Begum AN et al. (NOV 2015)
Stem Cell Research 15 3 731--741
Rapid generation of sub-type, region-specific neurons and neural networks from human pluripotent stem cell-derived neurospheres
Stem cell-based neuronal differentiation has provided a unique opportunity for disease modeling and regenerative medicine. Neurospheres are the most commonly used neuroprogenitors for neuronal differentiation,but they often clump in culture,which has always represented a challenge for neurodifferentiation. In this study,we report a novel method and defined culture conditions for generating sub-type or region-specific neurons from human embryonic and induced pluripotent stem cells derived neurosphere without any genetic manipulation. Round and bright-edged neurospheres were generated in a supplemented knockout serum replacement medium (SKSRM) with 10% CO2,which doubled the expression of the NESTIN,PAX6 and FOXG1 genes compared with those cultured with 5% CO2. Furthermore,an additional step (AdSTEP) was introduced to fragment the neurospheres and facilitate the formation of a neuroepithelial-type monolayer that we termed the neurosphederm". The large neural tube-type rosette (NTTR) structure formed from the neurosphederm�
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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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07180
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07931
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85850
85857
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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™
Zaidi SK et al. (SEP 2016)
Journal of Cellular Physiology 231 9 2007--2013
Expression of Ribosomal RNA and Protein Genes in Human Embryonic Stem Cells Is Associated With the Activating H3K4me3 Histone Mark
Embryonic stem cells (ESCs) exhibit unrestricted and indefinite,but stringently controlled,proliferation,and can differentiate into any lineage in the body. In the current study,we test the hypothesis that expression of ribosomal RNA (rRNA) and ribosomal protein genes (RPGs) contribute to the ability of hESCs to proliferate indefinitely. Consistent with the accelerated growth rate of hESCs,we find that hESC lines H1 and H9 both exhibit significantly higher levels of rRNA when compared to a panel of normal and cancer human cell lines. Although many RPGs are expressed at levels that comparable to other human cell lines,a few RPGs also exhibit higher expression levels. In situ nuclear run-on assays reveal that both nucleoli in hESCs actively transcribe nascent rRNA. Employing genome-wide chromatin immunoprecipitation-deep sequencing and bioinformatics approaches,we discovered that,RPGs are dominantly marked by the activating H3K4me3 histone mark in the G1,M,and G2 phases of the cell cycle. Interestingly,the rDNA repeats are marked by the activating H3K4me3 only in the M phase,and repressive H3K27me3 histone mark in all three cell cycle phases. Bioinformatics analyses also reveal that Myc,a known regulator of cell growth and proliferation,occupies both the rRNA genes and RPGs. Functionally,down-regulation of Myc expression by siRNA results in a concomitant decrease in rRNA levels. Together,our results show that expression of rRNA,which is regulated by the Myc pluripotency transcription factor,and of RPGs in hESCs is associated with the activating H3K4me3 modification. J. Cell. Physiol. 231: 2007-2013,2016. textcopyright 2016 Wiley Periodicals,Inc.
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mTeSR™1
mTeSR™1
Wang J et al. (FEB 2016)
Nature protocols 11 2 327--46
Isolation and cultivation of naive-like human pluripotent stem cells based on HERVH expression.
The ability to derive and stably maintain ground-state human pluripotent stem cells (hPSCs) that resemble the cells seen in vivo in the inner cell mass has the potential to be an invaluable tool for researchers developing stem cell-based therapies. To date,derivation of human naive-like pluripotent stem cell lines has been limited to a small number of lineages,and their long-term culturing remains problematic. We describe a protocol for genetic and phenotypic tagging,selecting and maintaining naive-like hPSCs. We tag hPSCs by GFP,expressed by the long terminal repeat (LTR7) of HERVH endogenous retrovirus. This simple and efficient protocol has been reproduced with multiple hPSC lines,including embryonic and induced pluripotent stem cells,and it takes ∼6 weeks. By using the reporter,homogeneous hPSC cultures can be derived,characterized and maintained for the long term by repeated re-sorting and re-plating steps. The HERVH-expressing cells have a similar,but nonidentical,expression pattern to other naive-like cells,suggesting that alternative pluripotent states might exist.
