correlated.
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Liu L et al. (JAN 2012)
Biochemical and biophysical research communications 417 2 738--43
ER stress response during the differentiation of H9 cells induced by retinoic acid.
Endoplasmic reticulum (ER) stress occurs during early embryonic development. The aim of this study is to determine whether ER stress occurs during human embryonic stem cell differentiation induced by retinoic acid (RA). H9 human embryonic stem cells were subjected to RA treatment for up to 29. days to induce differentiation. HEK293 cells were treated with RA as a control. The results demonstrate that several ER stress-responsive genes are differentially regulated in H9 and HEK293 cells in response to 5. days of RA treatment. GRP78/Bip was upregulated in H9 cells but downregulated in HEK293 cells. eIF2?? was downregulated in H9 cells but not in HEK293 cells. Phosphorylation of eIF2?? was downregulated in H9 cells but upregulated in HEK293 cells. XBP-1 was downregulated immediately after RA treatment in H9 cells,but its downregulation was much slower in HEK293 cells. Additionally,two ER-resident E3 ubiquitin ligases,gp78 and Hrd1,were both upregulated in H9 cells following 5. days of exposure to RA. Moreover,the protein Bcl2 was undetectable in H9 cells and H9-derived cells but was expressed in HEK293 cells,and it expression in the two types of cells was unaltered by RA treatment. In H9 cells treated with RA for 29. days,GRP78/Bip,XBP-1 and Bcl2 were all upregulated. These results suggest that ER stress is involved in H9 cell differentiation induced by RA. ?? 2011 Elsevier Inc.
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Fong H et al. (MAR 2012)
Stem cell research 8 2 206--14
Transcriptional regulation of TRKC by SOX2 in human embryonic stem cells.
Human embryonic stem (hES) cells have the dual ability to self-renew and differentiate into specialized cell types. However,in order to realize the full potential of these cells it is important to understand how the genes responsible for their unique characteristics are regulated. In this study we examine the regulation of the tropomyosin-related kinase (TRK) genes which encode for receptors important in hES cell survival and self-renewal. Although the TRK genes have been studied in many neuronal cell types,the regulation of these genes in hES cells is unclear. Our study demonstrates a novel regulatory relationship between the TRKC gene and the transcription factor SOX2. Our results found that hES cells highly express full-length and truncated forms of the TRKC gene. However,examination of the related TRKB gene showed a lower overall expression of both full-length and truncated forms. Through RNA interference,we knocked down expression levels of SOX2 in hES cells and examined the expression of TRKC,as well as TRKB. Upon loss of SOX2 we found that TRKC mRNA levels were significantly downregulated but TRKB levels remained unchanged,demonstrating an important regulatory dependence on SOX2 by TRKC. We also found that TRKC protein levels were also decreased after SOX2 knock down. Further analysis found the regulatory region of TRKC to be highly conserved among many mammals with potential SOX binding motifs. We confirmed a specific binding motif as a site that SOX2 utilizes to directly interact with the TRKC regulatory region. In addition,we found that SOX2 drives expression of the TRKC gene by activating a luciferase reporter construct containing the TRKC regulatory region and the SOX binding motif.
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Zheng X et al. (MAY 2012)
Stem Cells 30 5 910--922
Cnot1, Cnot2, and Cnot3 maintain mouse and human ESC identity and inhibit extraembryonic differentiation
Embryonic stem cell (ESC) identity and self-renewal is maintained by extrinsic signaling pathways and intrinsic gene regulatory networks. Here,we show that three members of the Ccr4-Not complex,Cnot1,Cnot2,and Cnot3,play critical roles in maintaining mouse and human ESC identity as a protein complex and inhibit differentiation into the extraembryonic lineages. Enriched in the inner cell mass of blastocysts,these Cnot genes are highly expressed in ESC and downregulated during differentiation. In mouse ESCs,Cnot1,Cnot2,and Cnot3 are important for maintenance in both normal conditions and the 2i/LIF medium that supports the ground state pluripotency. Genetic analysis indicated that they do not act through known self-renewal pathways or core transcription factors. Instead,they repress the expression of early trophectoderm (TE) transcription factors such as Cdx2. Importantly,these Cnot genes are also necessary for the maintenance of human ESCs,and silencing them mainly lead to TE and primitive endoderm differentiation. Together,our results indicate that Cnot1,Cnot2,and Cnot3 represent a novel component of the core self-renewal and pluripotency circuitry conserved in mouse and human ESCs.
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Kozhich OA et al. (AUG 2013)
Stem Cell Reviews and Reports 9 4 531--536
Standardized Generation and Differentiation of Neural Precursor Cells from Human Pluripotent Stem Cells
Precise,robust and scalable directed differentiation of pluripotent stem cells is an important goal with respect to disease modeling or future therapies. Using the AggreWell™400 system we have standardized the differentiation of human embryonic and induced pluripotent stem cells to a neuronal fate using defined conditions. This allows reproducibility in replicate experiments and facilitates the direct comparison of cell lines. Since the starting point for EB formation is a single cell suspension,this protocol is suitable for standard and novel methods of pluripotent stem cell culture. Moreover,an intermediate population of neural precursor cells,which are routinely textgreater95% NCAM(pos) and Tra-1-60(neg) by FACS analysis,may be expanded and frozen prior to differentiation allowing a convenient starting point for downstream experiments.
