Lei Y and Schaffer DV (DEC 2013)
Proceedings of the National Academy of Sciences of the United States of America 110 52 E5039----E5048
A fully defined and scalable 3D culture system for human pluripotent stem cell expansion and differentiation
Human pluripotent stem cells (hPSCs),including human embryonic stem cells and induced pluripotent stem cells,are promising for numerous biomedical applications,such as cell replacement therapies,tissue and whole-organ engineering,and high-throughput pharmacology and toxicology screening. Each of these applications requires large numbers of cells of high quality; however,the scalable expansion and differentiation of hPSCs,especially for clinical utilization,remains a challenge. We report a simple,defined,efficient,scalable,and good manufacturing practice-compatible 3D culture system for hPSC expansion and differentiation. It employs a thermoresponsive hydrogel that combines easy manipulation and completely defined conditions,free of any human- or animal-derived factors,and entailing only recombinant protein factors. Under an optimized protocol,the 3D system enables long-term,serial expansion of multiple hPSCs lines with a high expansion rate (∼20-fold per 5-d passage,for a 1072-fold expansion over 280 d),yield (∼2.0 × 107 cells per mL of hydrogel),and purity (∼95% Oct4+),even with single-cell inoculation,all of which offer considerable advantages relative to current approaches. Moreover,the system enabled 3D directed differentiation of hPSCs into multiple lineages,including dopaminergic neuron progenitors with a yield of ∼8 × 107 dopaminergic progenitors per mL of hydrogel and ∼80-fold expansion by the end of a 15-d derivation. This versatile system may be useful at numerous scales,from basic biological investigation to clinical development.
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mTeSR™1
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Raynaud CM et al. (JAN 2013)
PLoS ONE 8 1 e54524
Human Embryonic Stem Cell Derived Mesenchymal Progenitors Express Cardiac Markers but Do Not Form Contractile Cardiomyocytes
Mesenchymal progenitors or stromal cells have shown promise as a therapeutic strategy for a range of diseases including heart failure. In this context,we explored the growth and differentiation potential of mesenchymal progenitors (MPs) derived in vitro from human embryonic stem cells (hESCs). Similar to MPs isolated from bone marrow,hESC derived MPs (hESC-MPs) efficiently differentiated into archetypical mesenchymal derivatives such as chondrocytes and adipocytes. Upon treatment with 5-Azacytidine or TGF-β1,hESC-MPs modified their morphology and up-regulated expression of key cardiac transcription factors such as NKX2-5,MEF2C,HAND2 and MYOCD. Nevertheless,NKX2-5+ hESC-MP derivatives did not form contractile cardiomyocytes,raising questions concerning the suitability of these cells as a platform for cardiomyocyte replacement therapy. Gene profiling experiments revealed that,although hESC-MP derived cells expressed a suite of cardiac related genes,they lacked the complete repertoire of genes associated with bona fide cardiomyocytes. Our results suggest that whilst agents such as TGF-β1 and 5-Azacytidine can induce expression of cardiac related genes,but treated cells retain a mesenchymal like phenotype.
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Dispase(5 U/mL)
CryoStor® CS10
CryoStor® CS10
CryoStor® CS10
CryoStor® CS10
CryoStor® CS10
mTeSR™1
mTeSR™1
CryoStor® CS10
CryoStor® CS10
Gennet N et al. (SEP 2016)
Scientific reports 6 32488
FolR1: a novel cell surface marker for isolating midbrain dopamine neural progenitors and nascent dopamine neurons.