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mTeSR™1
mTeSR™1
Kerscher P et al. (MAR 2016)
Biomaterials 83 383--395
Direct hydrogel encapsulation of pluripotent stem cells enables ontomimetic differentiation and growth of engineered human heart tissues
Human engineered heart tissues have potential to revolutionize cardiac development research,drug-testing,and treatment of heart disease; however,implementation is limited by the need to use pre-differentiated cardiomyocytes (CMs). Here we show that by providing a 3D poly(ethylene glycol)-fibrinogen hydrogel microenvironment,we can directly differentiate human pluripotent stem cells (hPSCs) into contracting heart tissues. Our straight-forward,ontomimetic approach,imitating the process of development,requires only a single cell-handling step,provides reproducible results for a range of tested geometries and size scales,and overcomes inherent limitations in cell maintenance and maturation,while achieving high yields of CMs with developmentally appropriate temporal changes in gene expression. We demonstrate that hPSCs encapsulated within this biomimetic 3D hydrogel microenvironment develop into functional cardiac tissues composed of self-aligned CMs with evidence of ultrastructural maturation,mimicking heart development,and enabling investigation of disease mechanisms and screening of compounds on developing human heart tissue.
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mTeSR™1
mTeSR™1
Kanninen LK et al. (FEB 2016)
Experimental cell research 341 2 207--217
Hepatic differentiation of human pluripotent stem cells on human liver progenitor HepaRG-derived acellular matrix.
Human hepatocytes are extensively needed in drug discovery and development. Stem cell-derived hepatocytes are expected to be an improved and continuous model of human liver to study drug candidates. Generation of endoderm-derived hepatocytes from human pluripotent stem cells (hPSCs),including human embryonic stem cells and induced pluripotent stem cells,is a complex,challenging process requiring specific signals from soluble factors and insoluble matrices at each developmental stage. In this study,we used human liver progenitor HepaRG-derived acellular matrix (ACM) as a hepatic progenitor-specific matrix to induce hepatic commitment of hPSC-derived definitive endoderm (DE) cells. The DE cells showed much better attachment to the HepaRG ACM than other matrices tested and then differentiated towards hepatic cells,which expressed hepatocyte-specific makers. We demonstrate that Matrigel overlay induced hepatocyte phenotype and inhibited biliary epithelial differentiation in two hPSC lines studied. In conclusion,our study demonstrates that the HepaRG ACM,a hepatic progenitor-specific matrix,plays an important role in the hepatic differentiation of hPSCs.
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07923
10215
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产品名:
Dispase (1 U/mL)
mTeSR™1
mTeSR™1
Richardson T et al. (APR 2015)
Acta Biomaterialia 35 153--165
Capsule stiffness regulates the efficiency of pancreatic differentiation of human embryonic stem cells
Encapsulation of donor islets using a hydrogel material is a well-studied strategy for islet transplantation,which protects donor islets from the host immune response. Replacement of donor islets by human embryonic stem cell (hESC) derived islets will also require a means of immune-isolating hESCs by encapsulation. However,a critical consideration of hESC differentiation is the effect of surrounding biophysical environment,in this case capsule biophysical properties,on differentiation. The objective of this study,thus,was to evaluate the effect of capsule properties on growth,viability,and differentiation of encapsulated hESCs throughout pancreatic induction. It was observed that even in the presence of soluble chemical cues for pancreatic induction,substrate properties can significantly modulate pancreatic differentiation,hence necessitating careful tuning of capsule properties. Capsules in the range of 4-7. kPa supported cell growth and viability,whereas capsules of higher stiffness suppressed cell growth. While an increase in capsule stiffness enhanced differentiation at the intermediate definitive endoderm (DE) stage,increased stiffness strongly suppressed pancreatic progenitor (PP) induction. Signaling pathway analysis indicated an increase in pSMAD/pAKT levels with substrate stiffness likely the cause of enhancement of DE differentiation. In contrast,sonic hedgehog inhibition was more efficient under softer gel conditions,which is necessary for successful PP differentiation. Statement of Significance: Cell replacement therapy for type 1 diabetes (T1D),affecting millions of people worldwide,requires the immunoisolation of insulin-producing islets by encapsulation with a semi-impermeable material. Due to the shortage of donor islets,human pluripotent stem cell (hPSC) derived islets are an attractive alternative. However,properties of the encapsulating substrate are known to influence hPSC cell fate. In this work,we determine the effect of substrate stiffness on growth and pancreatic fate of encapsulated hPSCs. We precisely identify the range of substrate properties conducive for pancreatic cell fate,and also the mechanism by which substrate properties modify the cell signaling pathways and hence cell fate. Such information will be critical in driving regenerative cell therapy for long term treatment of T1D.
