Moussaieff A et al. (MAR 2015)
Cell Metabolism 21 3 392--402
Glycolysis-mediated changes in acetyl-CoA and histone acetylation control the early differentiation of embryonic stem cells
Loss of pluripotency is a gradual event whose initiating factors are largely unknown. Here we report the earliest metabolic changes induced during the first hours of differentiation. High-resolution NMR identified 44 metabolites and a distinct metabolic transition occurring during early differentiation. Metabolic and transcriptional analyses showed that pluripotent cells produced acetyl-CoA through glycolysis and rapidly lost this function during differentiation. Importantly,modulation of glycolysis blocked histone deacetylation and differentiation in human and mouse embryonic stem cells. Acetate,a precursor of acetyl-CoA,delayed differentiation and blocked early histone deacetylation in a dose-dependent manner. Inhibitors upstream of acetyl-CoA caused differentiation of pluripotent cells,while those downstream delayed differentiation. Our results show a metabolic switch causing a loss of histone acetylation and pluripotent state during the first hours of differentiation. Our data highlight the important role metabolism plays in pluripotency and suggest that a glycolytic switch controlling histone acetylation can release stem cells from pluripotency.
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Briggs SF et al. (JUN 2015)
Stem Cells 33 6 1771--1781
Single-Cell XIST Expression in Human Preimplantation Embryos and Newly Reprogrammed Female Induced Pluripotent Stem Cells.
The process of X chromosome inactivation (XCI) during reprogramming to produce human induced pluripotent stem cells (iPSCs),as well as during the extensive programming that occurs in human preimplantation development,is not well-understood. Indeed,studies of XCI during reprogramming to iPSCs report cells with two active X chromosomes and/or cells with one inactive X chromosome. Here,we examine expression of the long noncoding RNA,XIST,in single cells of human embryos through the oocyte-to-embryo transition and in new mRNA reprogrammed iPSCs. We show that XIST is first expressed beginning at the 4-cell stage,coincident with the onset of embryonic genome activation in an asynchronous manner. Additionally,we report that mRNA reprogramming produces iPSCs that initially express XIST transcript; however,expression is rapidly lost with culture. Loss of XIST and H3K27me3 enrichment at the inactive X chromosome at late passage results in X chromosome expression changes. Our data may contribute to applications in disease modeling and potential translational applications of female stem cells.
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Diekmann U and Naujok O ( 2016)
1341 157--172
Generation and purification of definitive endoderm cells generated from pluripotent stem cells
Differentiation of pluripotent stem cells into cells of the definitive endoderm requires an in vitro gastrulation event. Differentiated somatic cells derived from this germ layer may then be used for cell replacement therapies of degenerative diseases of the liver,lung,and pancreas. Here we describe an endoderm differentiation protocol,which initiates the differentiation from a defined cell number of dispersed single cells and reliably yields in textgreater70-80 % endoderm-committed cells in a short 5-day treatment regimen.
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Ye L et al. ( 2015)
1299 103--114
Fabrication of a myocardial patch with cells differentiated from human-induced pluripotent stem cells
The incidence of cardiovascular disease represents a significant and growing health-care challenge to the developed and developing world. The ability of native heart muscle to regenerate in response to myocardial infarct is minimal. Tissue engineering and regenerative medicine approaches represent one promising response to this difficulty. Here,we present methods for the construction of a cell-seeded cardiac patch with the potential to promote regenerative outcomes in heart muscle with damage secondary to myocardial infarct. This method leverages iPS cells and a fibrin-based scaffold to create a simple and commercially viable tissue-engineered cardiac patch. Human-induced pluripotent stem cells (hiPSCs) can,in principle,be differentiated into cells of any lineage. However,most of the protocols used to generate hiPSC-derived endothelial cells (ECs) and cardiomyocytes (CMs) are unsatisfactory because the yield and phenotypic stability of the hiPSC-ECs are low,and the hiPSC-CMs are often purified via selection for expression of a promoter-reporter construct. In this chapter,we describe an hiPSC-EC differentiation protocol that generates large numbers of stable ECs and an hiPSC-CM differentiation protocol that does not require genetic manipulation,single-cell selection,or sorting with fluorescent dyes or other reagents. We also provide a simple but effective method that can be used to combine hiPSC-ECs and hiPSC-CMs with hiPSC-derived smooth muscle cells to engineer a contracting patch of cardiac cells.
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Douvaras P and Fossati V (AUG 2015)
Nature protocols 10 8 1143--1154
Generation and isolation of oligodendrocyte progenitor cells from human pluripotent stem cells.
