Lee Y-K et al. (NOV 2011)
Stem cell reviews 7 4 976--86
Calcium homeostasis in human induced pluripotent stem cell-derived cardiomyocytes.
RATIONALE: Cardiomyocytes generated from human induced pluripotent stem cells (hiPSCs) are suggested as the most promising candidate to replenish cardiomyocyte loss in regenerative medicine. Little is known about their calcium homeostasis,the key process underlying excitation-contraction coupling. OBJECTIVE: We investigated the calcium handling properties of hiPSC-derived cardiomyocytes and compared with those from human embryonic stem cells (hESCs). METHODS AND RESULTS: We differentiated cardiomyocytes from hiPSCs (IMR90 and KS1) and hESCs (H7 and HES3) with established protocols. Beating outgrowths from embryoid bodies were typically observed 2 weeks after induction. Cells in these outgrowths were stained positively for tropomyosin and sarcomeric alpha-actinin. Reverse-transcription polymerase chain reaction studies demonstrated the expressions of cardiac-specific markers in both hiPSC- and hESC-derived cardiomyocytes. Calcium handling properties of 20-day-old hiPSC- and hESC-derived cardiomyocytes were investigated using fluorescence confocal microscopy. Compared with hESC-derived cardiomyocytes,spontaneous calcium transients from both lines of hiPSC-derived cardiomyocytes were of significantly smaller amplitude and with slower maximal upstroke velocity. Better caffeine-induced calcium handling kinetics in hESC-CMs indicates a higher sacroplasmic recticulum calcium store. Furthermore,in contrast with hESC-derived cardiomyocytes,ryanodine did not reduce the amplitudes,maximal upstroke and decay velocity of calcium transients of hiPSC-derived cardiomyocytes. In addition,spatial inhomogeneity in temporal properties of calcium transients across the width of cardiomyocytes was more pronounced in hiPSC-derived cardiomyocytes than their hESC counterpart as revealed line-scan calcium imaging. Expressions of the key calcium-handling proteins including ryanodine recptor-2 (RyR2),sacroplasmic recticulum calcium-ATPase (SERCA),junction (Jun) and triadin (TRDN),were significantly lower in hiPSC than in hESCs. CONCLUSIONS: The results indicate the calcium handling properties of hiPSC-derived cardiomyocytes are relatively immature to hESC counterparts.
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Ramos-Mejia V et al. (MAY 2012)
Stem cells and development 21 7 1145--55
The Adaptation of Human Embryonic Stem Cells to Different Feeder-Free Culture Conditions Is Accompanied by a Mitochondrial Response
The mitochondrial contribution to the maintenance of human embryonic stem cell (hESC) pluripotency and culture homeostasis remains poorly understood. Here,we sought to determine whether hESC adaptation to different feeder-free culture conditions is linked to a mitochondrial adaptation. The expression of ESC pluripotency factors and parameters of mitochondrial contribution including mitochondrial membrane potential,mtDNA content,and the expression of master mitochondrial genes implicated in replication,transcription,and biogenesis were determined in 8 hESC lines maintained in 2 distinct human feeders-conditioned media (CM): human foreskin fibroblast-CM (HFF-CM) and mesenchymal stem cell-CM (MSC-CM). We show a robust parallel trend between the expression of ESC pluripotency factors and the mitochondrial contribution depending on the culture conditions employed to maintain the hESCs,with those in MSC-CM consistently displaying increased levels of pluripotency markers associated to an enhanced mitochondrial contribution. The differences in the mitochondrial status between hESCs maintained in MSC-CM versus HFF-CM respond to coordinated changes in mitochondrial gene expression and biogenesis. Importantly,the culture conditions determine the mitochondrial distribution within the stage-specific embryonic antigen 3 positive (SSEA3(+)) and negative (SSEA3(-)) isolated cell subsets. hESC colonies in MSC-CM display an intrinsic" high mitochondrial status which may suffice to support undifferentiated growth�
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Lemonnier T et al. (SEP 2011)
Human Molecular Genetics 20 18 3653--3666
Modeling neuronal defects associated with a lysosomal disorder using patient-derived induced pluripotent stem cells.