Cell type-specific surface markers offer a powerful tool for purifying defined cell types for restorative therapies and drug screenings. Midbrain dopaminergic neurons (mesDA) are the nerve cells preferentially lost in the brains of Parkinson's disease patients. Clinical trials of transplantation of fetal neural precursors suggest that cell therapy may offer a cure for this devastating neurological disease. Many lines of preclinical studies demonstrate that neural progenitors committed to dopaminergic fate survive and integrate better than postmitotic DA neurons. We show that the folate-receptor 1 (FolR1),a GPI-anchored cell surface molecule,specifically marks mesDA neural progenitors and immature mesDA neurons. FolR1 expression superimposes with Lmx1a,a bona-fide mesDA lineage marker,during the active phase of mesDA neurogenesis from E9.5 to E14.5 during mouse development,as well as in ESC-derived mesDA lineage. FolR1(+) neural progenitors can be isolated by FACS or magnetic sorting (MAC) which give rise to dopamine neurons expressing TH and Pitx3,whilst FolR1 negative cells generate non-dopaminergic neurons and glia cells. This study identifies FolR1 as a new cell surface marker selectively expressed in mesDA progenitors in vivo and in vitro and that can be used to enrich in vitro differentiated TH neurons.
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Zhou S et al. ( 2017)
PloS one 12 1 e0169899
Reprogramming Malignant Cancer Cells toward a Benign Phenotype following Exposure to Human Embryonic Stem Cell Microenvironment.
The embryonic microenvironment is well known to be non-permissive for tumor development because early developmental signals naturally suppress the expression of proto-oncogenes. In an analogous manner,mimicking an early embryonic environment during embryonic stem cell culture has been shown to suppress oncogenic phenotypes of cancer cells. Exosomes derived from human embryonic stem cells harbor substances that mirror the content of the cells of origin and have been reported to reprogram hematopoietic stem/progenitor cells via horizontal transfer of mRNA and proteins. However,the possibility that these embryonic stem cells-derived exosomes might be the main effectors of the anti-tumor effect mediated by the embryonic stem cells has not been explored yet. The present study aims to investigate whether exosomes derived from human embryonic stem cells can reprogram malignant cancer cells to a benign stage and reduce their tumorigenicity. We show that the embryonic stem cell-conditioned medium contains factors that inhibit cancer cell growth and tumorigenicity in vitro and in vivo. Moreover,we demonstrate that exosomes derived from human embryonic stem cells display anti-proliferation and pro-apoptotic effects,and decrease tumor size in a xenograft model. These exosomes are also able to transfer their cargo into target cancer cells,inducing a dose-dependent increase in SOX2,OCT4 and Nanog proteins,leading to a dose-dependent decrease of cancer cell growth and tumorigenicity. This study shows for the first time that human embryonic stem cell-derived exosomes play an important role in the tumor suppressive activity displayed by human embryonic stem cells.
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Costa V et al. (APR 2016)
Cell reports 15 1 86--95
mTORC1 Inhibition Corrects Neurodevelopmental and Synaptic Alterations in a Human Stem Cell Model of Tuberous Sclerosis.
Hyperfunction of the mTORC1 pathway has been associated with idiopathic and syndromic forms of autism spectrum disorder (ASD),including tuberous sclerosis,caused by loss of either TSC1 or TSC2. It remains largely unknown how developmental processes and biochemical signaling affected by mTORC1 dysregulation contribute to human neuronal dysfunction. Here,we have characterized multiple stages of neurogenesis and synapse formation in human neurons derived from TSC2-deleted pluripotent stem cells. Homozygous TSC2 deletion causes severe developmental abnormalities that recapitulate pathological hallmarks of cortical malformations in patients. Both TSC2(+/-) and TSC2(-/-) neurons display altered synaptic transmission paralleled by molecular changes in pathways associated with autism,suggesting the convergence of pathological mechanisms in ASD. Pharmacological inhibition of mTORC1 corrects developmental abnormalities and synaptic dysfunction during independent developmental stages. Our results uncouple stage-specific roles of mTORC1 in human neuronal development and contribute to a better understanding of the onset of neuronal pathophysiology in tuberous sclerosis.
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Marcato P et al. (MAY 2011)
Cell cycle (Georgetown,Tex.) 10 9 1378--84
Aldehyde dehydrogenase: its role as a cancer stem cell marker comes down to the specific isoform.