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mTeSR™1
mTeSR™1
Burkart AM et al. ( 2016)
Scientific reports 6 February 22788
Insulin Resistance in Human iPS Cells Reduces Mitochondrial Size and Function.
Insulin resistance,a critical component of type 2 diabetes (T2D),precedes and predicts T2D onset. T2D is also associated with mitochondrial dysfunction. To define the cause-effect relationship between insulin resistance and mitochondrial dysfunction,we compared mitochondrial metabolism in induced pluripotent stem cells (iPSC) from 5 healthy individuals and 4 patients with genetic insulin resistance due to insulin receptor mutations. Insulin-resistant iPSC had increased mitochondrial number and decreased mitochondrial size. Mitochondrial oxidative function was impaired,with decreased citrate synthase activity and spare respiratory capacity. Simultaneously,expression of multiple glycolytic enzymes was decreased,while lactate production increased 80%. These perturbations were accompanied by an increase in ADP/ATP ratio and 3-fold increase in AMPK activity,indicating energetic stress. Insulin-resistant iPSC also showed reduced catalase activity and increased susceptibility to oxidative stress. Thus,insulin resistance can lead to mitochondrial dysfunction with reduced mitochondrial size,oxidative activity,and energy production.
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mTeSR™1
mTeSR™1
Keller KC et al. (MAR 2016)
Stem Cells and Development 25 13 scd.2015.0367
Wnt5a Supports Osteogenic Lineage Decisions in Embryonic Stem Cells
The specification of pluripotent stem cells into the bone-forming osteoblasts has been explored in a number of studies. However,the current body of literature has yet to adequately address the role of Wnt glycoproteins in the differentiation of pluripotent stem cells along the osteogenic lineage. During mouse embryonic stem cell (ESC) in vitro osteogenesis,the non-canonical WNT5a is expressed early on. Cells either sorted by their positive WNT5a expression or when supplemented with recombinant WNT5a (rWNT5a) during a two-day window showed significantly enhanced osteogenic yield. Mechanistically,rWNT5a supplementation up-regulated PKC,CamKII and JNK activity while antagonizing the key effector of canonical Wnt signaling: beta-catenin. Conversely,when recombinant WNT3a (rWNT3a) or other positive regulators of �?�-catenin were employed during this same time-window there was a decrease in osteogenic marker expression. However,if rWNT3a was supplemented during a time-window following rWNT5a treatment,osteogenic differentiation was enhanced both in murine and human ESCs. Elucidating the role of these WNT ligands in directing the early stages of osteogenesis has the potential to considerably improve tissue engineering protocols and applications for regenerative medicine.
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mTeSR™1
mTeSR™1
Davenport C et al. (issue=109 2016)
Journal of visualized experiments : JoVE 109
A Quick and Efficient Method for the Purification of Endoderm Cells Generated from Human Embryonic Stem Cells.
