Kriz V et al. (NOV 2006)
The Journal of biological chemistry 281 45 34484--91
The SHB adapter protein is required for normal maturation of mesoderm during in vitro differentiation of embryonic stem cells.
Definitive mesoderm arises from a bipotent mesendodermal population,and to study processes controlling its development at this stage,embryonic stem (ES) cells can be employed. SHB (Src homology 2 protein in beta-cells) is an adapter protein previously found to be involved in ES cell differentiation to mesoderm. To further study the role of SHB in this context,we have established ES cell lines deficient for one (SHB+/-) or both SHB alleles (SHB-/-). Differentiating embryoid bodies (EBs) derived from these ES cell lines were used for gene expression analysis. Alternatively,EBs were stained for the blood vessel marker CD31. For hematopoietic differentiation,EBs were differentiated in methylcellulose. SHB-/- EBs exhibited delayed down-regulation of the early mesodermal marker Brachyury. Later mesodermal markers relatively specific for the hematopoietic,vascular,and cardiac lineages were expressed at lower levels on day 6 or 8 of differentiation in EBs lacking SHB. The expression of vascular endothelial growth factor receptor-2 and fibroblast growth factor receptor-1 was also reduced in SHB-/- EBs. SHB-/- EBs demonstrated impaired blood vessel formation after vascular endothelial growth factor stimulation. In addition,the SHB-/- ES cells formed fewer blood cell colonies than SHB+/+ ES cells. It is concluded that SHB is required for appropriate hematopoietic and vascular differentiation and that delayed down-regulation of Brachyury expression may play a role in this context.
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Adipose tissue-derived mesenchymal stem cells have in vivo immunosuppressive properties applicable for the control of the graft-versus-host disease.
Previous studies have shown the relevance of bone marrow-derived MSCs (BM-MSCs) in controlling graft-versus-host disease (GVHD) after allogeneic transplantation. Since adipose tissue-derived MSCs (Ad-MSCs) may constitute a good alternative to BM-MSCs,we have expanded MSCs derived from human adipose tissue (hAd-MSCs) and mouse adipose tissue (mAd-MSCs),investigated the immunoregulatory properties of these cells,and evaluated their capacity to control GVHD in mice. The phenotype and immunoregulatory properties of expanded hAd-MSCs were similar to those of human BM-MSCs. Moreover,hAd-MSCs inhibited the proliferation and cytokine secretion of human primary T cells in response to mitogens and allogeneic T cells. Similarly,ex vivo expanded mAd-MSCs had an equivalent immunophenotype and exerted immunoregulatory properties similar to those of hAd-MSCs. Moreover,the infusion of mAd-MSCs in mice transplanted with haploidentical hematopoietic grafts controlled the lethal GVHD that occurred in control recipient mice. These findings constitute the first experimental proof that Ad-MSCs can efficiently control the GVHD associated with allogeneic hematopoietic transplantation,opening new perspectives for the clinical use of Ad-MSCs.
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Non-integrating episomal plasmid-based reprogramming of human amniotic fluid stem cells into induced pluripotent stem cells in chemically defined conditions.
Amniotic fluid stem cells (AFSC) represent an attractive potential cell source for fetal and pediatric cell-based therapies. However,upgrading them to pluripotency confers refractoriness toward senescence,higher proliferation rate and unlimited differentiation potential. AFSC were observed to rapidly and efficiently reacquire pluripotency which together with their easy recovery makes them an attractive cell source for reprogramming. The reprogramming process as well as the resulting iPSC epigenome could potentially benefit from the unspecialized nature of AFSC. iPSC derived from AFSC also have potential in disease modeling,such as Down syndrome or $\$-thalassemia. Previous experiments involving AFSC reprogramming have largely relied on integrative vector transgene delivery and undefined serum-containing,feeder-dependent culture. Here,we describe non-integrative oriP/EBNA-1 episomal plasmid-based reprogramming of AFSC into iPSC and culture in fully chemically defined xeno-free conditions represented by vitronectin coating and E8 medium,a system that we found uniquely suited for this purpose. The derived AF-iPSC lines uniformly expressed a set of pluripotency markers Oct3/4,Nanog,Sox2,SSEA-1,SSEA-4,TRA-1-60,TRA-1-81 in a pattern typical for human primed PSC. Additionally,the cells formed teratomas,and were deemed pluripotent by PluriTest,a global expression microarray-based in-silico pluripotency assay. However,we found that the PluriTest scores were borderline,indicating a unique pluripotent signature in the defined condition. In the light of potential future clinical translation of iPSC technology,non-integrating reprogramming and chemically defined culture are more acceptable.
