Stelling MP et al. (MAR 2013)
Glycobiology 23 3 337--345
Matrix-bound heparan sulfate is essential for the growth and pluripotency of human embryonic stem cells
Human embryonic stem (hES) cell production of heparan sulfate influences cell fate and pluripotency. Human ES cells remain pluripotent in vitro through the action of growth factors signaling,and the activity of these factors depends on interaction with specific receptors and also with heparan sulfate. Here,we tested the hypothesis that matrix-associated heparan sulfate is enough to maintain hES cells under low fibroblast growth factor-2 concentration in the absence of live feeder cells. To pursue this goal,we compared hES cells cultured either on coated plates containing live murine embryonic fibroblasts (MEFs) or on a matrix derived from ethanol-fixed MEFs. hES cells were analyzed for the expression of pluripotency markers and the ability to form embryoid bodies. hES cells cultured either on live mouse fibroblasts or onto a matrix derived from fixed fibroblasts expressed similar levels of Oct-4,SOX-2,Nanog,TRA-1-60 and SSEA-4,and they were also able to form cavitated embryoid bodies. Heparan sulfate-depleted matrix lost the ability to support the adherence and growth of hES cells,confirming that this glycosaminoglycan,bound to the extracellular matrix,is enough for the growth and attachment of hES cells. Finally,we observed that the ethanol-fixed matrix decreases by 30% the levels of Neu5Gc in hES cells,indicating that this procedure reduces xeno-contamination. Our data suggest that matrix-bound heparan sulfate is required for the growth and pluripotency of hES cells and that ethanol-fixed MEFs may be used as a live cell"-free substrate for stem cells."
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mTeSR™1
mTeSR™1
Xu S et al. (JAN 2010)
Journal of biomedicine & biotechnology 2010 105940
An improved harvest and in vitro expansion protocol for murine bone marrow-derived mesenchymal stem cells.
Compared to bone marrow (BM) derived mesenchymal stem cells (MSCs) from human origin or from other species,the in vitro expansion and purification of murine MSCs (mMSCs) is much more difficult because of the low MSC yield and the unwanted growth of non-MSCs in the in vitro expansion cultures. We describe a modified protocol to isolate and expand murine BM derived MSCs based on the combination of mechanical crushing and collagenase digestion at the moment of harvest,followed by an immunodepletion step using microbeads coated with CD11b,CD45 and CD34 antibodies. The number of isolated mMSCs as estimated by colony forming unit-fibroblast (CFU-F) assay showed that this modified isolation method could yield 70.0% more primary colonies. After immunodepletion,a homogenous mMSC population could already be obtained after two passages. Immunodepleted mMSCs (ID-mMSCs) are uniformly positive for stem cell antigen-1 (Sca-1),CD90,CD105 and CD73 cell surface markers,but negative for the hematopoietic surface markers CD14,CD34 and CD45. Moreover the immunodepleted cell population exhibits more differentiation potential into adipogenic,osteogenic and chondrogenic lineages. Our data illustrate the development of an efficient and reliable expansion protocol increasing the yield and purity of mMSCs and reducing the overall expansion time.
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产品类型:
产品号#:
05502
产品名:
Escobedo-Lucea C et al. (MAR 2012)
Stem Cell Reviews and Reports 8 1 170--183
Development of a human extracellular matrix for applications related with stem cells and tissue engineering.
Xia G et al. (APR 2013)
Cellular reprogramming 15 2 166--77
Generation of neural cells from DM1 induced pluripotent stem cells as cellular model for the study of central nervous system neuropathogenesis.
Dystrophia myotonica type 1 (DM1) is an autosomal dominant multisystem disorder. The pathogenesis of central nervous system (CNS) involvement is poorly understood. Disease-specific induced pluripotent stem cell (iPSC) lines would provide an alternative model. In this study,we generated two DM1 lines and a normal iPSC line from dermal fibroblasts by retroviral transduction of Yamanaka's four factors (hOct4,hSox2,hKlf4,and hc-Myc). Both DM1 and control iPSC clones showed typical human embryonic stem cell (hESC) growth patterns with a high nuclear-to-cytoplasm ratio. The iPSC colonies maintained the same growth pattern through subsequent passages. All iPSC lines expressed stem cell markers and differentiated into cells derived from three embryonic germ layers. All iPSC lines underwent normal neural differentiation. Intranuclear RNA foci,a hallmark of DM1,were detected in DM1 iPSCs,neural stem cells (NSCs),and terminally differentiated neurons and astrocytes. In conclusion,we have successfully established disease-specific human DM1 iPSC lines,NSCs,and neuronal lineages with pathognomonic intranuclear RNA foci,which offer an unlimited cell resource for CNS mechanistic studies and a translational platform for therapeutic development.