In the CNS,oligodendrocytes act as the myelinating cells. Oligodendrocytes have been identified to be key players in several neurodegenerative disorders. This protocol describes a robust,fast and reproducible differentiation protocol to generate human oligodendrocytes from pluripotent stem cells (PSCs) using a chemically defined,growth factor-rich medium. Within 8 d,PSCs differentiate into paired box 6-positive (PAX6(+)) neural stem cells,which give rise to OLIG2(+) progenitors by day 12. Oligodendrocyte lineage transcription factor 2-positive (OLIG2(+)) cells begin to express the transcription factor NKX2.2 around day 18,followed by SRY-box 10 (SOX10) around day 40. Oligodendrocyte progenitor cells (OPCs) that are positive for the cell surface antigen recognized by the O4 antibody (O4(+)) appear around day 50 and reach,on average,43% of the cell population after 75 d of differentiation. O4(+) OPCs can be isolated by cell sorting for myelination studies,or they can be terminally differentiated to myelin basic protein-positive (MBP(+)) oligodendrocytes. This protocol also describes an alternative strategy for markedly reducing the length and the costs of the differentiation and generating ∼30% O4(+) cells after only 55 d of culture.
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Jiang B et al. (OCT 2015)
Biomaterials 65 103--114
Generation of cardiac spheres from primate pluripotent stem cells in a small molecule-based 3D system.
Pluripotent stem cell (PSC) usage in heart regenerative medicine requires producing enriched cardiomyocytes (CMs) with mature phenotypes in a defined medium. However,current methods are typically performed in 2D environments that produce immature CMs. Here we report a simple,growth factor-free 3D culture system to rapidly and efficiently generate 85.07 ± 1.8% of spontaneously contractile cardiac spheres (scCDSs) using 3D-cultured human and monkey PSC-spheres. Along with small molecule-based 3D induction,this protocol produces CDSs of up to 95.7% CMs at a yield of up to 237 CMs for every input pluripotent cell,is effective for human and monkey PSCs,and maintains 81.03 ± 12.43% of CDSs in spontaneous contractibility for over three months. These CDSs displayed CM ultrastructure,calcium transient,appropriate pharmacological responses and CM gene expression profiles specific for maturity. Furthermore,3D-derived CMs displayed more mature phenotypes than those from a parallel 2D-culture. The system is compatible to large-scaly produce CMs for disease study,cell therapy and pharmaceutics screening.
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Dispase (1 U/mL)
mTeSR™1
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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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Liang D et al. ( 2015)
Endocrine journal 62 10 907--920
Embryonic stem cell-derived pancreatic endoderm transplant with MCT1-suppressing miR-495 attenuates type II diabetes in mice.
Type 2 diabetes mellitus (T2D) is a chronic metabolic disorder resulting from defects in both insulin secretion and insulin activity. The deficit and dysfunction of insulin secreting $\$-cells are signature symptoms of T2D. Additionally,in pancreatic $\$-cells,a small group of genes that are abundantly expressed in most other tissues is highly selectively repressed. Monocarboxylate transporter 1 (MCT1) is one of these genes. In this study,we identified an MCT1-suppressing microRNA (hsa-miR-495) and used this microRNA together with human embryonic stem cell (hESC) derived pancreatic endoderm (PE) cells transplanted into a high-fat diet induced T2D mouse model. Glucose metabolism significantly improved and other symptoms of T2D were attenuated after the procedure. Our findings support the potential for T2D treatment using the combination of microRNA and hESC differentiated PE cells.
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Gonzales KAU et al. (JUL 2015)
Cell 162 3 564--579
Deterministic Restriction on Pluripotent State Dissolution by Cell-Cycle Pathways.
During differentiation,human embryonic stem cells (hESCs) shut down the regulatory network conferring pluripotency in a process we designated pluripotent state dissolution (PSD). In a high-throughput RNAi screen using an inclusive set of differentiation conditions,we identify centrally important and context-dependent processes regulating PSD in hESCs,including histone acetylation,chromatin remodeling,RNA splicing,and signaling pathways. Strikingly,we detected a strong and specific enrichment of cell-cycle genes involved in DNA replication and G2 phase progression. Genetic and chemical perturbation studies demonstrate that the S and G2 phases attenuate PSD because they possess an intrinsic propensity toward the pluripotent state that is independent of G1 phase. Our data therefore functionally establish that pluripotency control is hardwired to the cell-cycle machinery,where S and G2 phase-specific pathways deterministically restrict PSD,whereas the absence of such pathways in G1 phase potentially permits the initiation of differentiation.
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Dispase (1 U/mL)
LY294002
LY294002
mTeSR™1
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Pei Y et al. (MAY 2016)
Brain research 1638 Pt A 57--73
Comparative neurotoxicity screening in human iPSC-derived neural stem cells, neurons and astrocytes.
