Felgentreff K et al. (JUN 2014)
Proceedings of the National Academy of Sciences of the United States of America 111 24 8889--94
Differential role of nonhomologous end joining factors in the generation, DNA damage response, and myeloid differentiation of human induced pluripotent stem cells.
Nonhomologous end-joining (NHEJ) is a key pathway for efficient repair of DNA double-strand breaks (DSBs) and V(D)J recombination. NHEJ defects in humans cause immunodeficiency and increased cellular sensitivity to ionizing irradiation (IR) and are variably associated with growth retardation,microcephaly,and neurodevelopmental delay. Repair of DNA DSBs is important for reprogramming of somatic cells into induced pluripotent stem cells (iPSCs). To compare the specific contribution of DNA ligase 4 (LIG4),Artemis,and DNA-protein kinase catalytic subunit (PKcs) in this process and to gain insights into phenotypic variability associated with these disorders,we reprogrammed patient-derived fibroblast cell lines with NHEJ defects. Deficiencies of LIG4 and of DNA-PK catalytic activity,but not Artemis deficiency,were associated with markedly reduced reprogramming efficiency,which could be partially rescued by genetic complementation. Moreover,we identified increased genomic instability in LIG4-deficient iPSCs. Cell cycle synchronization revealed a severe defect of DNA repair and a G0/G1 cell cycle arrest,particularly in LIG4- and DNA-PK catalytically deficient iPSCs. Impaired myeloid differentiation was observed in LIG4-,but not Artemis- or DNA-PK-mutated iPSCs. These results indicate a critical importance of the NHEJ pathway for somatic cell reprogramming,with a major role for LIG4 and DNA-PKcs and a minor,if any,for Artemis.
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ACCUTASE™
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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Bouchi R et al. (JAN 2014)
Nature communications 5 4242
FOXO1 inhibition yields functional insulin-producing cells in human gut organoid cultures.
Generation of surrogate sources of insulin-producing β-cells remains a goal of diabetes therapy. While most efforts have been directed at differentiating embryonic or induced pluripotent stem (iPS) cells into β-like-cells through endodermal progenitors,we have shown that gut endocrine progenitor cells of mice can be differentiated into glucose-responsive,insulin-producing cells by ablation of transcription factor Foxo1. Here we show that FOXO1 is present in human gut endocrine progenitor and serotonin-producing cells. Using gut organoids derived from human iPS cells,we show that FOXO1 inhibition using a dominant-negative mutant or lentivirus-encoded small hairpin RNA promotes generation of insulin-positive cells that express all markers of mature pancreatic β-cells,release C-peptide in response to secretagogues and survive in vivo following transplantation into mice. The findings raise the possibility of using gut-targeted FOXO1 inhibition or gut organoids as a source of insulin-producing cells to treat human diabetes.
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STEMdiff™定型内胚层检测试剂盒
mTeSR™1
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Zhou X et al. (JUL 2014)
Stem Cell Reports 3 1 204--214
Modulating innate immunity improves hepatitis C virus infection and replication in stem cell-derived hepatocytes
In this study,human embryonic stem cell-derived hepatocytes (hESC-Heps) were investigated for their ability to support hepatitis C virus (HCV) infection and replication. hESC-Heps were capable of supporting the full viral life cycle,including the release of infectious virions. Although supportive,hESC-Hep viral infection levels were not as great as those observed in Huh7 cells. We reasoned that innate immune responses in hESC-Heps may lead to the low level of infection and replication. Upon further investigation,we identified a strong type III interferon response in hESC-Heps that was triggered by HCV. Interestingly,specific inhibition of the JAK/STAT signaling pathway led to an increase in HCV infection and replication in hESC-Heps. Of note,the interferon response was not evident in Huh7 cells. In summary,we have established a robust cell-based system that allows the in-depth study of virus-host interactions in vitro. ?? 2014 The Authors.
