Zhou Y et al. (NOV 2014)
Scientific reports 4 6978
Trend of telomerase activity change during human iPSC self-renewal and differentiation revealed by a quartz crystal microbalance based assay.
Telomerase plays an important role in governing the life span of cells for its capacity to extend telomeres. As high activity of telomerase has been found in stem cells and cancer cells specifically,various methods have been developed for the evaluation of telomerase activity. To overcome the time-consuming procedures and complicated manipulations of existing methods,we developed a novel method named Telomeric Repeat Elongation Assay based on Quartz crystal microbalance (TREAQ) to monitor telomerase activity during the self-renewal and differentiation of human induced pluripotent stem cells (hiPSCs). TREAQ results indicated hiPSCs possess invariable telomerase activity for 11 passages on Matrigel and a steady decline of telomerase activity when differentiated for different periods,which is confirmed with existing golden standard method. The pluripotency of hiPSCs during differentiation could be estimated through monitoring telomerase activity and compared with the expression levels of markers of pluripotency gene via quantitative real time PCR. Regular assessment for factors associated with pluripotency or stemness was expensive and requires excessive sample consuming,thus TREAQ could be a promising alternative technology for routine monitoring of telomerase activity and estimate the pluripotency of stem cells.
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Griesi-Oliveira K et al. (NOV 2014)
Molecular psychiatry 20 March 1--16
Modeling non-syndromic autism and the impact of TRPC6 disruption in human neurons.
An increasing number of genetic variants have been implicated in autism spectrum disorders (ASDs),and the functional study of such variants will be critical for the elucidation of autism pathophysiology. Here,we report a de novo balanced translocation disruption of TRPC6,a cation channel,in a non-syndromic autistic individual. Using multiple models,such as dental pulp cells,induced pluripotent stem cell (iPSC)-derived neuronal cells and mouse models,we demonstrate that TRPC6 reduction or haploinsufficiency leads to altered neuronal development,morphology and function. The observed neuronal phenotypes could then be rescued by TRPC6 complementation and by treatment with insulin-like growth factor-1 or hyperforin,a TRPC6-specific agonist,suggesting that ASD individuals with alterations in this pathway may benefit from these drugs. We also demonstrate that methyl CpG binding protein-2 (MeCP2) levels affect TRPC6 expression. Mutations in MeCP2 cause Rett syndrome,revealing common pathways among ASDs. Genetic sequencing of TRPC6 in 1041 ASD individuals and 2872 controls revealed significantly more nonsynonymous mutations in the ASD population,and identified loss-of-function mutations with incomplete penetrance in two patients. Taken together,these findings suggest that TRPC6 is a novel predisposing gene for ASD that may act in a multiple-hit model. This is the first study to use iPSC-derived human neurons to model non-syndromic ASD and illustrate the potential of modeling genetically complex sporadic diseases using such cells.Molecular Psychiatry advance online publication,11 November 2014; doi:10.1038/mp.2014.141.
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mTeSR™1
mTeSR™1
Jung J-H et al. (APR 2015)
Stem cells and development 24 8 948--61
CXCR2 and its related ligands play a novel role in supporting the pluripotency and proliferation of human pluripotent stem cells.
Basic fibroblast growth factor (bFGF) is a crucial factor sustaining human pluripotent stem cells (hPSCs). We designed this study to search the substitutive factors other than bFGF for the maintenance of hPSCs by using human placenta-derived conditioned medium without exogenous bFGF (hPCCM-),containing chemokine (C-X-C motif) receptor 2 (CXCR2) ligands,including interleukin (IL)-8 and growth-related oncogene $\$(GRO$\$),which were developed on the basis of our previous studies. First,we confirmed that IL-8 and/or GRO$\$ independent roles to preserve the phenotype of hPSCs. Then,we tried CXCR2 blockage of hPSCs in hPCCM- and verified the significant decrease of pluripotency-associated genes expression and the proliferation of hPSCs. Interestingly,CXCR2 suppression of hPSCs in mTeSR™1 containing exogenous bFGF decreased the proliferation of hPSCs while maintaining pluripotency characteristics. Lastly,we found that hPSCs proliferated robustly for more than 35 passages in hPCCM- on a gelatin substratum. Higher CXCR2 expression of hPSCs cultured in hPCCM- than those in mTeSR™1 was observable. Our findings suggest that CXCR2 and its related ligands might be novel factors comparable to bFGF supporting the characteristics of hPSCs and hPCCM- might be useful for the maintenance of hPSCs as well as for the accurate evaluation of CXCR2 role in hPSCs without the confounding influence of exogenous bFGF.