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100-1061
07952
100-0763
产品名:
Vitronectin XF™
CellAdhere™ 稀释缓冲液
CryoStor® CS10
CryoStor® CS10
CryoStor® CS10
CryoStor® CS10
CryoStor® CS10
mTeSR™1
mTeSR™1
CryoStor® CS10
CryoStor® CS10
Vitronectin XF™
Goff LA et al. (JAN 2009)
PLoS ONE 4 9 e7192
Ago2 immunoprecipitation identifies predicted microRNAs in human embryonic stem cells and neural precursors.
BACKGROUND: MicroRNAs are required for maintenance of pluripotency as well as differentiation,but since more microRNAs have been computationally predicted in genome than have been found,there are likely to be undiscovered microRNAs expressed early in stem cell differentiation. METHODOLOGY/PRINCIPAL FINDINGS: SOLiD ultra-deep sequencing identified textgreater10(7) unique small RNAs from human embryonic stem cells (hESC) and neural-restricted precursors that were fit to a model of microRNA biogenesis to computationally predict 818 new microRNA genes. These predicted genomic loci are associated with chromatin patterns of modified histones that are predictive of regulated gene expression. 146 of the predicted microRNAs were enriched in Ago2-containing complexes along with 609 known microRNAs,demonstrating association with a functional RISC complex. This Ago2 IP-selected subset was consistently expressed in four independent hESC lines and exhibited complex patterns of regulation over development similar to previously-known microRNAs,including pluripotency-specific expression in both hESC and iPS cells. More than 30% of the Ago2 IP-enriched predicted microRNAs are new members of existing families since they share seed sequences with known microRNAs. CONCLUSIONS/SIGNIFICANCE: Extending the classic definition of microRNAs,this large number of new microRNA genes,the majority of which are less conserved than their canonical counterparts,likely represent evolutionarily recent regulators of early differentiation. The enrichment in Ago2 containing complexes,the presence of chromatin marks indicative of regulated gene expression,and differential expression over development all support the identification of 146 new microRNAs active during early hESC differentiation.
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mTeSR™1
mTeSR™1
Lagarkova MA et al. (MAR 2010)
Cell Cycle 9 5 937--46
Induction of pluripotency in human endothelial cells resets epigenetic profile on genome scale
Reprogramming of a limited number of human cell types has been achieved through ectopic expression of four transcription factors to yield induced pluripotent stem (iPS) cells that closely resemble human embryonic stem cells (ESCs). Here,we determined functional and epigenetic properties of iPS cells generated from human umbilical vein endothelial cells (HUVEC) by conventional method of direct reprogramming. Retroviral overexpression of four transcription factors resets HUVEC to the pluripotency. Human endothelial cell-derived iPS (endo-iPS) cells were similar to human ESCs in morphology,gene expression,in vitro and in vivo differentiation capacity. Endo-iPS cells were efficiently differentiated in vitro into endothelial cells. Using genome-wide methylation profiling we show that promoter elements of endothelial specific genes were methylated following reprogramming whereas pluripotency-related gene promoters were hypomethylated similar to levels observed in ESCs. Genome-wide methylation analysis of CpG sites located in the functional regions of over than 14,000 genes indicated that human endo-iPS cells were highly similar to human ES cells,although differences in methylation levels of 46 genes were found. Overall CpG methylation of promoter regions in the pluripotent cells was higher than in somatic. We also show that during reprogramming female human endo-iPS cells exhibited reactivation of the somatically silenced X chromosome. Our findings demonstrate that iPS cells can be generated from human endothelial cells and reprogramming resets epigenetic status of endothelial cells to pluripotency.
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mTeSR™1
mTeSR™1
Pfaender S et al. ( 2016)
Neural plasticity 2016 ID 3760702 1--15
Cellular Zinc Homeostasis Contributes to Neuronal Differentiation in Human Induced Pluripotent Stem Cells.
