Coffman KT et al. (NOV 2003)
Cancer Research 63 22 7907--12
Differential EphA2 epitope display on normal versus malignant cells.
The EphA2 receptor tyrosine kinase is overexpressed in many different types of human cancers where it functions as a powerful oncoprotein. Dramatic changes in the subcellular localization and function of EphA2 have also been linked with cancer,and in particular,unstable cancer cell-cell contacts prevent EphA2 from stably binding its ligand on the surface of adjoining cells. This change is important in light of evidence that ligand binding causes EphA2 to transmit signals that negatively regulate tumor cell growth and invasiveness and also induce EphA2 degradation. On the basis of these properties,we have begun to target EphA2 on tumor cells using agonistic antibodies,which mimic the consequences of ligand binding. In our present study,we show that a subset of agonistic EphA2 antibodies selectively bind epitopes on malignant cells,which are not available on nontransformed epithelial cells. We also show that such epitopes arise from differential cell-cell adhesions and that the stable intercellular junctions of nontransformed epithelial cells occlude the binding site for ligand,as well as this subset of EphA2 antibodies. Finally,we demonstrate that antibody targeting of EphA2 decreases tumor cell growth as measured using xenograft tumor models and found that the mechanism of antibody action relates to EphA2 protein degradation in vivo. Taken together,these results suggest new opportunities for therapeutic targeting of the large number of different cancers that express EphA2 in a manner that could minimize potential toxicities to normal cells.
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产品类型:
产品号#:
03800
03801
03802
03803
03804
03805
03806
产品名:
ClonaCell™-HY杂交瘤试剂盒
ClonaCell™-HY培养基A
ClonaCell™-HY 培养基 B
ClonaCell™-HY 培养基 C
ClonaCell™-HY 培养基 D
ClonaCell™-HY 培养基 E
ClonaCell™-HY PEG
Lou Y-R et al. (FEB 2014)
Stem Cells and Development 23 4 380--392
The Use of Nanofibrillar Cellulose Hydrogel As a Flexible Three-Dimensional Model to Culture Human Pluripotent Stem Cells
Human embryonic stem cells and induced pluripotent stem cells have great potential in research and thera-pies. The current in vitro culture systems for human pluripotent stem cells (hPSCs) do not mimic the three-dimensional (3D) in vivo stem cell niche that transiently supports stem cell proliferation and is subject to changes which facilitate subsequent differentiation during development. Here,we demonstrate,for the first time,that a novel plant-derived nanofibrillar cellulose (NFC) hydrogel creates a flexible 3D environment for hPSC culture. The pluripotency of hPSCs cultured in the NFC hydrogel was maintained for 26 days as evidenced by the expression of OCT4,NANOG,and SSEA-4,in vitro embryoid body formation and in vivo teratoma formation. The use of a cellulose enzyme,cellulase,enables easy cell propagation in 3D culture as well as a shift between 3D and two-dimensional cultures. More importantly,the removal of the NFC hydrogel facilitates differentiation while retaining 3D cell organization. Thus,the NFC hydrogel represents a flexible,xeno-free 3D culture system that supports pluripotency and will be useful in hPSC-based drug research and regenerative medicine.
