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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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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Linta L et al. (APR 2012)
Stem cells and development 21 6 965--976
Rat Embryonic Fibroblasts Improve Reprogramming of Human Keratinocytes into Induced Pluripotent Stem Cells
Patient-specific human induced pluripotent stem (hiPS) cells not only provide a promising tool for cellular disease models in general,but also open up the opportunity to establish cell-type-specific systems for personalized medicine. One of the crucial prerequisites for these strategies,however,is a fast and efficient reprogramming strategy from easy accessible somatic cell populations. Keratinocytes from plucked human hair had been introduced as a superior cell source for reprogramming purposes compared with the widely used skin fibroblasts. The starting cell population is,however,limited and thereby further optimization in terms of time,efficiency,and quality is inevitable. Here we show that rat embryonic fibroblasts (REFs) should replace mouse embryonic fibroblasts as feeder cells in the reprogramming process. REFs enable a significantly more efficient reprogramming procedure as shown by colony number and total amount of SSEA4-positive cells. We successfully produced keratinocyte-derived hiPS (k-hiPS) cells from various donors. The arising k-hiPS cells display the hallmarks of pluripotency such as expression of stem cell markers and differentiation into all 3 germ layers. The increased reprogramming efficiency using REFs as a feeder layer occurred independent of the proliferation rate in the parental keratinocytes and acts,at least in part,in a non-cell autonomous way by secreting factors known to facilitate pluripotency such as Tgfb1,Inhba and Grem1. Hence,we provide an easy to use and highly efficient reprogramming system that could be very useful for a broad application to generate human iPS cells.
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Avery S (SEP 2011)
Current protocols in stem cell biology Chapter 5 Unit5C.1
Generation of inducible shRNAi human embryonic stem cell lines.
This unit describes the generation of tetracycline-inducible short hairpin RNA interference (shRNAi) human embryonic stem cell (hESC) lines. Using this vector-based approach enables stable and long-term expression of target hairpins under the control of doxycycline/tetracycline. Target degradation can be controlled in both a dose- and time-dependent manner that can even be switched off,depending upon the particular requirements of the study.
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Inamdar AA et al. (JAN 2012)
Mycopathologia 173 1 13--20
A Model to Evaluate the Cytotoxicity of the Fungal Volatile Organic Compound 1-octen-3-ol in Human Embryonic Stem Cells
Microbial growth in damp indoor environments has been correlated with risks to human health. This study was aimed to determine the cytotoxicity of 1-octen-3-ol (mushroom alcohol")�
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Kwon C et al. (OCT 2011)
Nature cell biology 13 10 1244--51
Notch post-translationally regulates β-catenin protein in stem and progenitor cells.
Cellular decisions of self-renewal or differentiation arise from integration and reciprocal titration of numerous regulatory networks. Notch and Wnt/β-catenin signalling often intersect in stem and progenitor cells and regulate each other transcriptionally. The biological outcome of signalling through each pathway often depends on the context and timing as cells progress through stages of differentiation. Here,we show that membrane-bound Notch physically associates with unphosphorylated (active) β-catenin in stem and colon cancer cells and negatively regulates post-translational accumulation of active β-catenin protein. Notch-dependent regulation of β-catenin protein did not require ligand-dependent membrane cleavage of Notch or the glycogen synthase kinase-3β-dependent activity of the β-catenin destruction complex. It did,however,require the endocytic adaptor protein Numb and lysosomal activity. This study reveals a previously unrecognized function of Notch in negatively titrating active β-catenin protein levels in stem and progenitor cells.
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Mangeot P-E et al. (SEP 2011)
Molecular therapy : the journal of the American Society of Gene Therapy 19 9 1656--66
Protein Transfer Into Human Cells by VSV-G-induced Nanovesicles.