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Tani H et al. (AUG 2014)
PloS one 9 8 e106282
Long non-coding RNAs as surrogate indicators for chemical stress responses in human-induced pluripotent stem cells.
In this study,we focused on two biological products as ideal tools for toxicological assessment: long non-coding RNAs (lncRNAs) and human-induced pluripotent stem cells (hiPSCs). lncRNAs are an important class of pervasive non-protein-coding transcripts involved in the molecular mechanisms associated with responses to cellular stresses. hiPSCs possess the capabilities of self-renewal and differentiation into multiple cell types,and they are free of the ethical issues associated with human embryonic stem cells. Here,we identified six novel lncRNAs (CDKN2B-AS1,MIR22HG,GABPB1-AS1,FLJ33630,LINC00152,and LINC0541471v2) that respond to model chemical stresses (cycloheximide,hydrogen peroxide,cadmium,or arsenic) in hiPSCs. Our results indicated that the lncRNAs responded to general and specific chemical stresses. Compared with typical mRNAs such as p53-related mRNAs,the lncRNAs highly and rapidly responded to chemical stresses. We propose that these lncRNAs have the potential to be surrogate indicators of chemical stress responses in hiPSCs.
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Schwarz N et al. (FEB 2015)
Human Molecular Genetics 24 4 972--986
Translational read-through of the RP2 Arg120stop mutation in patient iPSC-derived retinal pigment epithelium cells
Mutations in the RP2 gene lead to a severe form of X-linked retinitis pigmentosa. RP2 patients frequently present with nonsense mutations and no treatments are currently available to restore RP2 function. In this study,we reprogrammed fibroblasts from an RP2 patient carrying the nonsense mutation c.519CtextgreaterT (p.R120X) into induced pluripotent stem cells (iPSC),and differentiated these cells into retinal pigment epithelial cells (RPE) to study the mechanisms of disease and test potential therapies. RP2 protein was undetectable in the RP2 R120X patient cells,suggesting a disease mechanism caused by complete lack of RP2 protein. The RP2 patient fibroblasts and iPSC-derived RPE cells showed phenotypic defects in IFT20 localization,Golgi cohesion and G$\$1 trafficking. These phenotypes were corrected by over-expressing GFP-tagged RP2. Using the translational read-through inducing drugs (TRIDs) G418 and PTC124 (Ataluren),we were able to restore up to 20% of endogenous,full-length RP2 protein in R120X cells. This level of restored RP2 was sufficient to reverse the cellular phenotypic defects observed in both the R120X patient fibroblasts and iPSC-RPE cells. This is the first proof-of-concept study to demonstrate successful read-through and restoration of RP2 function for the R120X nonsense mutation. The ability of the restored RP2 protein level to reverse the observed cellular phenotypes in cells lacking RP2 indicates that translational read-through could be clinically beneficial for patients.
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Pijuan-Galitó et al. (NOV 2014)
Journal of Biological Chemistry 289 48 33492--33502
Serum Inter-$\$-inhibitor activates the Yes tyrosine kinase and YAP/TEAD transcriptional complex in mouse embryonic stem cells.
We have previously demonstrated that the Src family kinase Yes,the Yes-associated protein (YAP) and TEA domain TEAD2 transcription factor pathway are activated by leukemia inhibitory factor (LIF) and contribute to mouse embryonic stem (mES) cell maintenance of pluripotency and self-renewal. In addition,we have shown that fetal bovine serum (FBS) induces Yes auto-phosphorylation and activation. In the present study we confirm that serum also activates TEAD-dependent transcription in a time- and dose-dependent manner and we identify Inter-α-inhibitor (IαI) as a component in serum capable of activating the Yes/YAP/TEAD pathway by inducing Yes auto-phosphorylation,YAP nuclear localization and TEAD-dependent transcription. The cleaved heavy chain 2 (HC2) sub-component of IαI,is demonstrated to be responsible for this effect. Moreover,IαI is also shown to efficiently increase expression of TEAD-downstream target genes including well-known stem cell factors Nanog and Oct 3/4. IαI is not produced by the ES cells per se but is added to the cells via the cell culture medium containing serum or serum-derived components such as bovine serum albumin (BSA). In conclusion,we describe a novel function of IαI in activating key pluripotency pathways associated with ES cell maintenance and self-renewal.