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产品类型:
产品号#:
05854
05855
产品名:
mFreSR™
mFreSR™
Geng Y and Feng B (JUL 2016)
Heliyon 2 7 e00133
A small molecule-based strategy for endothelial differentiation and three-dimensional morphogenesis from human embryonic stem cells
The emerging models of human embryonic stem cell (hESC) self-organizing organoids provide a valuable in vitro platform for studying self-organizing processes that presumably mimic in vivo human developmental events. Here we report that through a chemical screen,we identified two novel and structurally similar small molecules BIR1 and BIR2 which robustly induced the self-organization of a balloon-shaped three-dimensional structure when applied to two-dimensional adherent hESC cultures in the absence of growth factors. Gene expression analyses and functional assays demonstrated an endothelial identity of this balloon-like structure,while cell surface marker analyses revealed a VE-cadherin+CD31+CD34+KDR+CD43???putative endothelial progenitor population. Furthermore,molecular marker labeling and morphological examinations characterized several other distinct DiI-Ac-LDL+multi-cellular modules and a VEGFR3+sprouting structure in the balloon cultures that likely represented intermediate structures of balloon-formation.
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mTeSR™1
mTeSR™1
Massumi M et al. ( 2016)
PloS one 11 10 e0164457
An Abbreviated Protocol for In Vitro Generation of Functional Human Embryonic Stem Cell-Derived Beta-Like Cells.
The ability to yield glucose-responsive pancreatic beta-cells from human pluripotent stem cells in vitro will facilitate the development of the cell replacement therapies for the treatment of Type 1 Diabetes. Here,through the sequential in vitro targeting of selected signaling pathways,we have developed an abbreviated five-stage protocol (25-30 days) to generate human Embryonic Stem Cell-Derived Beta-like Cells (ES-DBCs). We showed that Geltrex,as an extracellular matrix,could support the generation of ES-DBCs more efficiently than that of the previously described culture systems. The activation of FGF and Retinoic Acid along with the inhibition of BMP,SHH and TGF-beta led to the generation of 75% NKX6.1+/NGN3+ Endocrine Progenitors. The inhibition of Notch and tyrosine kinase receptor AXL,and the treatment with Exendin-4 and T3 in the final stage resulted in 35% mono-hormonal insulin positive cells,1% insulin and glucagon positive cells and 30% insulin and NKX6.1 co-expressing cells. Functionally,ES-DBCs were responsive to high glucose in static incubation and perifusion studies,and could secrete insulin in response to successive glucose stimulations. Mitochondrial metabolic flux analyses using Seahorse demonstrated that the ES-DBCs could efficiently metabolize glucose and generate intracellular signals to trigger insulin secretion. In conclusion,targeting selected signaling pathways for 25-30 days was sufficient to generate ES-DBCs in vitro. The ability of ES-DBCs to secrete insulin in response to glucose renders them a promising model for the in vitro screening of drugs,small molecules or genes that may have potential to influence beta-cell function.
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产品号#:
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mTeSR™1
mTeSR™1
tze Wu D et al. (APR 2012)
PLoS ONE 7 4 e34778
Antibody-directed lentiviral gene transduction for live-cell monitoring and selection of human iPS and hES cells
The identification of stem cells within a mixed population of cells is a major hurdle for stem cell biology--in particular,in the identification of induced pluripotent stem (iPS) cells during the reprogramming process. Based on the selective expression of stem cell surface markers,a method to specifically infect stem cells through antibody-conjugated lentiviral particles has been developed that can deliver both visual markers for live-cell imaging as well as selectable markers to enrich for iPS cells. Antibodies recognizing SSEA4 and CD24 mediated the selective infection of the iPS cells over the parental human fibroblasts,allowing for rapid expansion of these cells by puromycin selection. Adaptation of the vector allows for the selective marking of human embryonic stem (hES) cells for their removal from a population of differentiated cells. This method has the benefit that it not only identifies stem cells,but that specific genes,including positive and negative selection markers,regulatory genes or miRNA can be delivered to the targeted stem cells. The ability to specifically target gene delivery to human pluripotent stem cells has broad applications in tissue engineering and stem cell therapies.
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05850
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27145
73342
73344
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产品名:
嘌呤霉素 (Dihydrochloride)
嘌呤霉素 (Dihydrochloride)
mTeSR™1
mTeSR™1
Weng Z et al. (JUL 2014)
Stem cells and development 23 14 1704--1716
A simple, cost-effective but highly efficient system for deriving ventricular cardiomyocytes from human pluripotent stem cells.