Identification of new techniques to express proteins into mammal cells is of particular interest for both research and medical purposes. The present study describes the use of engineered vesicles to deliver exogenous proteins into human cells. We show that overexpression of the spike glycoprotein of the vesicular stomatitis virus (VSV-G) in human cells induces the release of fusogenic vesicles named gesicles. Biochemical and functional studies revealed that gesicles incorporated proteins from producer cells and could deliver them to recipient cells. This protein-transduction method allows the direct transport of cytoplasmic,nuclear or surface proteins in target cells. This was demonstrated by showing that the TetR transactivator and the receptor for the murine leukemia virus (MLV) envelope [murine cationic amino acid transporter-1 (mCAT-1)] were efficiently delivered by gesicles in various cell types. We further shows that gesicle-mediated transfer of mCAT-1 confers to human fibroblasts a robust permissiveness to ecotropic vectors,allowing the generation of human-induced pluripotent stem cells in level 2 biosafety facilities. This highlights the great potential of mCAT-1 gesicles to increase the safety of experiments using retro/lentivectors. Besides this,gesicles is a versatile tool highly valuable for the nongenetic delivery of functions such as transcription factors or genome engineering agents.
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Ruzov A et al. (SEP 2011)
Cell Res 21 9 1332--42
Lineage-specific distribution of high levels of genomic 5-hydroxymethylcytosine in mammalian development
Methylation of cytosine is a DNA modification associated with gene repression. Recently,a novel cytosine modification,5-hydroxymethylcytosine (5-hmC) has been discovered. Here we examine 5-hmC distribution during mammalian development and in cellular systems,and show that the developmental dynamics of 5-hmC are different from those of 5-methylcytosine (5-mC); in particular 5-hmC is enriched in embryonic contexts compared to adult tissues. A detectable 5-hmC signal appears in pre-implantation development starting at the zygote stage,where the paternal genome is subjected to a genome-wide hydroxylation of 5-mC,which precisely coincides with the loss of the 5-mC signal in the paternal pronucleus. Levels of 5-hmC are high in cells of the inner cell mass in blastocysts,and the modification colocalises with nestin-expressing cell populations in mouse post-implantation embryos. Compared to other adult mammalian organs,5-hmC is strongly enriched in bone marrow and brain,wherein high 5-hmC content is a feature of both neuronal progenitors and post-mitotic neurons. We show that high levels of 5-hmC are not only present in mouse and human embryonic stem cells (ESCs) and lost during differentiation,as has been reported previously,but also reappear during the generation of induced pluripotent stem cells; thus 5-hmC enrichment correlates with a pluripotent cell state. Our findings suggest that apart from the cells of neuronal lineages,high levels of genomic 5-hmC are an epigenetic feature of embryonic cell populations and cellular pluri- and multi-lineage potency. To our knowledge,5-hmC represents the first epigenetic modification of DNA discovered whose enrichment is so cell-type specific.
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Mandegar MA et al. (AUG 2011)
Human Molecular Genetics 20 15 2905--13
Functional human artificial chromosomes are generated and stably maintained in human embryonic stem cells
We present a novel and efficient non-integrating gene expression system in human embryonic stem cells (hESc) utilizing human artificial chromosomes (HAC),which behave as autonomous endogenous host chromosomes and segregate correctly during cell division. HAC are important vectors for investigating the organization and structure of the kinetochore,and gene complementation. HAC have so far been obtained in immortalized or tumour-derived cell lines,but never in stem cells,thus limiting their potential therapeutic application. In this work,we modified the herpes simplex virus type 1 amplicon system for efficient transfer of HAC DNA into two hESc. The deriving stable clones generated green fluorescent protein gene-expressing HAC at high frequency,which were stably maintained without selection for 3 months. Importantly,no integration of the HAC DNA was observed in the hESc lines,compared with the fibrosarcoma-derived control cells,where the exogenous DNA frequently integrated in the host genome. The hESc retained pluripotency,differentiation and teratoma formation capabilities. This is the first report of successfully generating gene expressing de novo HAC in hESc,and is a significant step towards the genetic manipulation of stem cells and potential therapeutic applications.
