Lai W-H et al. (DEC 2010)
Cellular reprogramming 12 6 641--653
ROCK inhibition facilitates the generation of human-induced pluripotent stem cells in a defined, feeder-, and serum-free system.
Human-induced pluripotent stem cells (iPSCs) generated from human adult somatic cells through reprogramming hold great promises for future regenerative medicine. However,exposure of human iPSCs to animal feeder and serum in the process of their generation and maintenance imposes risk of transmitting animal pathogens to human subjects,thus hindering the potential therapeutic applications. Here,we report the successful generation of human iPSCs in a feeder-independent culture system with defined factors. Two stable human iPSC lines were established from primary human dermal fibroblasts of two healthy volunteers. These human iPSCs expressed a panel of pluripotency markers including stage-specific embryonic antigen (SSEA)-4,tumor-rejection antigen (TRA)-1-60,TRA-1-81,and alkaline phosphatase,while maintaining normal karyotypes and the exogenous reprogramming factors being silenced. In addition,these human iPSCs can differentiate along lineages representative of the three embryonic germ layers upon formation of embryoid bodies,indicating their pluripotency. Furthermore,subcutaneous transplantation of these cells into immunodeficient mice resulted in teratoma formation in 6 to 8 weeks. Our findings are an important step toward generating patient-specific iPSCs in a more clinically compliant manner by eliminating the need of animal feeder cells and animal serum.
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mTeSR™1
mTeSR™1
Wang X et al. (DEC 2010)
Blood 116 26 5972--82
Sequential treatment of CD34+ cells from patients with primary myelofibrosis with chromatin-modifying agents eliminate JAK2V617F-positive NOD/SCID marrow repopulating cells.
Because primary myelofibrosis (PMF) originates at the level of the pluripotent hematopoietic stem cell (HSC),we examined the effects of various therapeutic agents on the in vitro and in vivo behavior of PMF CD34(+) cells. Treatment of PMF CD34(+) cells with chromatin-modifying agents (CMAs) but not hydroxyurea,Janus kinase 2 (JAK2) inhibitors,or low doses of interferon-α led to the generation of greater numbers of CD34(+) chemokine (C-X-C motif) receptor (CXCR)4(+) cells,which were capable of migrating in response to chemokine (C-X-C motif) ligand (CXCL)12 and resulted in a reduction in the proportion of hematopoietic progenitor cells (HPCs) that were JAK2V617F(+). Furthermore,sequential treatment of PMF CD34(+) cells but not normal CD34(+) cells with decitabine (5-aza-2'-deoxycytidine [5azaD]),followed by suberoylanilide hydroxamic acid (SAHA; 5azaD/SAHA),or trichostatin A (5azaD/TSA) resulted in a higher degree of apoptosis. Two to 6 months after the transplantation of CMAs treated JAK2V617F(+) PMF CD34(+) cells into nonobese diabetic/severe combined immunodeficient (SCID)/IL-2Rγ(null) mice,the percentage of JAK2V617F/JAK2(total) in human CD45(+) marrow cells was dramatically reduced. These findings suggest that both PMF HPCs,short-term and long-term SCID repopulating cells (SRCs),are JAK2V617F(+) and that JAK2V617F(+) HPCs and SRCs can be eliminated by sequential treatment with CMAs. Sequential treatment with CMAs,therefore,represents a possible effective means of treating PMF at the level of the malignant SRC.
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产品类型:
产品号#:
04230
产品名:
MethoCult™ H4230
Kunova M et al. (NOV 2010)
Reproductive biomedicine online 21 5 676--86
Development of humanized culture medium with plant-derived serum replacement for human pluripotent stem cells.
For human embryonic stem cells (ESC) to be used in cell replacement therapies,they must be grown under good manufacturing conditions in a chemically defined medium that lacks animal proteins. This study examined the ability of a newly designed medium containing the plant-derived serum replacement VegetaCell and other reagents of human origin to support undifferentiated growth and pluripotency of human ESC. This medium was tested in several culture systems,using human fibroblasts as a feeder layer or Matrigel in a feeder-free culture. Even under the most stringent feeder-free conditions without conditioned medium,human ESC exhibited an undifferentiated morphology,expressed markers of undifferentiated cells,demonstrated high alkaline phosphatase activity and multilineage differentiation and retained a normal karyotype. Compared with human ESC grown in standard culture conditions,human ESC maintained in humanized VegetaCell medium show longer cell cycles and decreased cell death. The availability of an animal protein-free medium supplemented with the low-cost VegetaCell reagent expands the repertoire of media for culturing human ESC as well as induced pluripotent stem cells for drug testing and cell replacement therapy.
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27845
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Dienelt A and zur Nieden NI (MAR 2011)
Stem cells and development 20 3 465--474
Hyperglycemia impairs skeletogenesis from embryonic stem cells by affecting osteoblast and osteoclast differentiation.