By providing access to affected neurons,human induced pluripotent stem cells (iPSc) offer a unique opportunity to model human neurodegenerative diseases. We generated human iPSc from the skin fibroblasts of children with mucopolysaccharidosis type IIIB. In this fatal lysosomal storage disease,defective α-N-acetylglucosaminidase interrupts the degradation of heparan sulfate (HS) proteoglycans and induces cell disorders predominating in the central nervous system,causing relentless progression toward severe mental retardation. Partially digested proteoglycans,which affect fibroblast growth factor signaling,accumulated in patient cells. They impaired isolation of emerging iPSc unless exogenous supply of the missing enzyme cleared storage and restored cell proliferation. After several passages,patient iPSc starved of an exogenous enzyme continued to proliferate in the presence of fibroblast growth factor despite HS accumulation. Survival and neural differentiation of patient iPSc were comparable with unaffected controls. Whereas cell pathology was modest in floating neurosphere cultures,undifferentiated patient iPSc and their neuronal progeny expressed cell disorders consisting of storage vesicles and severe disorganization of Golgi ribbons associated with modified expression of the Golgi matrix protein GM130. Gene expression profiling in neural stem cells pointed to alterations of extracellular matrix constituents and cell-matrix interactions,whereas genes associated with lysosome or Golgi apparatus functions were downregulated. Taken together,these results suggest defective responses of patient undifferentiated stem cells and neurons to environmental cues,which possibly affect Golgi organization,cell migration and neuritogenesis. This could have potential consequences on post-natal neurological development,once HS proteoglycan accumulation becomes prominent in the affected child brain.
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抗少突胶质细胞标志物O4抗体,clone 81
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Niwa A et al. (JAN 2011)
PLoS ONE 6 7 e22261
A novel Serum-Free monolayer culture for orderly hematopoietic differentiation of human pluripotent cells via mesodermal progenitors
Elucidating the in vitro differentiation of human embryonic stem (ES) and induced pluripotent stem (iPS) cells is important for understanding both normal and pathological hematopoietic development in vivo. For this purpose,a robust and simple hematopoietic differentiation system that can faithfully trace in vivo hematopoiesis is necessary. In this study,we established a novel serum-free monolayer culture that can trace the in vivo hematopoietic pathway from ES/iPS cells to functional definitive blood cells via mesodermal progenitors. Stepwise tuning of exogenous cytokine cocktails induced the hematopoietic mesodermal progenitors via primitive streak cells. These progenitors were then differentiated into various cell lineages depending on the hematopoietic cytokines present. Moreover,single cell deposition assay revealed that common bipotential hemoangiogenic progenitors were induced in our culture. Our system provides a new,robust,and simple method for investigating the mechanisms of mesodermal and hematopoietic differentiation.
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Aanei CM et al. (NOV 2011)
Experimental cell research 317 18 2616--29
Focal adhesion protein abnormalities in myelodysplastic mesenchymal stromal cells.
Direct cell-cell contact between haematopoietic progenitor cells (HPCs) and their cellular microenvironment is essential to maintain 'stemness'. In cancer biology,focal adhesion (FA) proteins are involved in survival signal transduction in a wide variety of human tumours. To define the role of FA proteins in the haematopoietic microenvironment of myelodysplastic syndromes (MDS),CD73-positive mesenchymal stromal cells (MSCs) were immunostained for paxillin,pFAK [Y(397)],and HSP90α/β and p130CAS,and analysed for reactivity,intensity and cellular localisation. Immunofluorescence microscopy allowed us to identify qualitative and quantitative differences,and subcellular localisation analysis revealed that in pathological MSCs,paxillin,pFAK [Y(397)],and HSP90α/β formed nuclear molecular complexes. Increased expression of paxillin,pFAK [Y(397)],and HSP90α/β and enhanced nuclear co-localisation of these proteins correlated with a consistent proliferative advantage in MSCs from patients with refractory anaemia with excess blasts (RAEB) and negatively impacted clonogenicity of HPCs. These results suggest that signalling via FA proteins could be implicated in HPC-MSC interactions. Further,because FAK is an HSP90α/β client protein,these results suggest the utility of HSP90α/β inhibition as a target for adjuvant therapy for myelodysplasia.
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MesenCult™ MSC 基础培养基(人)
MesenCult™ MSC刺激添加物(人)
MesenCult™ 增殖试剂盒(人)
无动物成分的细胞解离试剂盒
Hawkins RD et al. (OCT 2011)
Cell Research 21 10 1393--1409
Dynamic chromatin states in human ES cells reveal potential regulatory sequences and genes involved in pluripotency.
