Park Y et al. (MAR 2014)
Journal of Biotechnology 174 1 39--48
Hepatic differentiation of human embryonic stem cells on microcarriers
Translation of stem cell research to industrial and clinical settings mostly requires large quantities of cells,especially those involving large organs such as the liver. A scalable reactor system is desirable to ensure a reliable supply of sufficient quantities of differentiated cells. To increase the culture efficiency in bioreactor system,high surface to volume ratio needs to be achieved. We employed a microcarrier culture system for the expansion of undifferentiated human embryonic stem cells (hESCs) as well as for directed differentiation of these cells to hepatocyte-like cells. Cells in single cell suspension were attached to the bead surface in even distribution and were expanded to 1??106cells/ml within 2 days of hESC culture with maintenance of the level of pluripotency markers. Directed differentiation into hepatocyte-like cells on microcarriers,both in static culture and stirred bioreactors,induced similar levels of hepatocyte-like cell differentiation as observed with cells cultured in conventional tissue culture plates. The cells expressed both immature and mature hepatocyte-lineage genes and proteins such as asialoglycoprotein receptor-1 (ASGPR-1) and albumin. Differentiated cells exhibited functional characteristics such as secretion of albumin and urea,and CYP3A4 activity could be detected. Microcarriers thus offer the potential for large-scale expansion and differentiation of hESCs induced hepatocyte-like cells in a more controllable bioreactor environment. ?? 2014.
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Liu B et al. (MAR 2014)
PLoS ONE 9 3 e90615
Nanog1 in NTERA-2 and recombinant NanogP8 from somatic cancer cells adopt multiple protein conformations and migrate at multiple M.W species
Human Nanog1 is a 305-amino acid (aa) homeodomain-containing transcription factor critical for the pluripotency of embryonic stem (ES) and embryonal carcinoma (EC) cells. Somatic cancer cells predominantly express a retrogene homolog of Nanog1 called NanogP8,which is ˜99% similar to Nanog at the aa level. Although the predicted M.W of Nanog1/NanogP8 is ∼35 kD,both have been reported to migrate,on Western blotting (WB),at apparent molecular masses of 29-80 kD. Whether all these reported protein bands represent authentic Nanog proteins is unclear. Furthermore,detailed biochemical studies on Nanog1/NanogpP8 have been lacking. By combining WB using 8 anti-Nanog1 antibodies,immunoprecipitation,mass spectrometry,and studies using recombinant proteins,here we provide direct evidence that the Nanog1 protein in NTERA-2 EC cells exists as multiple M.W species from ˜22 kD to 100 kD with a major 42 kD band detectable on WB. We then demonstrate that recombinant NanogP8 (rNanogP8) proteins made in bacteria using cDNAs from multiple cancer cells also migrate,on denaturing SDS-PAGE,at ˜28 kD to 180 kD. Interestingly,different anti-Nanog1 antibodies exhibit differential reactivity towards rNanogP8 proteins,which can spontaneously form high M.W protein species. Finally,we show that most long-term cultured cancer cell lines seem to express very low levels of or different endogenous NanogP8 protein that cannot be readily detected by immunoprecipitation. Altogether,the current study reveals unique biochemical properties of Nanog1 in EC cells and NanogP8 in somatic cancer cells.