Self-renewable human pluripotent stem cells (hPSCs) serve as a potential unlimited ex vivo source of human cardiomyocytes (CMs) for cell-based disease modeling and therapies. Although recent advances in directed differentiation protocols have enabled more efficient derivation of hPSC-derived CMs with an efficiency of ∼50%-80% CMs and a final yield of ∼1-20 CMs per starting undifferentiated hPSC,these protocols are often not readily transferrable across lines without first optimizing multiple parameters. Further,the resultant populations are undefined for chamber specificity or heterogeneous containing mixtures of atrial,ventricular (V),and pacemaker derivatives. Here we report a highly cost-effective and reproducibly efficient system for deriving hPSC-ventricular cardiomyocytes (VCMs) from all five human embryonic stem cell (HES2,H7,and H9) and human induced PSC (hiPSC) (reprogrammed from human adult peripheral blood CD34(+) cells using nonintegrating episomal vectors) lines tested. Cardiogenic embryoid bodies could be formed by the sequential addition of BMP4,Rho kinase inhibitor,activin-A,and IWR-1. Spontaneously contracting clusters appeared as early as day 8. At day 16,up to 95% of cells were cTnT(+). Of which,93%,94%,100%,92%,and 92% of cardiac derivatives from HES2,H7,H9,and two iPSC lines,respectively,were VCMs as gauged by signature ventricular action potential and ionic currents (INa(+)/ICa,L(+)/IKr(+)/IKATP(+)); Ca(2+) transients showed positive chronotropic responses to $\$-adrenergic stimulation. Our simple,cost-effective protocol required the least amounts of reagents and time compared with others. While the purity and percentage of PSC-VCMs were comparable to a recently published protocol,the present yield and efficiency with a final output of up to 70 hPSC-VCMs per hPSC was up to 5-fold higher and without the need of performing line-specific optimization. These differences were discussed. The results may lead to mass production of hPSC-VCMs in bioreactors.
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产品号#:
02690
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07913
09850
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产品名:
StemSpan™ CC100
Dispase(5 U/mL)
mTeSR™1
mTeSR™1
Haraguchi Y et al. (DEC 2015)
Journal of Tissue Engineering and Regenerative Medicine 9 12 1363--1375
Simple suspension culture system of human iPS cells maintaining their pluripotency for cardiac cell sheet engineering.
In this study,a simple three-dimensional (3D) suspension culture method for the expansion and cardiac differentiation of human induced pluripotent stem cells (hiPSCs) is reported. The culture methods were easily adapted from two-dimensional (2D) to 3D culture without any additional manipulations. When hiPSCs were directly applied to 3D culture from 2D in a single-cell suspension,only a few aggregated cells were observed. However,after 3 days,culture of the small hiPSC aggregates in a spinner flask at the optimal agitation rate created aggregates which were capable of cell passages from the single-cell suspension. Cell numbers increased to approximately 10-fold after 12 days of culture. The undifferentiated state of expanded hiPSCs was confirmed by flow cytometry,immunocytochemistry and quantitative RT-PCR,and the hiPSCs differentiated into three germ layers. When the hiPSCs were subsequently cultured in a flask using cardiac differentiation medium,expression of cardiac cell-specific genes and beating cardiomyocytes were observed. Furthermore,the culture of hiPSCs on Matrigel-coated dishes with serum-free medium containing activin A,BMP4 and FGF-2 enabled it to generate robust spontaneous beating cardiomyocytes and these cells expressed several cardiac cell-related genes,including HCN4,MLC-2a and MLC-2v. This suggests that the expanded hiPSCs might maintain the potential to differentiate into several types of cardiomyocytes,including pacemakers. Moreover,when cardiac cell sheets were fabricated using differentiated cardiomyocytes,they beat spontaneously and synchronously,indicating electrically communicative tissue. This simple culture system might enable the generation of sufficient amounts of beating cardiomyocytes for use in cardiac regenerative medicine and tissue engineering.