Pluripotency,the ability of a cell to differentiate and give rise to all embryonic lineages,defines a small number of mammalian cell types such as embryonic stem (ES) cells. While it has been generally held that pluripotency is the product of a transcriptional regulatory network that activates and maintains the expression of key stem cell genes,accumulating evidence is pointing to a critical role for epigenetic processes in establishing and safeguarding the pluripotency of ES cells,as well as maintaining the identity of differentiated cell types. In order to better understand the role of epigenetic mechanisms in pluripotency,we have examined the dynamics of chromatin modifications genome-wide in human ES cells (hESCs) undergoing differentiation into a mesendodermal lineage. We found that chromatin modifications at promoters remain largely invariant during differentiation,except at a small number of promoters where a dynamic switch between acetylation and methylation at H3K27 marks the transition between activation and silencing of gene expression,suggesting a hierarchy in cell fate commitment over most differentially expressed genes. We also mapped over 50 000 potential enhancers,and observed much greater dynamics in chromatin modifications,especially H3K4me1 and H3K27ac,which correlate with expression of their potential target genes. Further analysis of these enhancers revealed potentially key transcriptional regulators of pluripotency and a chromatin signature indicative of a poised state that may confer developmental competence in hESCs. Our results provide new evidence supporting the role of chromatin modifications in defining enhancers and pluripotency.
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Yao Y et al. (FEB 2012)
Human gene therapy 23 2 238--42
Generation of CD34+ cells from CCR5-disrupted human embryonic and induced pluripotent stem cells.
C-C chemokine receptor type 5 (CCR5) is a major co-receptor for the entry of human immunodeficiency virus type-1 (HIV-1) into target cells. Human hematopoietic stem cells (hHSCs) with naturally occurring CCR5 deletions (Δ32) or artificially disrupted CCR5 have shown potential for curing acquired immunodeficiency syndrome (AIDS). However,Δ32 donors are scarce,heterologous bone marrow transplantation is not exempt of risks,and genetic engineering of autologous hHSCs is not trivial. Here,we have disrupted the CCR5 locus of human embryonic stem cells (hESCs) and induced pluripotent stem cells (hiPSCs) using specific zinc finger nucleases (ZFNs) combined with homologous recombination. The modified hESCs and hiPSCs retained pluripotent characteristics and could be differentiated in vitro into CD34(+) cells that formed all types of hematopoietic colonies. Our results suggest the potential of using patient-specific hHSCs derived from ZFN-modified hiPSCs for treating AIDS.
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MethoCult™ H4435 Enriched
MethoCult™ H4435 Enriched
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Teichroeb JH et al. (JAN 2011)
PLoS ONE 6 10 e23436
Suppression of the imprinted gene NNAT and X-chromosome gene activation in isogenic human iPS cells.
Genetic comparison between human embryonic stem cells and induced pluripotent stem cells has been hampered by genetic variation. To solve this problem,we have developed an isogenic system that allows direct comparison of induced pluripotent stem cells (hiPSCs) to their genetically matched human embryonic stem cells (hESCs). We show that hiPSCs have a highly similar transcriptome to hESCs. Global transcriptional profiling identified 102-154 genes (textgreater2 fold) that showed a difference between isogenic hiPSCs and hESCs. A stringent analysis identified NNAT as a key imprinted gene that was dysregulated in hiPSCs. Furthermore,a disproportionate number of X-chromosome localized genes were over-expressed in female hiPSCs. Our results indicate that despite a remarkably close transcriptome to hESCs,isogenic hiPSCs have alterations in imprinting and regulation of X-chromosome genes.
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Munoz J et al. (NOV 2011)
Molecular Systems Biology 7 550 550
The quantitative proteomes of human-induced pluripotent stem cells and embryonic stem cells
Assessing relevant molecular differences between human-induced pluripotent stem cells (hiPSCs) and human embryonic stem cells (hESCs) is important,given that such differences may impact their potential therapeutic use. Controversy surrounds recent gene expression studies comparing hiPSCs and hESCs. Here,we present an in-depth quantitative mass spectrometry-based analysis of hESCs,two different hiPSCs and their precursor fibroblast cell lines. Our comparisons confirmed the high similarity of hESCs and hiPSCS at the proteome level as 97.8% of the proteins were found unchanged. Nevertheless,a small group of 58 proteins,mainly related to metabolism,antigen processing and cell adhesion,was found significantly differentially expressed between hiPSCs and hESCs. A comparison of the regulated proteins with previously published transcriptomic studies showed a low overlap,highlighting the emerging notion that differences between both pluripotent cell lines rather reflect experimental conditions than a recurrent molecular signature.