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mTeSR™1
mTeSR™1
Lian X et al. (NOV 2014)
Stem cell reports 3 5 804--816
Efficient differentiation of human pluripotent stem cells to endothelial progenitors via small-molecule activation of WNT signaling.
Human pluripotent stem cell (hPSC)-derived endothelial cells and their progenitors may provide the means for vascularization of tissue-engineered constructs and can serve as models to study vascular development and disease. Here,we report a method to efficiently produce endothelial cells from hPSCs via GSK3 inhibition and culture in defined media to direct hPSC differentiation to CD34(+)CD31(+) endothelial progenitors. Exogenous vascular endothelial growth factor (VEGF) treatment was dispensable,and endothelial progenitor differentiation was β-catenin dependent. Furthermore,by clonal analysis,we showed that CD34(+)CD31(+)CD117(+)TIE-2(+) endothelial progenitors were multipotent,capable of differentiating into calponin-expressing smooth muscle cells and CD31(+)CD144(+)vWF(+)I-CAM1(+) endothelial cells. These endothelial cells were capable of 20 population doublings,formed tube-like structures,imported acetylated low-density lipoprotein,and maintained a dynamic barrier function. This study provides a rapid and efficient method for production of hPSC-derived endothelial progenitors and endothelial cells and identifies WNT/β-catenin signaling as a primary regulator for generating vascular cells from hPSCs.
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73042
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产品名:
CHIR98014
CHIR98014
mTeSR™1
mTeSR™1
Lei Y et al. (JUN 2014)
Cellular and Molecular Bioengineering 7 2 172--183
Developing defined and scalable 3D culture systems for culturing human pluripotent stem cells at high densities
Human pluripotent stem cells (hPSCs) - including embryonic stem cells (hESCs) and induced pluripotent stem cells (hiPSCs) - are very promising candidates for cell therapies,tissue engineering,high throughput pharmacology screens,and toxicity testing. These applications require large numbers of high quality cells; however,scalable production of human pluripotent stem cells and their derivatives at a high density and under well-defined conditions has been a challenge. We recently reported a simple,efficient,fully defined,scalable,and good manufacturing practice (GMP) compatible 3D culture system based on a thermoreversible hydrogel for hPSC expansion and differentiation. Here,we describe additional design rationale and characterization of this system. For instance,we have determined that culturing hPSCs as a suspension in a liquid medium can exhibit lower volumetric yields due to cell agglomeration and possible shear force-induced cell loss. By contrast,using hydrogels as 3D scaffolds for culturing hPSCs reduces aggregation and may insulate from shear forces. Additionally,hydrogel-based 3D culture systems can support efficient hPSC expansion and differentiation at a high density if compatible with hPSC biology. Finally,there are considerable opportunities for future development to further enhance hydrogel-based 3D culture systems for producing hPSCs and their progeny.
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mTeSR™1
mTeSR™1
Uenishi G et al. (DEC 2014)
Stem Cell Reports 3 6 1073--1084
Tenascin C promotes hematoendothelial development and T lymphoid commitment from human pluripotent stem cells in chemically defined conditions
The recent identification of hemogenic endothelium (HE) in human pluripotent stem cell (hPSC) cultures presents opportunities to investigate signaling pathways that are essential for blood development from endothelium and provides an exploratory platform for de novo generation of hematopoietic stem cells (HSCs). However,the use of poorly defined human or animal components limits the utility of the current differentiation systems for studying specific growth factors required for HE induction and manufacturing clinical-grade therapeutic blood cells. Here,we identified chemically defined conditions required to produce HE from hPSCs growing in Essential 8 (E8) medium and showed that Tenascin C (TenC),an extracellular matrix protein associated with HSC niches,strongly promotes HE and definitive hematopoiesis in this system. hPSCs differentiated in chemically defined conditions undergo stages of development similar to those previously described in hPSCs cocultured on OP9 feeders,including the formation of VE-Cadherin(+)CD73(-)CD235a/CD43(-) HE and hematopoietic progenitors with myeloid and T lymphoid potential.
