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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70024
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产品名:
StemSpan™ SFEM
StemSpan™ SFEM
冻存的人外周血Pan T细胞
冻存的人外周血Pan T细胞
mTeSR™1
mTeSR™1
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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05850
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mTeSR™1
mTeSR™1
Nä et al. (NOV 2013)
PLoS ONE 8 11 e78847
Continuous Hypoxic Culturing of Human Embryonic Stem Cells Enhances SSEA-3 and MYC Levels
Low oxygen tension (hypoxia) contributes critically to pluripotency of human embryonic stem cells (hESCs) by preventing spontaneous differentiation and supporting self-renewal. However,it is not well understood how hESCs respond to reduced oxygen availability and what are the molecular mechanisms maintaining pluripotency in these conditions. In this study we characterized the transcriptional and molecular responses of three hESC lines (H9,HS401 and HS360) on short (2 hours),intermediate (24 hours) and prolonged (7 days) exposure to low oxygen conditions (4% O2). In response to prolonged hypoxia the expression of pluripotency surface marker SSEA-3 was increased. Furthermore,the genome wide gene-expression analysis revealed that a substantial proportion (12%) of all hypoxia-regulated genes in hESCs,were directly linked to the mechanisms controlling pluripotency or differentiation. Moreover,transcription of MYC oncogene was induced in response to continuous hypoxia. At the protein level MYC was stabilized through phosphorylation already in response to a short hypoxic exposure. Total MYC protein levels remained elevated throughout all the time points studied. Further,MYC protein expression in hypoxia was affected by silencing HIF2α,but not HIF1α. Since MYC has a crucial role in regulating pluripotency we propose that induction of sustained MYC expression in hypoxia contributes to activation of transcriptional programs critical for hESC self-renewal and maintenance of enhanced pluripotent state.
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05850
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36254
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DMEM/F-12 with 15 mM HEPES
mTeSR™1
mTeSR™1
Warmflash A et al. (AUG 2014)
Nature methods 11 8 847--54
A method to recapitulate early embryonic spatial patterning in human embryonic stem cells.
Embryos allocate cells to the three germ layers in a spatially ordered sequence. Human embryonic stem cells (hESCs) can generate the three germ layers in culture; however,differentiation is typically heterogeneous and spatially disordered. We show that geometric confinement is sufficient to trigger self-organized patterning in hESCs. In response to BMP4,colonies reproducibly differentiated to an outer trophectoderm-like ring,an inner ectodermal circle and a ring of mesendoderm expressing primitive-streak markers in between. Fates were defined relative to the boundary with a fixed length scale: small colonies corresponded to the outer layers of larger ones. Inhibitory signals limited the range of BMP4 signaling to the colony edge and induced a gradient of Activin-Nodal signaling that patterned mesendodermal fates. These results demonstrate that the intrinsic tendency of stem cells to make patterns can be harnessed by controlling colony geometries and provide a quantitative assay for studying paracrine signaling in early development.
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mTeSR™1
mTeSR™1
Du L et al. (MAY 2016)
Journal of applied toxicology : JAT 36 5 659--668
BDE-209 inhibits pluripotent genes expression and induces apoptosis in human embryonic stem cells.
Decabromodiphenyl ether (BDE-209) has been detected in human serum,semen,placenta,cord blood and milk worldwide. However,little is known regarding the potential effects on the early human embryonic development of BDE-209. In this study,human embryonic stem cell lines FY-hES-10 and FY-hES-26 were used to evaluate the potential effects and explore the toxification mechanisms using low-level BDE-209 exposure. Our data showed that BDE-209 exposure (1,10 and 100 nM) reduced the expression of pluripotent genes such as OCT4,SOX2 and NANOG and induced human embryonic stem cells (hESCs) apoptosis. The downregulation of BIRC5/BCL2 and upregulation of BAX were related to apoptosis of hESCs induced by BDE-209 exposure. A mechanism study showed that OCT4 down-regulation accompanied by OCT4 promoter hypermethylation and increasing miR-145/miR-335 levels,OCT4 inhibitors. Moreover,BDE-209 could increase the generation of intracellular reactive oxygen species (ROS) and decrease SOD2 expression. The ROS increase and OCT4 downregulation after BDE-209 exposure could be reversed partly by antioxidant N-acetylcysteine supplement. These findings showed that BDE-209 exposure could decrease pluripotent genes expression via epigenetic regulation and induce apoptosis through ROS generation in human embryonic stem cells in vitro.
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mTeSR™1
mTeSR™1
Vegas AJ et al. (MAR 2016)
Nature medicine 22 3 306--311
Long-term glycemic control using polymer-encapsulated human stem cell-derived beta cells in immune-competent mice.