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Sareen D et al. (AUG 2014)
Journal of Comparative Neurology 522 12 2707--2728
Human induced pluripotent stem cells are a novel source of neural progenitor cells (iNPCs) that migrate and integrate in the rodent spinal cord
Transplantation of human neural progenitor cells (NPCs) into the brain or spinal cord to replace lost cells,modulate the injury environment,or create a permissive milieu to protect and regenerate host neurons is a promising therapeutic strategy for neurological diseases. Deriving NPCs from human fetal tissue is feasible,although problematic issues include limited sources and ethical concerns. Here we describe a new and abundant source of NPCs derived from human induced pluripotent stem cells (iPSCs). A novel chopping technique was used to transform adherent iPSCs into free-floating spheres that were easy to maintain and were expandable (EZ spheres) (Ebert et al. [2013] Stem Cell Res 10:417–427). These EZ spheres could be differentiated towards NPC spheres with a spinal cord phenotype using a combination of all-trans retinoic acid (RA) and epidermal growth factor (EGF) and fibroblast growth factor-2 (FGF-2) mitogens. Suspension cultures of NPCs derived from human iPSCs or fetal tissue have similar characteristics,although they were not similar when grown as adherent cells. In addition,iPSC-derived NPCs (iNPCs) survived grafting into the spinal cord of athymic nude rats with no signs of overgrowth and with a very similar profile to human fetal-derived NPCs (fNPCs). These results suggest that human iNPCs behave like fNPCs and could thus be a valuable alternative for cellular regenerative therapies of neurological diseases. J. Comp. Neurol. 522:2707–2728,2014. textcopyright 2014 Wiley Periodicals,Inc.
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Radan L et al. (SEP 2014)
Stem cells and development 23 17 2046--2066
Microenvironmental Regulation of Telomerase Isoforms in Human Embryonic Stem Cells.
Recent evidence points to extra-telomeric,noncanonical roles for telomerase in regulating stem cell function. In this study,human embryonic stem cells (hESCs) were cultured in 20% or 2% O2 microenvironments for up to 5 days and evaluated for telomerase reverse transcriptase (TERT) expression and telomerase activity. Results showed increased cell survival and maintenance of the undifferentiated state with elevated levels of nuclear TERT in 2% O2-cultured hESCs despite no significant difference in telomerase activity compared with their high-O2-cultured counterparts. Pharmacological inhibition of telomerase activity using a synthetic tea catechin resulted in spontaneous hESC differentiation,while telomerase inhibition with a phosphorothioate oligonucleotide telomere mimic did not. Reverse transcription polymerase chain reaction (RT-PCR) analysis revealed variations in transcript levels of full-length and alternate splice variants of TERT in hESCs cultured under varying O2 atmospheres. Steric-blocking of Δα and Δβ hTERT splicing using morpholino oligonucleotides altered the hTERT splicing pattern and rapidly induced spontaneous hESC differentiation that appeared biased toward endomesodermal and neuroectodermal cell fates,respectively. Together,these results suggest that post-transcriptional regulation of TERT under varying O2 microenvironments may help regulate hESC survival,self-renewal,and differentiation capabilities through expression of extra-telomeric telomerase isoforms.
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Chestkov IV et al. (JAN 2014)
Acta Naturae 6 1 54--60
The genetic reprogramming technology allows one to generate pluripotent stem cells for individual patients. These cells,called induced pluripotent stem cells (iPSCs),can be an unlimited source of specialized cell types for the body. Thus,autologous somatic cell replacement therapy becomes possible,as well as the generation of in vitro cell models for studying the mechanisms of disease pathogenesis and drug discovery. Amyotrophic lateral sclerosis (ALS) is an incurable neurodegenerative disorder that leads to a loss of upper and lower motor neurons. About 10% of cases are genetically inherited,and the most common familial form of ALS is associated with mutations in the SOD1 gene. We used the reprogramming technology to generate induced pluripotent stem cells with patients with familial ALS. Patient-specific iPS cells were obtained by both integration and transgene-free delivery methods of reprogramming transcription factors. These iPS cells have the properties of pluripotent cells and are capable of direct differentiation into motor neurons.
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Kang M et al. (APR 2014)
International journal of molecular sciences 15 5 7139--7157
Generation of bladder urothelium from human pluripotent stem cells under chemically defined serum- and feeder-free system.