Induced pluripotent stem cells (iPSC) and their differentiated derivatives offer a unique source of human primary cells for toxicity screens. Here,we report on the comparative cytotoxicity of 80 compounds (neurotoxicants,developmental neurotoxicants,and environmental compounds) in iPSC as well as isogenic iPSC-derived neural stem cells (NSC),neurons,and astrocytes. All compounds were tested over a 24-h period at 10 and 100$\$,in duplicate,with cytotoxicity measured using the MTT assay. Of the 80 compounds tested,50 induced significant cytotoxicity in at least one cell type; per cell type,32,38,46,and 41 induced significant cytotoxicity in iPSC,NSC,neurons,and astrocytes,respectively. Four compounds (valinomycin,3,3',5,5'-tetrabromobisphenol,deltamethrin,and triphenyl phosphate) were cytotoxic in all four cell types. Retesting these compounds at 1,10,and 100$\$ using the same exposure protocol yielded consistent results as compared with the primary screen. Using rotenone,we extended the testing to seven additional iPSC lines of both genders; no substantial difference in the extent of cytotoxicity was detected among the cell lines. Finally,the cytotoxicity assay was simplified by measuring luciferase activity using lineage-specific luciferase reporter iPSC lines which were generated from the parental iPSC line. This article is part of a Special Issue entitled SI: PSC and the brain.
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Zhang P-WW et al. (JAN 2016)
Glia 64 1 63--75
Generation of GFAP::GFP astrocyte reporter lines from human adult fibroblast-derived iPS cells using zinc-finger nuclease technology.
Astrocytes are instrumental to major brain functions,including metabolic support,extracellular ion regulation,the shaping of excitatory signaling events and maintenance of synaptic glutamate homeostasis. Astrocyte dysfunction contributes to numerous developmental,psychiatric and neurodegenerative disorders. The generation of adult human fibroblast-derived induced pluripotent stem cells (iPSCs) has provided novel opportunities to study mechanisms of astrocyte dysfunction in human-derived cells. To overcome the difficulties of cell type heterogeneity during the differentiation process from iPSCs to astroglial cells (iPS astrocytes),we generated homogenous populations of iPS astrocytes using zinc-finger nuclease (ZFN) technology. Enhanced green fluorescent protein (eGFP) driven by the astrocyte-specific glial fibrillary acidic protein (GFAP) promoter was inserted into the safe harbor adeno-associated virus integration site 1 (AAVS1) locus in disease and control-derived iPSCs. Astrocyte populations were enriched using Fluorescence Activated Cell Sorting (FACS) and after enrichment more than 99% of iPS astrocytes expressed mature astrocyte markers including GFAP,S100$\$,NFIA and ALDH1L1. In addition,mature pure GFP-iPS astrocytes exhibited a well-described functional astrocytic activity in vitro characterized by neuron-dependent regulation of glutamate transporters to regulate extracellular glutamate concentrations. Engraftment of GFP-iPS astrocytes into rat spinal cord grey matter confirmed in vivo cell survival and continued astrocytic maturation. In conclusion,the generation of GFAP::GFP-iPS astrocytes provides a powerful in vitro and in vivo tool for studying astrocyte biology and astrocyte-driven disease pathogenesis and therapy.
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STEMdiff™ 神经诱导培养基
STEMdiff™ 神经诱导培养基
STEMdiff™SMADi神经诱导试剂盒
STEMdiff™SMADi神经诱导试剂盒,2套
Cassidy L et al. (MAY 2013)
Journal of Biomarkers 2013 3 1--7
Immunoreactivity of Pluripotent Markers SSEA-5 and L1CAM in Human Tumors, Teratomas, and Induced Pluripotent Stem Cells
Pluripotent stem cell markers can be useful for diagnostic evaluation of human tumors. The novel pluripotent marker stage-specific embryonic antigen-5 (SSEA-5) is expressed in undifferentiated human induced pluripotent cells (iPSCs),but little is known about SSEA-5 expression in other primitive tissues (e.g.,human tumors). We evaluated SSEA-5 immunoreactivity patterns in human tumors,cell lines,teratomas,and iPS cells together with another pluripotent cell surface marker L1 cell adhesion molecule (L1CAM). We tested two hypotheses: (1) SSEA-5 and L1CAM would be immunoreactive and colocalized in human tumors; (2) SSEA-5 and L1CAM immunoreactivity would persist in iPSCs following retinal differentiating treatment. SSEA-5 immunofluorescence was most pronounced in primitive tumors,such as embryonal carcinoma. In tumor cell lines,SSEA-5 was highly immunoreactive in Capan-1 cells,while L1CAM was highly immunoreactive in U87MG cells. SSEA-5 and L1CAM showed colocalization in undifferentiated iPSCs,with immunopositive iPSCs remaining after 20 days of retinal differentiating treatment. This is the first demonstration of SSEA-5 immunoreactivity in human tumors and the first indication of SSEA-5 and L1CAM colocalization. SSEA-5 and L1CAM warrant further investigation as potentially useful tumor markers for histological evaluation or as markers to monitor the presence of undifferentiated cells in iPSC populations prior to therapeutic use.
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