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产品号#:
05850
05857
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07923
85850
85857
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85875
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Dispase (1 U/mL)
mTeSR™1
mTeSR™1
Park Y et al. (MAR 2014)
Journal of Biotechnology 174 1 39--48
Hepatic differentiation of human embryonic stem cells on microcarriers
Translation of stem cell research to industrial and clinical settings mostly requires large quantities of cells,especially those involving large organs such as the liver. A scalable reactor system is desirable to ensure a reliable supply of sufficient quantities of differentiated cells. To increase the culture efficiency in bioreactor system,high surface to volume ratio needs to be achieved. We employed a microcarrier culture system for the expansion of undifferentiated human embryonic stem cells (hESCs) as well as for directed differentiation of these cells to hepatocyte-like cells. Cells in single cell suspension were attached to the bead surface in even distribution and were expanded to 1??106cells/ml within 2 days of hESC culture with maintenance of the level of pluripotency markers. Directed differentiation into hepatocyte-like cells on microcarriers,both in static culture and stirred bioreactors,induced similar levels of hepatocyte-like cell differentiation as observed with cells cultured in conventional tissue culture plates. The cells expressed both immature and mature hepatocyte-lineage genes and proteins such as asialoglycoprotein receptor-1 (ASGPR-1) and albumin. Differentiated cells exhibited functional characteristics such as secretion of albumin and urea,and CYP3A4 activity could be detected. Microcarriers thus offer the potential for large-scale expansion and differentiation of hESCs induced hepatocyte-like cells in a more controllable bioreactor environment. ?? 2014.
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05857
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产品名:
mTeSR™1
mTeSR™1
Watson CL et al. (NOV 2014)
Nature Medicine 20 11 1310--4
An in vivo model of human small intestine using pluripotent stem cells.
Differentiation of human pluripotent stem cells (hPSCs) into organ-specific subtypes offers an exciting avenue for the study of embryonic development and disease processes,for pharmacologic studies and as a potential resource for therapeutic transplant. To date,limited in vivo models exist for human intestine,all of which are dependent upon primary epithelial cultures or digested tissue from surgical biopsies that include mesenchymal cells transplanted on biodegradable scaffolds. Here,we generated human intestinal organoids (HIOs) produced in vitro from human embryonic stem cells (ESCs) or induced pluripotent stem cells (iPSCs) that can engraft in vivo. These HIOs form mature human intestinal epithelium with intestinal stem cells contributing to the crypt-villus architecture and a laminated human mesenchyme,both supported by mouse vasculature ingrowth. In vivo transplantation resulted in marked expansion and maturation of the epithelium and mesenchyme,as demonstrated by differentiated intestinal cell lineages (enterocytes,goblet cells,Paneth cells,tuft cells and enteroendocrine cells),presence of functional brush-border enzymes (lactase,sucrase-isomaltase and dipeptidyl peptidase 4) and visible subepithelial and smooth muscle layers when compared with HIOs in vitro. Transplanted intestinal tissues demonstrated digestive functions as shown by permeability and peptide uptake studies. Furthermore,transplanted HIO-derived tissue was responsive to systemic signals from the host mouse following ileocecal resection,suggesting a role for circulating factors in the intestinal adaptive response. This model of the human small intestine may pave the way for studies of intestinal physiology,disease and translational studies.
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产品类型:
产品号#:
05854
05855
05850
05857
05870
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85857
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85875
产品名:
mFreSR™
mFreSR™
mTeSR™1
mTeSR™1
Ye L et al. ( 2015)
1299 103--114
Fabrication of a myocardial patch with cells differentiated from human-induced pluripotent stem cells
The incidence of cardiovascular disease represents a significant and growing health-care challenge to the developed and developing world. The ability of native heart muscle to regenerate in response to myocardial infarct is minimal. Tissue engineering and regenerative medicine approaches represent one promising response to this difficulty. Here,we present methods for the construction of a cell-seeded cardiac patch with the potential to promote regenerative outcomes in heart muscle with damage secondary to myocardial infarct. This method leverages iPS cells and a fibrin-based scaffold to create a simple and commercially viable tissue-engineered cardiac patch. Human-induced pluripotent stem cells (hiPSCs) can,in principle,be differentiated into cells of any lineage. However,most of the protocols used to generate hiPSC-derived endothelial cells (ECs) and cardiomyocytes (CMs) are unsatisfactory because the yield and phenotypic stability of the hiPSC-ECs are low,and the hiPSC-CMs are often purified via selection for expression of a promoter-reporter construct. In this chapter,we describe an hiPSC-EC differentiation protocol that generates large numbers of stable ECs and an hiPSC-CM differentiation protocol that does not require genetic manipulation,single-cell selection,or sorting with fluorescent dyes or other reagents. We also provide a simple but effective method that can be used to combine hiPSC-ECs and hiPSC-CMs with hiPSC-derived smooth muscle cells to engineer a contracting patch of cardiac cells.