The differentiation capabilities of pluripotent stem cells such as embryonic stem cells (ESCs) allow a potential therapeutic application for cell replacement therapies. Terminally differentiated cell types could be used for the treatment of various degenerative diseases. In vitro differentiation of these cells towards tissues of the lung,liver and pancreas requires as a first step the generation of definitive endodermal cells. This step is rate-limiting for further differentiation towards terminally matured cell types such as insulin-producing beta cells,hepatocytes or other endoderm-derived cell types. Cells that are committed towards the endoderm lineage highly express a multitude of transcription factors such as FOXA2,SOX17,HNF1B,members of the GATA family,and the surface receptor CXCR4. However,differentiation protocols are rarely 100% efficient. Here,we describe a method for the purification of a CXCR4+ cell population after differentiation into the DE by using magnetic microbeads. This purification additionally removes cells of unwanted lineages. The gentle purification method is quick and reliable and might be used to improve downstream applications and differentiations.
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mTeSR™1
mTeSR™1
Luo C et al. (APR 2016)
ACS Applied Materials and Interfaces 8 13 8367--8375
Improving the Gene Transfection in Human Embryonic Stem Cells: Balancing with Cytotoxicity and Pluripotent Maintenance
Manipulation of genes in human embryonic stem cells (hESCs) is imperative for their highly potential applications; however,the transduction efficiency remains very low. Although existing evidence revealed the type,size,and zeta potential of vector affect gene transfection efficiency in cells,the systematic study in hESCs is scarce. In this study,using poly(amidoamine) (PAMAM) dendrimers ended with amine,hydroxyl,or carboxyl as model,we tested the influences of size and surface group as well as cytotoxicity and endocytosis on hESC gene transfection. We found that in culture medium of mTeSR the particle sizes of G5,G7,G4.5COOH,and G5OH were around 5 nm and G1 had a smaller size of 3.14 nm. G5 and G7 had a slight and significant positive zeta potential,respectively,whereas G1 was slightly negative,and G4.5COOH and G5OH were significantly negative. We demonstrated that only amine-terminated dendrimers accomplished gene transfection in hESCs,which is greater than that from Lipofectamine 2000 transfection. Ten micromolar G5 had the greatest efficiency and was better than 1000 μM G1. Only a low concentration (0.5 and 1 μM) of G7 realized gene delivery. Amine-ended dendrimers,especially with higher generations,were detrimental to the growth and pluripotent maintenance of hESCs. In contrast,similarly sized hydroxyl- and carboxyl-terminated dendrimers exerted much lower cytotoxicity,in which carboxyl-terminated dendrimer maintained pluripotency of hESCs. We also confirmed the endocytosis into and significant exocytosis from hESCs using FITC-labeled G5 dendrimer. These results suggested that careful considerations of size,concentration,and zeta potential,particularly the identity and position of groups,as well as minimized exocytosis in the design of a vector for hESC gene delivery are necessary,which helps to better design an effective vector in hESC gene transduction.
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mTeSR™1
mTeSR™1
Tidball AM et al. ( 2016)
PloS one 11 3 e0150372
Genomic Instability Associated with p53 Knockdown in the Generation of Huntington's Disease Human Induced Pluripotent Stem Cells.
Alterations in DNA damage response and repair have been observed in Huntington's disease (HD). We generated induced pluripotent stem cells (iPSC) from primary dermal fibroblasts of 5 patients with HD and 5 control subjects. A significant fraction of the HD iPSC lines had genomic abnormalities as assessed by karyotype analysis,while none of our control lines had detectable genomic abnormalities. We demonstrate a statistically significant increase in genomic instability in HD cells during reprogramming. We also report a significant association with repeat length and severity of this instability. Our karyotypically normal HD iPSCs also have elevated ATM-p53 signaling as shown by elevated levels of phosphorylated p53 and H2AX,indicating either elevated DNA damage or hypersensitive DNA damage signaling in HD iPSCs. Thus,increased DNA damage responses in the HD genotype is coincidental with the observed chromosomal aberrations. We conclude that the disease causing mutation in HD increases the propensity of chromosomal instability relative to control fibroblasts specifically during reprogramming to a pluripotent state by a commonly used episomal-based method that includes p53 knockdown.
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