Recent evidence suggests that enhanced aldehyde dehydrogenase (ALDH) activity is a hallmark of cancer stem cells (CSC) measurable by the aldefluor assay. ALDH1A1,one of 19 ALDH isoforms expressed in humans,was generally believed to be responsible for the ALDH activity of CSCs. More recently,experiments with murine hematopoietic stem cells,murine progenitor pancreatic cells,and human breast CSCs indicate that other ALDH isoforms,particularly ALDH1A3,significantly contribute to aldefluor positivity,which may be tissue and cancer specific. Therefore,potential prognostic application involving the use of CSC prevalence in tumor tissue to predict patient outcome requires the identification and quantification of specific ALDH isoforms. Herein we review the suggested roles of ALDH in CSC biology and the immunohistological studies testing the potential application of ALDH isoforms as novel cancer prognostic indicators.
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01700
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ALDEFLUOR™ 试剂盒
ALDEFLUOR™ DEAB试剂, 1.5 mM, 1 mL
ALDEFLUOR™检测缓冲液
White MP et al. (JAN 2013)
STEM CELLS 31 1 92--103
Limited Gene Expression Variation in Human Embryonic Stem Cell and Induced Pluripotent Stem Cell-Derived Endothelial Cells
Recent evidence suggests human embryonic stem cell (hESC) and induced pluripotent stem (iPS) cell lines have differences in their epigenetic marks and transcriptomes,yet the impact of these differences on subsequent terminally differentiated cells is less well understood. Comparison of purified,homogeneous populations of somatic cells derived from multiple independent human iPS and ES lines will be required to address this critical question. Here,we report a differentiation protocol based on embryonic development that consistently yields large numbers of endothelial cells (ECs) derived from multiple hESCs or iPS cells. Mesoderm differentiation of embryoid bodies was maximized,and defined growth factors were used to generate KDR+ EC progenitors. Magnetic purification of a KDR+ progenitor subpopulation resulted in an expanding,homogeneous pool of ECs that expressed EC markers and had functional properties of ECs. Comparison of the transcriptomes revealed limited gene expression variability between multiple lines of human iPS-derived ECs or between lines of ES- and iPS-derived ECs. These results demonstrate a method to generate large numbers of pure human EC progenitors and differentiated ECs from pluripotent stem cells and suggest individual lineages derived from human iPS cells may have significantly less variance than their pluripotent founders. STEM Cells2013;31:92–103
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Zhang Z et al. (SEP 2003)
The EMBO journal 22 18 4759--69
Enforced expression of EBF in hematopoietic stem cells restricts lymphopoiesis to the B cell lineage.
Mice deficient in early B cell factor (EBF) are blocked at the progenitor B cell stage prior to immunoglobulin gene rearrangement. The EBF-dependent block in B cell development occurs near the onset of B-lineage commitment,which raises the possibility that EBF may act instructively to specify the B cell fate from uncommitted,multipotential progenitor cells. To test this hypothesis,we transduced enriched hematopoietic progenitor cells with a retroviral vector that coexpressed EBF and the green fluorescent protein (GFP). Mice reconstituted with EBF-expressing cells showed a near complete absence of T lymphocytes. Spleen and peripheral blood samples were textgreater95 and 90% GFP+EBF+ mature B cells,respectively. Both NK and lymphoid-derived dendritic cells were also significantly reduced compared with control-transplanted mice. These data suggest that EBF can restrict lymphopoiesis to the B cell lineage by blocking development of other lymphoid-derived cell pathways.