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04436
04236
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产品名:
MethoCult™ SF H4436
MethoCult™ SF H4236
mTeSR™1
mTeSR™1
Fukuta M et al. (DEC 2014)
PLoS ONE 9 12 e112291
Derivation of mesenchymal stromal cells from pluripotent stem cells through a neural crest lineage using small molecule compounds with defined media
Neural crest cells (NCCs) are an embryonic migratory cell population with the ability to differentiate into a wide variety of cell types that contribute to the craniofacial skeleton,cornea,peripheral nervous system,and skin pigmentation. This ability suggests the promising role of NCCs as a source for cell-based therapy. Although several methods have been used to induce human NCCs (hNCCs) from human pluripotent stem cells (hPSCs),such as embryonic stem cells (ESCs) and induced pluripotent stem cells (iPSCs),further modifications are required to improve the robustness,efficacy,and simplicity of these methods. Chemically defined medium (CDM) was used as the basal medium in the induction and maintenance steps. By optimizing the culture conditions,the combination of the GSK3β inhibitor and TGFβ inhibitor with a minimum growth factor (insulin) very efficiently induced hNCCs (70-80%) from hPSCs. The induced hNCCs expressed cranial NCC-related genes and stably proliferated in CDM supplemented with EGF and FGF2 up to at least 10 passages without changes being observed in the major gene expression profiles. Differentiation properties were confirmed for peripheral neurons,glia,melanocytes,and corneal endothelial cells. In addition,cells with differentiation characteristics similar to multipotent mesenchymal stromal cells (MSCs) were induced from hNCCs using CDM specific for human MSCs. Our simple and robust induction protocol using small molecule compounds with defined media enabled the generation of hNCCs as an intermediate material producing terminally differentiated cells for cell-based innovative medicine.
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mTeSR™1
mTeSR™1
Gage BK et al. (MAR 2014)
Islets 6 2 e29236
Overexpression of PAX4 reduces glucagon expression in differentiating hESCs
Human embryonic stem cells (hESCs) are pluripotent and capable of generating new $\$-cells,but current in vitro differentiation protocols generally fail to produce mature,glucose-responsive,unihormonal $\$-cells. Instead,these methods tend to produce immature polyhormonal endocrine cells which mature in vivo into glucagon-positive $\$-cells. PAX4 is an established transcription factor in $\$-cell development and function,and is capable of converting glucagon-positive cells to insulin-positive cells in mice. Work in human and mouse ESCs has shown that constitutive PAX4 expression promotes the development of insulin-positive cells,but whether acute PAX4 expression is sufficient to guide specific endocrine cell fates has not been addressed in hESCs. In this study,we applied recombinant adenovirus to ectopically express human PAX4 in hESC-derived pancreatic progenitors,with the aim of influencing the endocrine developmental cascade away from polyhormonal cells toward unihormonal insulin-positive cells. Gene delivery to pancreatic progenitors was efficient and dose-dependent. By the end of in vitro differentiation,PAX4 reduced ARX expression,but only the high dose tested significantly reduced glucagon release. Single cell analysis revealed that while PAX4 did not alter the proportion of endocrine cells,it did reduce the number of glucagon-positive cells and increased the number of unihormonal insulin-positive cells. These data suggest that acute PAX4 overexpression can reduce expression of ARX and glucagon resulting in improved numbers of unihormonal insulin-positive cells.