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Zeng J et al. (MAY 2012)
The Journal of Immunology 188 9 4297--4304
Enhancing Immunostimulatory Function of Human Embryonic Stem Cell-Derived Dendritic Cells by CD1d Overexpression
Human embryonic stem cell-derived dendritic cells (hESC-DCs) may potentially provide a platform to generate off-the-shelf" therapeutic cancer vaccines. To apply hESC-DCs for cancer immunotherapy in a semiallogeneic setting�
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冻存的人外周血Pan T细胞
冻存的人外周血Pan T细胞
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冻存的人外周血单个核细胞
冻存的人外周血单个核细胞
冻存的人外周血单个核细胞
冻存的人外周血单个核细胞
Ruiz S et al. (NOV 2012)
Journal of Biological Chemistry 287 48 40767--40778
Generation of a drug-inducible reporter system to study cell reprogramming in human cells
BACKGROUND Strategies on the basis of doxycycline-inducible lentiviruses in mouse cells allowed the examination of mechanisms governing somatic cell reprogramming. RESULTS Using a doxycycline-inducible human reprogramming system,we identified unreported miRs enhancing reprogramming efficiency. CONCLUSION We generated a drug-inducible human reprogramming reporter system as an invaluable tool for genetic or chemical screenings. SIGNIFICANCE These cellular systems provide a tool to enable the advancement of reprogramming technologies in human cells. Reprogramming of somatic cells into induced pluripotent stem cells is achieved by the expression of defined transcription factors. In the last few years,reprogramming strategies on the basis of doxycycline-inducible lentiviruses in mouse cells became highly powerful for screening purposes when the expression of a GFP gene,driven by the reactivation of endogenous stem cell specific promoters,was used as a reprogramming reporter signal. However,similar reporter systems in human cells have not been generated. Here,we describe the derivation of drug-inducible human fibroblast-like cell lines that express different subsets of reprogramming factors containing a GFP gene under the expression of the endogenous OCT4 promoter. These cell lines can be used to screen functional substitutes for reprogramming factors or modifiers of reprogramming efficiency. As a proof of principle of this system,we performed a screening of a library of pluripotent-enriched microRNAs and identified hsa-miR-519a as a novel inducer of reprogramming efficiency.
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Lu HF et al. (DEC 2012)
Biomaterials 33 36 9179--87
Efficient neuronal differentiation and maturation of human pluripotent stem cells encapsulated in 3D microfibrous scaffolds.
Developing an efficient culture system for controlled human pluripotent stem cell (hPSC) differentiation into selected lineages is a major challenge in realizing stem cell-based clinical applications. Here,we report the use of chitin-alginate 3D microfibrous scaffolds,previously developed for hPSC propagation,to support efficient neuronal differentiation and maturation under chemically defined culture conditions. When treated with neural induction medium containing Noggin/retinoic acid,the encapsulated cells expressed much higher levels of neural progenitor markers SOX1 and PAX6 than those in other treatment conditions. Immunocytochemisty analysis confirmed that the majority of the differentiated cells were nestin-positive cells. Subsequently transferring the scaffolds to neuronal differentiation medium efficiently directed these encapsulated neural progenitors into mature neurons,as detected by RT-PCR and positive immunostaining for neuron markers βIII tubulin and MAP2. Furthermore,flow cytometry confirmed that textgreater90% βIII tubulin-positive neurons was achieved for three independent iPSC and hESC lines,a differentiation efficiency much higher than previously reported. Implantation of these terminally differentiated neurons into SCID mice yielded successful neural grafts comprising MAP2 positive neurons,without tumorigenesis,suggesting a potential safe cell source for regenerative medicine. These results bring us one step closer toward realizing large-scale production of stem cell derivatives for clinical and translational applications.
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Vilchez D et al. (SEP 2012)
Nature 489 7415 304--308
Increased proteasome activity in human embryonic stem cells is regulated by PSMD11
Embryonic stem cells can replicate continuously in the absence of senescence and,therefore,are immortal in culture. Although genome stability is essential for the survival of stem cells,proteome stability may have an equally important role in stem-cell identity and function. Furthermore,with the asymmetric divisions invoked by stem cells,the passage of damaged proteins to daughter cells could potentially destroy the resulting lineage of cells. Therefore,a firm understanding of how stem cells maintain their proteome is of central importance. Here we show that human embryonic stem cells (hESCs) exhibit high proteasome activity that is correlated with increased levels of the 19S proteasome subunit PSMD11 (known as RPN-6 in Caenorhabditis elegans) and a corresponding increased assembly of the 26S/30S proteasome. Ectopic expression of PSMD11 is sufficient to increase proteasome assembly and activity. FOXO4,an insulin/insulin-like growth factor-I (IGF-I) responsive transcription factor associated with long lifespan in invertebrates,regulates proteasome activity by modulating the expression of PSMD11 in hESCs. Proteasome inhibition in hESCs affects the expression of pluripotency markers and the levels of specific markers of the distinct germ layers. Our results suggest a new regulation of proteostasis in hESCs that links longevity and stress resistance in invertebrates to hESC function and identity.
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