Disturbances in neuronal differentiation and function are an underlying factor of many brain disorders. Zinc homeostasis and signaling are important mediators for a normal brain development and function,given that zinc deficiency was shown to result in cognitive and emotional deficits in animal models that might be associated with neurodevelopmental disorders. One underlying mechanism of the observed detrimental effects of zinc deficiency on the brain might be impaired proliferation and differentiation of stem cells participating in neurogenesis. Thus,to examine the molecular mechanisms regulating zinc metabolism and signaling in differentiating neurons,using a protocol for motor neuron differentiation,we characterized the expression of zinc homeostasis genes during neurogenesis using human induced pluripotent stem cells (hiPSCs) and evaluated the influence of altered zinc levels on the expression of zinc homeostasis genes,cell survival,cell fate,and neuronal function. Our results show that zinc transporters are highly regulated genes during neuronal differentiation and that low zinc levels are associated with decreased cell survival,altered neuronal differentiation,and,in particular,synaptic function. We conclude that zinc deficiency in a critical time window during brain development might influence brain function by modulating neuronal differentiation.
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mTeSR™1
mTeSR™1
Alshawaf AJ et al. ( 2017)
Stem cells international 2017 7848932
WDR62 Regulates Early Neural and Glial Progenitor Specification of Human Pluripotent Stem Cells.
Mutations in WD40-repeat protein 62 (WDR62) are commonly associated with primary microcephaly and other developmental cortical malformations. We used human pluripotent stem cells (hPSC) to examine WDR62 function during human neural differentiation and model early stages of human corticogenesis. Neurospheres lacking WDR62 expression showed decreased expression of intermediate progenitor marker,TBR2,and also glial marker,S100β. In contrast,inhibition of c-Jun N-terminal kinase (JNK) signalling during hPSC neural differentiation induced upregulation of WDR62 with a corresponding increase in neural and glial progenitor markers,PAX6 and EAAT1,respectively. These findings may signify a role of WDR62 in specifying intermediate neural and glial progenitors during human pluripotent stem cell differentiation.
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mTeSR™1
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Thayanithy V et al. (APR 2014)
Experimental Cell Research 323 1 178--188
Tumor exosomes induce tunneling nanotubes in lipid raft-enriched regions of human mesothelioma cells
Tunneling nanotubes (TnTs) are long,non-adherent,actin-based cellular extensions that act as conduits for transport of cellular cargo between connected cells. The mechanisms of nanotube formation and the effects of the tumor microenvironment and cellular signals on TnT formation are unknown. In the present study,we explored exosomes as potential mediators of TnT formation in mesothelioma and the potential relationship of lipid rafts to TnT formation. Mesothelioma cells co-cultured with exogenous mesothelioma-derived exosomes formed more TnTs than cells cultured without exosomes within 24-48. h; and this effect was most prominent in media conditions (low-serum,hyperglycemic medium) that support TnT formation (1.3-1.9-fold difference). Fluorescence and electron microscopy confirmed the purity of isolated exosomes and revealed that they localized predominantly at the base of and within TnTs,in addition to the extracellular environment. Time-lapse microscopic imaging demonstrated uptake of tumor exosomes by TnTs,which facilitated intercellular transfer of these exosomes between connected cells. Mesothelioma cells connected via TnTs were also significantly enriched for lipid rafts at nearly a 2-fold higher number compared with cells not connected by TnTs. Our findings provide supportive evidence of exosomes as potential chemotactic stimuli for TnT formation,and also lipid raft formation as a potential biomarker for TnT-forming cells. textcopyright 2014 Elsevier Inc.
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mTeSR™1
mTeSR™1
Zhang K et al. (JAN 2014)
Protein and Cell 5 1 48--58
Direct conversion of human fibroblasts into retinal pigment epithelium-like cells by defined factors
The generation of functional retinal pigment epithelium (RPE) is of great therapeutic interest to the field of regenerative medicine and may provide possible cures for retinal degenerative diseases,including age-related macular degeneration (AMD). Although RPE cells can be produced from either embryonic stem cells or induced pluripotent stem cells,direct cell reprogramming driven by lineagedetermining transcription factors provides an immediate route to their generation. By monitoring a human RPE specific Best1::GFP reporter,we report the conversion of human fibroblasts into RPE lineage using defined sets of transcription factors. We found that Best1::GFP positive cells formed colonies and exhibited morphological and molecular features of early stage RPE cells. Moreover,they were able to obtain pigmentation upon activation of Retinoic acid (RA) and Sonic Hedgehog (SHH) signaling pathways. Our study not only established an ideal platform to investigate the transcriptional network regulating the RPE cell fate determination,but also provided an alternative strategy to generate functional RPE cells that complement the use of pluripotent stem cells for disease modeling,drug screening,and cell therapy of retinal degeneration.