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07174
60002
60002AD
60002AD.1
60002AZ
60002AZ.1
60002BT
60002BT.1
60002FI
60002FI.1
60002PE
60002PE.1
60002PS
60002PS.1
60002PB
60002PB.1
60062
60062AD
60062AD.1
60062BT
60062FI
60062FI.1
60062PE
60062PE.1
85850
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1
产品名:
抗小鼠CD11c抗体,克隆N418
抗小鼠CD11c抗体,clone N418,Alexa Fluor® 488
抗小鼠CD11c抗体,克隆N418,APC
抗小鼠CD11c抗体,克隆N418,APC
抗小鼠CD11c抗体,克隆N418,Biotin
抗小鼠CD11c抗体,克隆N418,FITC
抗小鼠CD11c抗体,克隆N418,PerCP-Cy5.5
抗小鼠CD11c抗体,克隆N418,Pacific Blue™
抗小鼠CD11c抗体,克隆N418,Pacific Blue™
抗人SSEA-4抗体,克隆号MC-813-70,生物素
抗人SSEA-4抗体,克隆号MC-813-70,FITC
抗人SSEA-4抗体, 克隆号MC-813-70,FITC
抗人SSEA-4抗体,克隆号MC-813-70,PE
抗人SSEA-4抗体,克隆号MC-813-70,PE
mTeSR™1
mTeSR™1
Shinkuma S et al. (MAY 2016)
Proceedings of the National Academy of Sciences of the United States of America 113 20 5676--5681
Site-specific genome editing for correction of induced pluripotent stem cells derived from dominant dystrophic epidermolysis bullosa.
Genome editing with engineered site-specific endonucleases involves nonhomologous end-joining,leading to reading frame disruption. The approach is applicable to dominant negative disorders,which can be treated simply by knocking out the mutant allele,while leaving the normal allele intact. We applied this strategy to dominant dystrophic epidermolysis bullosa (DDEB),which is caused by a dominant negative mutation in the COL7A1 gene encoding type VII collagen (COL7). We performed genome editing with TALENs and CRISPR/Cas9 targeting the mutation,c.80688084delinsGA. We then cotransfected Cas9 and guide RNA expression vectors expressed with GFP and DsRed,respectively,into induced pluripotent stem cells (iPSCs) generated from DDEB fibroblasts. After sorting,90% of the iPSCs were edited,and we selected four gene-edited iPSC lines for further study. These iPSCs were differentiated into keratinocytes and fibroblasts secreting COL7. RT-PCR and Western blot analyses revealed gene-edited COL7 with frameshift mutations degraded at the protein level. In addition,we confirmed that the gene-edited truncated COL7 could neither associate with normal COL7 nor undergo triple helix formation. Our data establish the feasibility of mutation site-specific genome editing in dominant negative disorders.
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mTeSR™1
mTeSR™1
Cunha B et al. (NOV 2015)
Journal of biotechnology 213 97--108
Exploring continuous and integrated strategies for the up- and downstream processing of human mesenchymal stem cells.
The integration of up- and downstream unit operations can result in the elimination of hold steps,thus decreasing the footprint,and ultimately can create robust closed system operations. This type of design is desirable for the bioprocess of human mesenchymal stem cells (hMSC),where high numbers of pure cells,at low volumes,need to be delivered for therapy applications. This study reports a proof of concept of the integration of a continuous perfusion culture in bioreactors with a tangential flow filtration (TFF) system for the concentration and washing of hMSC. Moreover,we have also explored a continuous alternative for concentrating hMSC. Results show that expanding cells in a continuous perfusion operation mode provided a higher expansion ratio,and led to a shift in cells' metabolism. TFF operated either in continuous or discontinuous allowed to concentrate cells,with high cell recovery (>80%) and viability (>95%); furthermore,continuous TFF permitted to operate longer with higher cell concentrations. Continuous diafiltration led to higher protein clearance (98%) with lower cell death,when comparing to discontinuous diafiltration. Overall,an integrated process allowed for a shorter process time,recovering 70% of viable hMSC (>95%),with no changes in terms of morphology,immunophenotype,proliferation capacity and multipotent differentiation potential.
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产品类型:
产品号#:
70022
70071
产品名:
Sugimine Y et al. (SEP 2016)
International journal of hematology
A portable platform for stepwise hematopoiesis from human pluripotent stem cells within PET-reinforced collagen sponges.
Various systems for differentiating hematopoietic cells from human pluripotent stem cells (PSCs) have been developed,although none have been fully optimized. In this report,we describe the development of a novel three-dimensional system for differentiating hematopoietic cells from PSCs using collagen sponges (CSs) reinforced with poly(ethylene terephthalate) fibers as a scaffold. PSCs seeded onto CSs were differentiated in a stepwise manner with appropriate cytokines under serum-free and feeder-free conditions. This process yielded several lineages of floating hematopoietic cells repeatedly for more than 1 month. On immunohistochemical staining,we detected CD34+ cells and CD45+ cells in the surface and cavities of the CS. Taking advantage of the portability of this system,we were able to culture multiple CSs together floating in medium,making it possible to harvest large numbers of hematopoietic cells repeatedly. Given these findings,we suggest that this novel three-dimensional culture system may be useful in the large-scale culture of PSC-derived hematopoietic cells.
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