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03434
03444
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MethoCult™ GF M3434
MethoCult™ GF M3434
Masaki H et al. (NOV 2008)
Stem Cell Research 1 2 105--115
Heterogeneity of pluripotent marker gene expression in colonies generated in human iPS cell induction culture
Induction of pluripotent stem cells from human fibroblasts has been achieved by the ectopic expression of two different sets of four genes. However,the mechanism of the pluripotent stem cell induction has not been elucidated. Here we identified a marked heterogeneity in colonies generated by the four-gene (Oct3/4,Sox2,c-Myc,and Klf4) transduction method in human neonatal skin-derived cells. The four-gene transduction gave a higher probability of induction for archetypal pluripotent stem cell marker genes (Nanog,TDGF,and Dnmt3b) than for marker genes that are less specific for pluripotent stem cells (CYP26A1 and TERT) in primary induction culture. This tendency may reflect the molecular mechanism underlying the induction of human skin-derived cells into pluripotent stem cells. Among the colonies induced by the four-gene transduction,small cells with a high nucleus-to-cytoplasm ratio could be established by repeated cloning. Subsequently established cell lines were similar to human embryonic stem cells as well as human induced pluripotent stem (iPS) cells derived from adult tissue in morphology,gene expression,long-term self-renewal ability,and teratoma formation. Genome-wide single-nucleotide polymorphism array analysis of the human iPS cell line indicates that the induction process did not induce DNA mutation. ?? 2008 Elsevier B.V. All rights reserved.
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Wills QF et al. (JAN 2017)
BMC genomics 18 1 53
The nature and nurture of cell heterogeneity: accounting for macrophage gene-environment interactions with single-cell RNA-Seq.
BACKGROUND Single-cell RNA-Seq can be a valuable and unbiased tool to dissect cellular heterogeneity,despite the transcriptome's limitations in describing higher functional phenotypes and protein events. Perhaps the most important shortfall with transcriptomic 'snapshots' of cell populations is that they risk being descriptive,only cataloging heterogeneity at one point in time,and without microenvironmental context. Studying the genetic ('nature') and environmental ('nurture') modifiers of heterogeneity,and how cell population dynamics unfold over time in response to these modifiers is key when studying highly plastic cells such as macrophages. RESULTS We introduce the programmable Polaris microfluidic lab-on-chip for single-cell sequencing,which performs live-cell imaging while controlling for the culture microenvironment of each cell. Using gene-edited macrophages we demonstrate how previously unappreciated knockout effects of SAMHD1,such as an altered oxidative stress response,have a large paracrine signaling component. Furthermore,we demonstrate single-cell pathway enrichments for cell cycle arrest and APOBEC3G degradation,both associated with the oxidative stress response and altered proteostasis. Interestingly,SAMHD1 and APOBEC3G are both HIV-1 inhibitors ('restriction factors'),with no known co-regulation. CONCLUSION As single-cell methods continue to mature,so will the ability to move beyond simple 'snapshots' of cell populations towards studying the determinants of population dynamics. By combining single-cell culture,live-cell imaging,and single-cell sequencing,we have demonstrated the ability to study cell phenotypes and microenvironmental influences. It's these microenvironmental components - ignored by standard single-cell workflows - that likely determine how macrophages,for example,react to inflammation and form treatment resistant HIV reservoirs.
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Pijuan-Galitó et al. ( 2016)
Nature communications 7 12170
Human serum-derived protein removes the need for coating in defined human pluripotent stem cell culture.
Reliable,scalable and time-efficient culture methods are required to fully realize the clinical and industrial applications of human pluripotent stem (hPS) cells. Here we present a completely defined,xeno-free medium that supports long-term propagation of hPS cells on uncoated tissue culture plastic. The medium consists of the Essential 8 (E8) formulation supplemented with inter-α-inhibitor (IαI),a human serum-derived protein,recently demonstrated to activate key pluripotency pathways in mouse PS cells. IαI efficiently induces attachment and long-term growth of both embryonic and induced hPS cell lines when added as a soluble protein to the medium at seeding. IαI supplementation efficiently supports adaptation of feeder-dependent hPS cells to xeno-free conditions,clonal growth as well as single-cell survival in the absence of Rho-associated kinase inhibitor (ROCKi). This time-efficient and simplified culture method paves the way for large-scale,high-throughput hPS cell culture,and will be valuable for both basic research and commercial applications.
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