The transplantation of glucose-responsive,insulin-producing cells offers the potential for restoring glycemic control in individuals with diabetes. Pancreas transplantation and the infusion of cadaveric islets are currently implemented clinically,but these approaches are limited by the adverse effects of immunosuppressive therapy over the lifetime of the recipient and the limited supply of donor tissue. The latter concern may be addressed by recently described glucose-responsive mature beta cells that are derived from human embryonic stem cells (referred to as SC-$\$),which may represent an unlimited source of human cells for pancreas replacement therapy. Strategies to address the immunosuppression concerns include immunoisolation of insulin-producing cells with porous biomaterials that function as an immune barrier. However,clinical implementation has been challenging because of host immune responses to the implant materials. Here we report the first long-term glycemic correction of a diabetic,immunocompetent animal model using human SC-$\$ SC-$\$ were encapsulated with alginate derivatives capable of mitigating foreign-body responses in vivo and implanted into the intraperitoneal space of C57BL/6J mice treated with streptozotocin,which is an animal model for chemically induced type 1 diabetes. These implants induced glycemic correction without any immunosuppression until their removal at 174 d after implantation. Human C-peptide concentrations and in vivo glucose responsiveness demonstrated therapeutically relevant glycemic control. Implants retrieved after 174 d contained viable insulin-producing cells.
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05850
05857
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mTeSR™1
mTeSR™1
Yabe S et al. (MAY 2016)
Proceedings of the National Academy of Sciences of the United States of America 113 19 E2598----607
Comparison of syncytiotrophoblast generated from human embryonic stem cells and from term placentas.
Human embryonic stem cells (ESCs) readily commit to the trophoblast lineage after exposure to bone morphogenetic protein-4 (BMP-4) and two small compounds,an activin A signaling inhibitor and a FGF2 signaling inhibitor (BMP4/A83-01/PD173074; BAP treatment). During differentiation,areas emerge within the colonies with the biochemical and morphological features of syncytiotrophoblast (STB). Relatively pure fractions of mononucleated cytotrophoblast (CTB) and larger syncytial sheets displaying the expected markers of STB can be obtained by differential filtration of dispersed colonies through nylon strainers. RNA-seq analysis of these fractions has allowed them to be compared with cytotrophoblasts isolated from term placentas before and after such cells had formed syncytia. Although it is clear from extensive gene marker analysis that both ESC- and placenta-derived syncytial cells are trophoblast,each with the potential to transport a wide range of solutes and synthesize placental hormones,their transcriptome profiles are sufficiently dissimilar to suggest that the two cell types have distinct pedigrees and represent functionally different kinds of STB. We propose that the STB generated from human ESCs represents the primitive syncytium encountered in early pregnancy soon after the human trophoblast invades into the uterine wall.
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mTeSR™1
mTeSR™1
Singh AM et al. (APR 2016)
Methods in molecular biology (Clifton,N.J.)
Decoding the Epigenetic Heterogeneity of Human Pluripotent Stem Cells with Seamless Gene Editing.
Pluripotent stem cells exhibit cell cycle-regulated heterogeneity for trimethylation of histone-3 on lysine-4 (H3K4me3) on developmental gene promoters containing bivalent epigenetic domains. The heterogeneity of H3K4me3 can be attributed to Cyclin-dependent kinase-2 (CDK2) phosphorylation and activation of the histone methyltransferase,MLL2 (KMT2B),during late-G1. The deposition of H3K4me3 on developmental promoters in late-G1 establishes a permissive chromatin architecture that enables signaling cues to promote differentiation from the G1 phase. These data suggest that the inhibition of MLL2 phosphorylation and activation will prevent the initiation of differentiation. Here,we describe a method to seamlessly modify a putative CDK2 phosphorylation site on MLL2 to restrict its phosphorylation and activation. Specifically,by utilizing dimeric CRISPR RNA-guided nucleases,RFNs (commercially known as the NextGEN™ CRISPR),in combination with an excision-only piggyBac™ transposase,we demonstrate how to generate a point mutation of threonine-542,a predicted site to prevent MLL2 activation. This gene editing method enables the use of both positive and negative selection,and allows for subsequent removal of the donor cassette without leaving behind any unwanted DNA sequences or modifications. This seamless donor-excision" approach provides clear advantages over using single stranded oligo-deoxynucleotides (ssODN) as donors to create point mutations�
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mTeSR™1
mTeSR™1
Stingl J et al. (MAY 2001)
Breast cancer research and treatment 67 2 93--109
Characterization of bipotent mammary epithelial progenitor cells in normal adult human breast tissue.
The purpose of the present study was to characterize primitive epithelial progenitor populations present in adult normal human mammary tissue using a combination of flow cytometry and in vitro colony assay procedures. Three types of human breast epithelial cell (HBEC) progenitors were identified: luminal-restricted,myoepithelial-restricted and bipotent progenitors. The first type expressed epithelial cell adhesion molecule (EpCAM),alpha6 integrin and MUC1 and generated colonies composed exclusively of cells positive for the luminal-associated markers keratin 8/18,keratin 19,EpCAM and MUC1. Bipotent progenitors produced colonies containing a central core of cells expressing luminal markers surrounded by keratin 14+ myoepithelial-like cells. Single cell cultures confirmed the bipotentiality of these progenitors. Their high expression of alpha6 integrin and low expression of MUC1 suggests a basal position of these cells in the mammary epithelium in vivo. Serial passage in vitro of an enriched population of bipotent progenitors demonstrated that only myoepithelial-restricted progenitors could be readily generated under the culture conditions used. These results support a hierarchical branching model of HBEC progenitor differentiation from a primitive uncommitted cell to luminal- and myoepithelial-restricted progenitors.