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Watson CL et al. (NOV 2014)
Nature Medicine 20 11 1310--4
An in vivo model of human small intestine using pluripotent stem cells.
Differentiation of human pluripotent stem cells (hPSCs) into organ-specific subtypes offers an exciting avenue for the study of embryonic development and disease processes,for pharmacologic studies and as a potential resource for therapeutic transplant. To date,limited in vivo models exist for human intestine,all of which are dependent upon primary epithelial cultures or digested tissue from surgical biopsies that include mesenchymal cells transplanted on biodegradable scaffolds. Here,we generated human intestinal organoids (HIOs) produced in vitro from human embryonic stem cells (ESCs) or induced pluripotent stem cells (iPSCs) that can engraft in vivo. These HIOs form mature human intestinal epithelium with intestinal stem cells contributing to the crypt-villus architecture and a laminated human mesenchyme,both supported by mouse vasculature ingrowth. In vivo transplantation resulted in marked expansion and maturation of the epithelium and mesenchyme,as demonstrated by differentiated intestinal cell lineages (enterocytes,goblet cells,Paneth cells,tuft cells and enteroendocrine cells),presence of functional brush-border enzymes (lactase,sucrase-isomaltase and dipeptidyl peptidase 4) and visible subepithelial and smooth muscle layers when compared with HIOs in vitro. Transplanted intestinal tissues demonstrated digestive functions as shown by permeability and peptide uptake studies. Furthermore,transplanted HIO-derived tissue was responsive to systemic signals from the host mouse following ileocecal resection,suggesting a role for circulating factors in the intestinal adaptive response. This model of the human small intestine may pave the way for studies of intestinal physiology,disease and translational studies.
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mFreSR™
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McCracken KW et al. (DEC 2014)
Nature 516 7531 400--4
Modelling human development and disease in pluripotent stem-cell-derived gastric organoids.
Gastric diseases,including peptic ulcer disease and gastric cancer,affect 10% of the world's population and are largely due to chronic Helicobacter pylori infection. Species differences in embryonic development and architecture of the adult stomach make animal models suboptimal for studying human stomach organogenesis and pathogenesis,and there is no experimental model of normal human gastric mucosa. Here we report the de novo generation of three-dimensional human gastric tissue in vitro through the directed differentiation of human pluripotent stem cells. We show that temporal manipulation of the FGF,WNT,BMP,retinoic acid and EGF signalling pathways and three-dimensional growth are sufficient to generate human gastric organoids (hGOs). Developing hGOs progressed through molecular and morphogenetic stages that were nearly identical to the developing antrum of the mouse stomach. Organoids formed primitive gastric gland- and pit-like domains,proliferative zones containing LGR5-expressing cells,surface and antral mucous cells,and a diversity of gastric endocrine cells. We used hGO cultures to identify novel signalling mechanisms that regulate early endoderm patterning and gastric endocrine cell differentiation upstream of the transcription factor NEUROG3. Using hGOs to model pathogenesis of human disease,we found that H. pylori infection resulted in rapid association of the virulence factor CagA with the c-Met receptor,activation of signalling and induction of epithelial proliferation. Together,these studies describe a new and robust in vitro system for elucidating the mechanisms underlying human stomach development and disease.