Human stem cells are promising sources for bladder regeneration. Among several possible sources,pluripotent stem cells are the most fascinating because they can differentiate into any cell type,and proliferate limitlessly in vitro. Here,we developed a protocol for differentiation of human pluripotent stem cells (hPSCs) into bladder urothelial cells (BUCs) under a chemically defined culture system. We first differentiated hPSCs into definitive endoderm (DE),and further specified DE cells into BUCs by treating retinoic acid under a keratinocyte-specific serum free medium. hPSC-derived DE cells showed significantly expressed DE-specific genes,but did not express mesodermal or ectodermal genes. After DE cells were specified into BUCs,they notably expressed urothelium-specific genes such as UPIb,UPII,UPIIIa,P63 and CK7. Immunocytochemistry showed that BUCs expressed UPII,CK8/18 and P63 as well as tight junction molecules,E-CADHERIN and ZO-1. Additionally,hPSCs-derived BUCs exhibited low permeability in a FITC-dextran permeability assay,indicating BUCs possessed the functional units of barrier on their surfaces. However,BUCs did not express the marker genes of other endodermal lineage cells (intestine and liver) as well as mesodermal or ectodermal lineage cells. In summary,we sequentially differentiated hPSCs into DE and BUCs in a serum- and feeder-free condition. Our differentiation protocol will be useful for producing cells for bladder regeneration and studying normal and pathological development of the human bladder urothelium in vitro.
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Generation, expansion and functional analysis of endothelial cells and pericytes derived from human pluripotent stem cells.
Human endothelial cells (ECs) and pericytes are of great interest for research on vascular development and disease,as well as for future therapy. This protocol describes the efficient generation of ECs and pericytes from human pluripotent stem cells (hPSCs) under defined conditions. Essential steps for hPSC culture,differentiation,isolation and functional characterization of ECs and pericytes are described. Substantial numbers of both cell types can be derived in only 2-3 weeks: this involves differentiation (10 d),isolation (1 d) and 4 or 10 d of expansion of ECs and pericytes,respectively. We also describe two assays for functional evaluation of hPSC-derived ECs: (i) primary vascular plexus formation upon coculture with hPSC-derived pericytes and (ii) incorporation in the vasculature of zebrafish xenografts in vivo. These assays can be used to test the quality and drug sensitivity of hPSC-derived ECs and model vascular diseases with patient-derived hPSCs.
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Chen G et al. ( 2014)
PloS one 9 6 e98565
Human umbilical cord-derived mesenchymal stem cells do not undergo malignant transformation during long-term culturing in serum-free medium.
BACKGROUND Human umbilical cord-derived mesenchymal stem cells (hUC-MSCs) are in the foreground as a preferable application for treating diseases. However,the safety of hUC-MSCs after long-term culturing in vitro in serum-free medium remains unclear. METHODS hUC-MSCs were separated by adherent tissue culture. hUC-MSCs were cultured in serum-free MesenCult-XF medium and FBS-bases DMEM complete medium. At the 1st,3rd,5th,8th,10th,and 15th passage,the differentiation of MSCs into osteogenic,chondrogenic,and adipogenic cells was detected,and MTT,surface antigens were measured. Tumorigenicity was analyzed at the 15th passage. Conventional karyotyping was performed at passage 0,8,and 15. The telomerase activity of hUC-MSCs at passage 1-15 was analyzed. RESULTS Flow cytometry analysis showed that very high expression was detected for CD105,CD73,and CD90 and very low expression for CD45,CD34,CD14,CD79a,and HLA-DR. MSCs could differentiate into osteocytes,chondrocytes,and adipocytes in vitro. There was no obvious chromosome elimination,displacement,or chromosomal imbalance as determined from the guidelines of the International System for Human Cytogenetic Nomenclature. Telomerase activity was down-regulated significantly when the culture time was prolonged. Further,no tumors formed in rats injected with hUC-MSCs (P15) cultured in serum-free and in serum-containing conditions. CONCLUSION Our data showed that hUC-MSCs met the International Society for Cellular Therapy standards for conditions of long-term in vitro culturing at P15. Since hUC-MSCs can be safely expanded in vitro and are not susceptible to malignant transformation in serum-free medium,these cells are suitable for cell therapy.
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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™
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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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