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产品号#:
01700
01705
05601
05610
01420
01421
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ALDEFLUOR™ 试剂盒
ALDEFLUOR™ DEAB试剂
EpiCult™-B 人培养基
EpiCult™-B 小鼠培养基试剂盒
Son M-Y et al. (JAN 2017)
Stem cells and development 26 2 133--145
Biomarker Discovery by Modeling Behçet's Disease with Patient-Specific Human Induced Pluripotent Stem Cells.
Behçet's disease (BD) is a chronic inflammatory and multisystemic autoimmune disease of unknown etiology. Due to the lack of a specific test for BD,its diagnosis is very difficult and therapeutic options are limited. Induced pluripotent stem cell (iPSC) technology,which provides inaccessible disease-relevant cell types,opens a new era for disease treatment. In this study,we generated BD iPSCs from patient somatic cells and differentiated them into hematopoietic precursor cells (BD iPSC-HPCs) as BD model cells. Based on comparative transcriptome analysis using our BD model cells,we identified eight novel BD-specific genes,AGTR2,CA9,CD44,CXCL1,HTN3,IL-2,PTGER4,and TSLP,which were differentially expressed in BD patients compared with healthy controls or patients with other immune diseases. The use of CXCL1 as a BD biomarker was further validated at the protein level using both a BD iPSC-HPC-based assay system and BD patient serum samples. Furthermore,we show that our BD iPSC-HPC-based drug screening system is highly effective for testing CXCL1 BD biomarkers,as determined by monitoring the efficacy of existing anti-inflammatory drugs. Our results shed new light on the usefulness of patient-specific iPSC technology in the development of a benchmarking platform for disease-specific biomarkers,phenotype- or target-driven drug discovery,and patient-tailored therapies.
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mTeSR™1
mTeSR™1
O'Brien CM et al. (DEC 2016)
Stem cells (Dayton,Ohio)
New Monoclonal Antibodies to Defined Cell Surface Proteins on Human Pluripotent Stem Cells.
The study and application of human pluripotent stem cells (hPSCs) will be enhanced by the availability of well-characterised monoclonal antibodies (mAbs) detecting cell-surface epitopes. Here we report generation of seven new mAbs that detect cell surface proteins present on live and fixed human ES cells (hESCs) and human iPS cells (hiPSCs),confirming our previous prediction that these proteins were present on the cell surface of hPSCs. The mAbs all show a high correlation with POU5F1 (OCT4) expression and other hPSC surface markers (TRA-160 and SSEA-4) in hPSC cultures and detect rare OCT4 positive cells in differentiated cell cultures. These mAbs are immunoreactive to cell surface protein epitopes on both primed and naive state hPSCs,providing useful research tools to investigate the cellular mechanisms underlying human pluripotency and states of cellular reprogramming. In addition,we report that subsets of the seven new mAbs are also immunoreactive to human bone marrow-derived mesenchymal stem cells (MSCs),normal human breast subsets and both normal and tumorigenic colorectal cell populations. The mAbs reported here should accelerate the investigation of the nature of pluripotency,and enable development of robust cell separation and tracing technologies to enrich or deplete for hPSCs and other human stem and somatic cell types. This article is protected by copyright. All rights reserved.
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产品号#:
05970
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Zhao H et al. (JUN 2009)
Blood 113 23 5747--56
Amelioration of murine beta-thalassemia through drug selection of hematopoietic stem cells transduced with a lentiviral vector encoding both gamma-globin and the MGMT drug-resistance gene.
Correction of murine models of beta-thalassemia has been achieved through high-level globin lentiviral vector gene transfer into mouse hematopoietic stem cells (HSCs). However,transduction of human HSCs is less robust and may be inadequate to achieve therapeutic levels of genetically modified erythroid cells. We therefore developed a double gene lentiviral vector encoding both human gamma-globin under the transcriptional control of erythroid regulatory elements and methylguanine methyltransferase (MGMT),driven by a constitutive cellular promoter. MGMT expression provides cellular resistance to alkylator drugs,which can be administered to kill residual untransduced,diseased HSCs,whereas transduced cells are protected. Mice transplanted with beta-thalassemic HSCs transduced with a gamma-globin/MGMT vector initially had subtherapeutic levels of red cells expressing gamma-globin. To enrich gamma-globin-expressing cells,transplanted mice were treated with the alkylator agent 1,3-bis-chloroethyl-1-nitrosourea. This resulted in significant increases in the number of gamma-globin-expressing red cells and the amount of fetal hemoglobin,leading to resolution of anemia. Selection of transduced HSCs was also obtained when cells were drug-treated before transplantation. Mice that received these cells demonstrated reconstitution with therapeutic levels of gamma-globin-expressing cells. These data suggest that MGMT-based drug selection holds promise as a modality to improve gene therapy for beta-thalassemia.
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EasySep™小鼠TIL(CD45)正选试剂盒
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