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Asuri P et al. (FEB 2012)
Molecular therapy : the journal of the American Society of Gene Therapy 20 2 329--38
Directed Evolution of Adeno-associated Virus for Enhanced Gene Delivery and Gene Targeting in Human Pluripotent Stem Cells
Efficient approaches for the precise genetic engineering of human pluripotent stem cells (hPSCs) can enhance both basic and applied stem cell research. Adeno- associated virus (AAV) vectors are of particular interest for their capacity to mediate efficient gene delivery to and gene targeting in various cells. However,natural AAV serotypes offer only modest transduction of human embryonic and induced pluripotent stem cells (hESCs and hiPSCs),which limits their utility for efficiently manipulating the hPSC genome. Directed evolution is a powerful means to generate viral vectors with novel capabilities,and we have applied this approach to create a novel AAV variant with high gene delivery efficiencies (˜50%) to hPSCs,which are importantly accompanied by a considerable increase in gene-targeting frequencies,up to 0.12%. While this level is likely sufficient for numerous applications,we also show that the gene-targeting efficiency mediated by an evolved AAV variant can be further enhanced (textgreater1%) in the presence of targeted double- stranded breaks (DSBs) generated by the co-delivery of artificial zinc finger nucleases (ZFNs). Thus,this study demonstrates that under appropriate selective pressures,AAV vectors can be created to mediate efficient gene targeting in hPSCs,alone or in the presence of ZFN- mediated double-stranded DNA breaks.
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Szabat M et al. (NOV 2011)
Cell death & disease 2 11 e232
Musashi expression in $\$-cells coordinates insulin expression, apoptosis and proliferation in response to endoplasmic reticulum stress in diabetes.
Diabetes is associated with the death and dysfunction of insulin-producing pancreatic $\$-cells. In other systems,Musashi genes regulate cell fate via Notch signaling,which we recently showed regulates $\$-cell survival. Here we show for the first time that human and mouse adult islet cells express mRNA and protein of both Musashi isoforms,as well Numb/Notch/Hes/neurogenin-3 pathway components. Musashi expression was observed in insulin/glucagon double-positive cells during human fetal development and increased during directed differentiation of human embryonic stem cells (hESCs) to the pancreatic lineage. De-differentiation of $\$-cells with activin A increased Msi1 expression. Endoplasmic reticulum (ER) stress increased Msi2 and Hes1,while it decreased Ins1 and Ins2 expression,revealing a molecular link between ER stress and $\$-cell dedifferentiation in type 2 diabetes. These effects were independent of changes in Numb protein levels and Notch activation. Overexpression of MSI1 was sufficient to increase Hes1,stimulate proliferation,inhibit apoptosis and reduce insulin expression,whereas Msi1 knockdown had the converse effects on proliferation and insulin expression. Overexpression of MSI2 resulted in a decrease in MSI1 expression. Taken together,these results demonstrate overlapping,but distinct roles for Musashi-1 and Musashi-2 in the control of insulin expression and $\$-cell proliferation. Our data also suggest that Musashi is a novel link between ER stress and the compensatory $\$-cell proliferation and the loss of $\$-cell gene expression seen in specific phases of the progression to type 2 diabetes.
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Schinzel RT et al. (JAN 2011)
PloS one 6 12 e27495
Efficient culturing and genetic manipulation of human pluripotent stem cells.
Human pluripotent stem cells (hPSC) hold great promise as models for understanding disease and as a source of cells for transplantation therapies. However,the lack of simple,robust and efficient culture methods remains a significant obstacle for realizing the utility of hPSCs. Here we describe a platform for the culture of hPSCs that 1) allows for dissociation and replating of single cells,2) significantly increases viability and replating efficiency,3) improves freeze/thaw viability 4) improves cloning efficiency and 5) colony size variation. When combined with standard methodologies for genetic manipulation,we found that the enhanced culture platform allowed for lentiviral transduction rates of up to 95% and electroporation efficiencies of up to 25%,with a significant increase in the total number of antibiotic-selected colonies for screening for homologous recombination. We further demonstrated the utility of the enhanced culture platform by successfully targeting the ISL1 locus. We conclude that many of the difficulties associated with culturing and genetic manipulation of hPSCs can be addressed with optimized culture conditions,and we suggest that the use of the enhanced culture platform could greatly improve the ease of handling and general utility of hPSCs.
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