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产品名:
ACCUTASE™
mTeSR™1
mTeSR™1
ACCUTASE™
Chen G et al. (FEB 2015)
Circulation: Arrhythmia and Electrophysiology 8 1 193--202
Phospholamban as a crucial determinant of the inotropic response of human pluripotent stem cell-derived ventricular cardiomyocytes and engineered 3-dimensional tissue constructs.
BACKGROUND Human (h) embryonic stem cells (ESCs) and induced pluripotent stem cells (iPSCs) serve as a potential unlimited ex vivo source of cardiomyocytes (CMs). However,a well-accepted roadblock has been their immature phenotype. hESC/iPSC-derived ventricular (v) CMs and their engineered cardiac microtissues (hvCMTs) similarly displayed positive chronotropic but null inotropic responses to $\$-adrenergic stimulation. Given that phospholamban (PLB) is robustly present in adult but poorly expressed in hESC/iPSC-vCMs and its defined biological role in $\$-adrenergic signaling,we investigated the functional consequences of PLB expression in hESC/iPSC-vCMs and hvCMTs. METHODS AND RESULTS First,we confirmed that PLB protein was differentially expressed in hESC (HES2,H9)- and iPSC-derived and adult vCMs. We then transduced hES2-vCMs with the recombinant adenoviruses (Ad) Ad-PLB or Ad-S16E-PLB to overexpress wild-type PLB or the pseudophosphorylated point-mutated variant,respectively. As anticipated from the inhibitory effect of unphosphorylated PLB on sarco/endoplasmic reticulum Ca2+-ATPase,Ad-PLB transduction significantly attenuated electrically evoked Ca2+ transient amplitude and prolonged the 50% decay time. Importantly,Ad-PLB-transduced hES2-vCMs uniquely responded to isoproterenol. Ad-S16E-PLB-transduced hES2-vCMs displayed an intermediate phenotype. The same trends were observed with H9- and iPSC-vCMs. Directionally,similar results were also seen with Ad-PLB-transduced and Ad-S16E-transduced hvCMTs. However,Ad-PLB altered neither the global transcriptome nor ICa,L,implicating a PLB-specific effect. CONCLUSIONS Engineered upregulation of PLB expression in hESC/iPSC-vCMs restores a positive inotropic response to $\$-adrenergic stimulation. These results not only provide a better mechanistic understanding of the immaturity of hESC/iPSC-vCMs but will also lead to improved disease models and transplantable prototypes with adult-like physiological responses.
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mTeSR™1
mTeSR™1
Hansson ML et al. (FEB 2015)
Journal of Biological Chemistry 290 9 5661--5672
Efficient delivery and functional expression of transfected modified mRNA in human embryonic stem cell-derived retinal pigmented epithelial cells
Gene- and cell-based therapies are promising strategies for the treatment of degenerative retinal diseases such as age-related macular degeneration,Stargardt disease,and retinitis pigmentosa. Cellular engineering before transplantation may allow the delivery of cellular factors that can promote functional improvements,such as increased engraftment or survival of transplanted cells. A current challenge in traditional DNA-based vector transfection is to find a delivery system that is both safe and efficient,but using mRNA as an alternative to DNA can circumvent these major roadblocks. In this study,we show that both unmodified and modified mRNA can be delivered to retinal pigmented epithelial (RPE) cells with a high efficiency compared with conventional plasmid delivery systems. On the other hand,administration of unmodified mRNA induced a strong innate immune response that was almost absent when using modified mRNA. Importantly,transfection of mRNA encoding a key regulator of RPE gene expression,microphthalmia-associated transcription factor (MITF),confirmed the functionality of the delivered mRNA. Immunostaining showed that transfection with either type of mRNA led to the expression of roughly equal levels of MITF,primarily localized in the nucleus. Despite these findings,quantitative RT-PCR analyses showed that the activation of the expression of MITF target genes was higher following transfection with modified mRNA compared with unmodified mRNA. Our findings,therefore,show that modified mRNA transfection can be applied to human embryonic stem cell-derived RPE cells and that the method is safe,efficient,and functional.
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