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产品类型:
产品号#:
05850
05857
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产品名:
mTeSR™1
mTeSR™1
Zhang P-WW et al. (JAN 2016)
Glia 64 1 63--75
Generation of GFAP::GFP astrocyte reporter lines from human adult fibroblast-derived iPS cells using zinc-finger nuclease technology.
Astrocytes are instrumental to major brain functions,including metabolic support,extracellular ion regulation,the shaping of excitatory signaling events and maintenance of synaptic glutamate homeostasis. Astrocyte dysfunction contributes to numerous developmental,psychiatric and neurodegenerative disorders. The generation of adult human fibroblast-derived induced pluripotent stem cells (iPSCs) has provided novel opportunities to study mechanisms of astrocyte dysfunction in human-derived cells. To overcome the difficulties of cell type heterogeneity during the differentiation process from iPSCs to astroglial cells (iPS astrocytes),we generated homogenous populations of iPS astrocytes using zinc-finger nuclease (ZFN) technology. Enhanced green fluorescent protein (eGFP) driven by the astrocyte-specific glial fibrillary acidic protein (GFAP) promoter was inserted into the safe harbor adeno-associated virus integration site 1 (AAVS1) locus in disease and control-derived iPSCs. Astrocyte populations were enriched using Fluorescence Activated Cell Sorting (FACS) and after enrichment more than 99% of iPS astrocytes expressed mature astrocyte markers including GFAP,S100$\$,NFIA and ALDH1L1. In addition,mature pure GFP-iPS astrocytes exhibited a well-described functional astrocytic activity in vitro characterized by neuron-dependent regulation of glutamate transporters to regulate extracellular glutamate concentrations. Engraftment of GFP-iPS astrocytes into rat spinal cord grey matter confirmed in vivo cell survival and continued astrocytic maturation. In conclusion,the generation of GFAP::GFP-iPS astrocytes provides a powerful in vitro and in vivo tool for studying astrocyte biology and astrocyte-driven disease pathogenesis and therapy.
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产品类型:
产品号#:
05850
05857
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05835
05839
08581
08582
产品名:
mTeSR™1
mTeSR™1
STEMdiff™ 神经诱导培养基
STEMdiff™ 神经诱导培养基
STEMdiff™SMADi神经诱导试剂盒
STEMdiff™SMADi神经诱导试剂盒,2套
Sun Y et al. (MAY 2016)
mBio 7 2 e00465--16
Deletion of a Yci1 Domain Protein of Candida albicans Allows Homothallic Mating in MTL Heterozygous Cells
It has been proposed that the ancestral fungus was mating competent and homothallic. However,many mating-competent fungi were initially classified as asexual because their mating capacity was hidden behind layers of regulation. For efficient in vitro mating,the essentially obligate diploid ascomycete pathogen Candida albicans has to change its mating type locus from heterozygous MTL a /α to homozygous MTL a / a or MTL α/α and then undergo an environmentally controlled epigenetic switch to the mating-competent opaque form. These requirements greatly reduce the potential for C. albicans mating. Deletion of the Yci1 domain gene OFR1 bypasses the need for C. albicans cells to change the mating type locus from heterozygous to homozygous prior to switching to the opaque form and mating and allows homothallic mating of MTL heterozygous strains. This bypass is carbon source dependent and does not occur when cells are grown on glucose. Transcriptional profiling of ofr1 mutant cells shows that in addition to regulating cell type and mating circuitry,Ofr1 is needed for proper regulation of histone and chitin biosynthesis gene expression. It appears that OFR1 is a key regulator in C. albicans and functions in part to maintain the cryptic mating phenotype of the pathogen.