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mTeSR™1
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Gordon DJ et al. (JUN 2015)
Oncogene 35 August 1--11
Modeling the initiation of Ewing sarcoma tumorigenesis in differentiating human embryonic stem cells.
Oncogenic transformation in Ewing sarcoma tumors is driven by the fusion oncogene EWS-FLI1. However,despite the well-established role of EWS-FLI1 in tumor initiation,the development of models of Ewing sarcoma in human cells with defined genetic elements has been challenging. Here,we report a novel approach to model the initiation of Ewing sarcoma tumorigenesis that exploits the developmental and pluripotent potential of human embryonic stem cells. The inducible expression of EWS-FLI1 in embryoid bodies,or collections of differentiating stem cells,generates cells with properties of Ewing sarcoma tumors,including characteristics of transformation. These cell lines exhibit anchorage-independent growth,a lack of contact inhibition and a strong Ewing sarcoma gene expression signature. Furthermore,these cells also demonstrate a requirement for the persistent expression of EWS-FLI1 for cell survival and growth,which is a hallmark of Ewing sarcoma tumors.Oncogene advance online publication,12 October 2015; doi:10.1038/onc.2015.368.
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07920
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产品名:
ACCUTASE™
AggreWell™ EB形成培养基
mTeSR™1
mTeSR™1
ACCUTASE™
Janson C et al. (OCT 2015)
Cytogenetic and Genome Research 146 4 251--260
Replication Stress and Telomere Dysfunction Are Present in Cultured Human Embryonic Stem Cells
Replication stress causes DNA damage at fragile sites in the genome. DNA damage at telomeres can initiate breakage-fusion-bridge cycles and chromosome instability,which can result in replicative senescence or tumor formation. Little is known about the extent of replication stress or telomere dysfunction in human embryonic stem cells (hESCs). hESCs are grown in culture with the expectation of being used therapeutically in humans,making it important to minimize the levels of replication stress and telomere dysfunction. Here,the hESC line UCSF4 was cultured in a defined medium with growth factor Activin A,exogenous nucleosides,or DNA polymerase inhibitor aphidicolin. We used quantitative fluorescence in situ hybridization to analyze individual telomeres for dysfunction and observed that it can be increased by aphidicolin or Activin A. In contrast,adding exogenous nucleosides relieved dysfunction,suggesting that telomere dysfunction results from replication stress. Whether these findings can be applied to other hESC lines remains to be determined. However,because the loss of telomeres can lead to chromosome instability and cancer,we conclude that hESCs grown in culture for future therapeutic purposes should be routinely checked for replication stress and telomere dysfunction.
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mTeSR™1
mTeSR™1
Higuchi A et al. (DEC 2015)
Scientific Reports 5 18136
Long-term xeno-free culture of human pluripotent stem cells on hydrogels with optimal elasticity
The tentative clinical application of human pluripotent stem cells (hPSCs),such as human embryonic stem cells and human induced pluripotent stem cells,is restricted by the possibility of xenogenic contamination resulting from the use of mouse embryonic fibroblasts (MEFs) as a feeder layer. Therefore,we investigated hPSC cultures on biomaterials with different elasticities that were grafted with different nanosegments. We prepared dishes coated with polyvinylalcohol-co-itaconic acid hydrogels grafted with an oligopeptide derived from vitronectin (KGGPQVTRGDVFTMP) with elasticities ranging from 10.3 to 30.4 kPa storage moduli by controlling the crosslinking time. The hPSCs cultured on the stiffest substrates (30.4 kPa) tended to differentiate after five days of culture,whereas the hPSCs cultured on the optimal elastic substrates (25 kPa) maintained their pluripotency for over 20 passages under xeno-free conditions. These results indicate that cell culture matrices with optimal elasticity can maintain the pluripotency of hPSCs in culture.
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