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Pettinato G et al. (NOV 2014)
PLoS ONE 9 11 e100742
ROCK inhibitor is not required for embryoid body formation from singularized human embryonic stem cells
We report a technology to form human embryoid bodies (hEBs) from singularized human embryonic stem cells (hESCs) without the use of the p160 rho-associated coiled-coil kinase inhibitor (ROCKi) or centrifugation (spin). hEB formation was tested under four conditions: +ROCKi/+spin,+ROCKi/-spin,-ROCKi/+spin,and -ROCKi/-spin. Cell suspensions of BG01V/hOG and H9 hESC lines were pipetted into non-adherent hydrogel substrates containing defined microwell arrays. hEBs of consistent size and spherical geometry can be formed in each of the four conditions,including the -ROCKi/-spin condition. The hEBs formed under the -ROCKi/-spin condition differentiated to develop the three embryonic germ layers and tissues derived from each of the germ layers. This simplified hEB production technique offers homogeneity in hEB size and shape to support synchronous differentiation,elimination of the ROCKi xeno-factor and rate-limiting centrifugation treatment,and low-cost scalability,which will directly support automated,large-scale production of hEBs and hESC-derived cells needed for clinical,research,or therapeutic applications.
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Turner J et al. (NOV 2014)
PLoS ONE 9 11 e112757
Metabolic Profiling and Flux Analysis of MEL-2 Human Embryonic Stem Cells during Exponential Growth at Physiological and Atmospheric Oxygen Concentrations
As human embryonic stem cells (hESCs) steadily progress towards regenerative medicine applications there is an increasing emphasis on the development of bioreactor platforms that enable expansion of these cells to clinically relevant numbers. Surprisingly little is known about the metabolic requirements of hESCs,precluding the rational design and optimisation of such platforms. In this study,we undertook an in-depth characterisation of MEL-2 hESC metabolic behaviour during the exponential growth phase,combining metabolic profiling and flux analysis tools at physiological (hypoxic) and atmospheric (normoxic) oxygen concentrations. To overcome variability in growth profiles and the problem of closing mass balances in a complex environment,we developed protocols to accurately measure uptake and production rates of metabolites,cell density,growth rate and biomass composition,and designed a metabolic flux analysis model for estimating internal rates. hESCs are commonly considered to be highly glycolytic with inactive or immature mitochondria,however,whilst the results of this study confirmed that glycolysis is indeed highly active,we show that at least in MEL-2 hESC,it is supported by the use of oxidative phosphorylation within the mitochondria utilising carbon sources,such as glutamine to maximise ATP production. Under both conditions,glycolysis was disconnected from the mitochondria with all of the glucose being converted to lactate. No difference in the growth rates of cells cultured under physiological or atmospheric oxygen concentrations was observed nor did this cause differences in fluxes through the majority of the internal metabolic pathways associated with biogenesis. These results suggest that hESCs display the conventional Warburg effect,with high aerobic activity despite high lactate production,challenging the idea of an anaerobic metabolism with low mitochondrial activity. The results of this study provide new insight that can be used in rational bioreactor design and in the development of
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Schrenk-Siemens K et al. (JAN 2014)
Nature neuroscience 18 1 10--16
PIEZO2 is required for mechanotransduction in human stem cell-derived touch receptors.
Human sensory neurons are inaccessible for functional examination,and thus little is known about the mechanisms mediating touch sensation in humans. Here we demonstrate that the mechanosensitivity of human embryonic stem (hES) cell-derived touch receptors depends on PIEZO2. To recapitulate sensory neuron development in vitro,we established a multistep differentiation protocol and generated sensory neurons via the intermediate production of neural crest cells derived from hES cells or human induced pluripotent stem (hiPS) cells. The generated neurons express a distinct set of touch receptor-specific genes and convert mechanical stimuli into electrical signals,their most salient characteristic in vivo. Strikingly,mechanosensitivity is lost after CRISPR/Cas9-mediated PIEZO2 gene deletion. Our work establishes a model system that resembles human touch receptors,which may facilitate mechanistic analysis of other sensory subtypes and provide insight into developmental programs underlying sensory neuron diversity.
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