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Temporal impact of substrate mechanics on differentiation of human embryonic stem cells to cardiomyocytes
A significant clinical need exists to differentiate human pluripotent stem cells (hPSCs) into cardiomyocytes,enabling tissue modeling for in vitro discovery of new drugs or cell-based therapies for heart repair in vivo. Chemical and mechanical microenvironmental factors are known to impact the efficiency of stem cell differentiation,but cardiac differentiation protocols in hPSCs are typically performed on rigid tissue culture polystyrene (TCPS) surfaces,which do not present a physiological mechanical setting. To investigate the temporal effects of mechanics on cardiac differentiation,we cultured human embryonic stem cells (hESCs) and their derivatives on polyacrylamide hydrogel substrates with a physiologically relevant range of stiffnesses. In directed differentiation and embryoid body culture systems,differentiation of hESCs to cardiac troponin T-expressing (cTnT+) cardiomyocytes peaked on hydrogels of intermediate stiffness. Brachyury expression also peaked on intermediate stiffness hydrogels at day 1 of directed differentiation,suggesting that stiffness impacted the initial differentiation trajectory of hESCs to mesendoderm. To investigate the impact of substrate mechanics during cardiac specification of mesodermal progenitors,we initiated directed cardiomyocyte differentiation on TCPS and transferred cells to hydrogels at the Nkx2.5/Isl1+ cardiac progenitor cell stage. No differences in cardiomyocyte purity with stiffness were observed on day 15. These experiments indicate that differentiation of hESCs is sensitive to substrate mechanics at early stages of mesodermal induction,and proper application of substrate mechanics can increase the propensity of hESCs to differentiate to cardiomyocytes. textcopyright 2013 Acta Materialia Inc.
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产品类型:
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05850
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产品名:
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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产品类型:
产品号#:
02690
05850
05857
05870
05875
07913
09850
85850
85857
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85875
产品名:
StemSpan™ CC100
Dispase(5 U/mL)
mTeSR™1
mTeSR™1
Qu Q et al. (MAR 2014)
Nature communications 5 3449
High-efficiency motor neuron differentiation from human pluripotent stem cells and the function of Islet-1.
Efficient derivation of large-scale motor neurons (MNs) from human pluripotent stem cells is central to the understanding of MN development,modelling of MN disorders in vitro and development of cell-replacement therapies. Here we develop a method for rapid (20 days) and highly efficient (˜70%) differentiation of mature and functional MNs from human pluripotent stem cells by tightly modulating neural patterning temporally at a previously undefined primitive neural progenitor stage. This method also allows high-yield (textgreater250%) MN production in chemically defined adherent cultures. Furthermore,we show that Islet-1 is essential for formation of mature and functional human MNs,but,unlike its mouse counterpart,does not regulate cell survival or suppress the V2a interneuron fate. Together,our discoveries improve the strategy for MN derivation,advance our understanding of human neural specification and MN development,and provide invaluable tools for human developmental studies,drug discovery and regenerative medicine.
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产品类型:
产品号#:
05850
05857
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产品名:
mTeSR™1
mTeSR™1
Greene WA et al. (JUN 2014)
Journal of visualized experiments : JoVE 88 e51589
MicroRNA expression profiles of human iPS cells, retinal pigment epithelium derived from iPS, and fetal retinal pigment epithelium.
The objective of this report is to describe the protocols for comparing the microRNA (miRNA) profiles of human induced-pluripotent stem (iPS) cells,retinal pigment epithelium (RPE) derived from human iPS cells (iPS-RPE),and fetal RPE. The protocols include collection of RNA for analysis by microarray,and the analysis of microarray data to identify miRNAs that are differentially expressed among three cell types. The methods for culture of iPS cells and fetal RPE are explained. The protocol used for differentiation of RPE from human iPS is also described. The RNA extraction technique we describe was selected to allow maximal recovery of very small RNA for use in a miRNA microarray. Finally,cellular pathway and network analysis of microarray data is explained. These techniques will facilitate the comparison of the miRNA profiles of three different cell types.
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