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Ao A et al. (APR 2011)
Chemistry & biology 18 4 413--24
Regenerative chemical biology: current challenges and future potential.
The enthusiasm surrounding the clinical potential of embryonic stem cells (ESCs) and induced pluripotent stem cells (iPSCs) is tempered by the fact that key issues regarding their safety,efficacy,and long-term benefits have thus far been suboptimal. Small molecules can potentially relieve these problems at major junctions of stem cell biology and regenerative therapy. In this review we will introduce recent advances in these important areas and the first generation of small molecules used in the regenerative context. Current chemical biology studies will provide the archetype for future interdisciplinary collaborations and improve clinical benefits of cell-based therapies.
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Khatib MME et al. (MAY 2016)
Stem Cells Translational Medicine 5 5 694--702
Tumor-Free Transplantation of Patient-Derived Induced Pluripotent Stem Cell Progeny for Customized Islet Regeneration
Human induced pluripotent stem cells (iPSCs) and derived progeny provide invaluable regenerative platforms,yet their clinical translation has been compromised by their biosafety concern. Here,we assessed the safety of transplanting patient-derived iPSC-generated pancreatic endoderm/ progenitor cells. Transplantation of progenitors from iPSCs reprogrammed by lentiviral vectors (LV-iPSCs) led to the formation of invasive teratocarcinoma-like tumors in more than 90% of immu-nodeficient mice. Moreover,removal of primary tumors from LV-iPSC progeny-transplanted hosts generated secondary and metastatic tumors. Combined transgene-free (TGF) reprogramming and elimination of residual pluripotent cells by enzymatic dissociation ensured tumor-free transplanta-tion,ultimately enabling regeneration of type 1 diabetes-specific human islet structures in vivo. The incidence of tumor formation in TGF-iPSCs was titratable,depending on the oncogenic load,with reintegration of the cMYC expressing vector abolishing tumor-free transplantation. Thus,transgene-free cMYC-independent reprogramming and elimination of residual pluripotent cells are mandatory steps in achieving transplantation of iPSC progeny for customized and safe islet regeneration in vivo. STEM CELLS TRANSLATIONAL MEDICINE 2016;5:694–702 SIGNIFICANCE Pluripotent stem cell therapy for diabetes relies on the safety as well as the quality of derived insulin-producing cells. Data from this study highlight prominent tumorigenic risks of induced pluripotent stem cell (iPSC) products,especially when reprogrammed with integrating vectors. Two major under-lying mechanisms in iPSC tumorigenicity are residual pluripotent cells and cMYC overload by vector integration. This study also demonstrated that combined transgene-free reprogramming and enzy-matic dissociation allows teratoma-free transplantation of iPSC progeny in the mouse model in test-ing the tumorigenicity of iPSC products. Further safety assessment and improvement in iPSC specification into a mature b cell phenotype would lead to safe islet replacement therapy for diabetes.
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Wang X et al. (NOV 2011)
Lab on a chip 11 21 3656--3662
Enhanced cell sorting and manipulation with combined optical tweezer and microfluidic chip technologies.
Sorting (or isolation) and manipulation of rare cells with high recovery rate and purity are of critical importance to a wide range of physiological applications. In the current paper,we report on a generic single cell manipulation tool that integrates optical tweezers and microfluidic chip technologies for handling small cell population sorting with high accuracy. The laminar flow nature of microfluidics enables the targeted cells to be focused on a desired area for cell isolation. To recognize the target cells,we develop an image processing methodology with a recognition capability of multiple features,e.g.,cell size and fluorescence label. The target cells can be moved precisely by optical tweezers to the desired destination in a noninvasive manner. The unique advantages of this sorter are its high recovery rate and purity in small cell population sorting. The design is based on dynamic fluid and dynamic light pattern,in which single as well as multiple laser traps are employed for cell transportation,and a recognition capability of multiple cell features. Experiments of sorting yeast cells and human embryonic stem cells are performed to demonstrate the effectiveness of the proposed cell sorting approach.
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