High maternal blood glucose levels caused by diabetes mellitus can irreversibly lead to maldevelopment of the growing fetus with specific effects on the skeleton. To date,it remains controversial at which stage embryonic development is affected. Specifically during embryonic bone development,it is unclear whether diminished bone mineral density is caused by reduced osteoblast or rather enhanced osteoclast function. Therefore,the aim of this study was to characterize the growth as well as the skeletal differentiation capability of pluripotent embryonic stem cells (ESCs),which may serve as an in vitro model for all stages of embryonic development,when cultured in diabetic levels of D-glucose (4.5 g/L) versus physiological levels (1.0 g/L). Results showed that cells cultivated in physiological glucose gave rise to a higher number of colonies with an undifferentiated character as compared to cells grown in diabetic glucose concentrations. In contrast,these cultures were characterized by slightly decreased expression of proteins associated with the stem cell state. Furthermore,differentiation of ESCs into osteoblasts and osteoclasts was favored in physiological glucose concentrations,demonstrated by an increased matrix calcification,enhanced expression of cell-type-specific mRNAs,as well as activity of the cell-type-specific enzymes,alkaline,and tartrate resistant acidic phosphatase. In fact,this pattern was noted in murine as well as in primate ESCs. Our study suggests that an interplay between both the osteoblast and the osteoclast lineage is needed for proper skeletal development to occur,which seems impaired in hyperglycemic conditions.
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mTeSR™1
mTeSR™1
Lin S and Talbot P (JAN 2011)
Methods in molecular biology (Clifton,N.J.) 690 31--56
Methods for culturing mouse and human embryonic stem cells
Mouse embryonic stem cells (mESCs) were first derived and cultured almost 30 years ago and ever since have been valuable tools for creating knockout mice and for studying early mammalian development. More recently (1998),human embryonic stem cells (hESCs) have been derived from blastocysts,and numerous methods have evolved to culture hESCs in vitro in both complex and defined media. hESCs are especially important at this time as they could potentially be used to treat degenerative diseases and to access the toxicity of new drugs and environmental chemicals. For both human and mouse ESCs,fibroblast feeder layers are often used at some phase in the culturing protocol. The feeders - often mouse embryonic fibroblasts (mEFs) - provide a substrate that increases plating efficiency,helps maintain pluripotency,and facilitates survival and growth of the stem cells. Various protocols for culturing embryonic stem cells from both species are available with newer trends moving toward feeder-free and serum-free culture. The purpose of this chapter is to provide basic protocol information on the isolation of mouse embryonic fibroblasts and establishment of feeder layers,the culture of mESCs on both mEFs and on gelatin in serum-containing medium,and the culture of hESCs in defined media on both mEFs (hESC culture medium) and Matrigel (mTeSR). These basic protocols are intended for researchers wanting to develop stem cell research in their labs. These protocols have been tested in our laboratory and work well. They can be modified and adapted for any relevant user's particular purpose.
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mTeSR™1
mTeSR™1
Loewer S et al. (DEC 2010)
Nature genetics 42 12 1113--7
Large intergenic non-coding RNA-RoR modulates reprogramming of human induced pluripotent stem cells.
The conversion of lineage-committed cells to induced pluripotent stem cells (iPSCs) by reprogramming is accompanied by a global remodeling of the epigenome,resulting in altered patterns of gene expression. Here we characterize the transcriptional reorganization of large intergenic non-coding RNAs (lincRNAs) that occurs upon derivation of human iPSCs and identify numerous lincRNAs whose expression is linked to pluripotency. Among these,we defined ten lincRNAs whose expression was elevated in iPSCs compared with embryonic stem cells,suggesting that their activation may promote the emergence of iPSCs. Supporting this,our results indicate that these lincRNAs are direct targets of key pluripotency transcription factors. Using loss-of-function and gain-of-function approaches,we found that one such lincRNA (lincRNA-RoR) modulates reprogramming,thus providing a first demonstration for critical functions of lincRNAs in the derivation of pluripotent stem cells.
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mTeSR™1
mTeSR™1
Lam RS et al. ( 2017)
PloS one 12 1 e0169506
Functional Maturation of Human Stem Cell-Derived Neurons in Long-Term Cultures.
Differentiated neurons can be rapidly acquired,within days,by inducing stem cells to express neurogenic transcription factors. We developed a protocol to maintain long-term cultures of human neurons,called iNGNs,which are obtained by inducing Neurogenin-1 and Neurogenin-2 expression in induced pluripotent stem cells. We followed the functional development of iNGNs over months and they showed many hallmark properties for neuronal maturation,including robust electrical and synaptic activity. Using iNGNs expressing a variant of channelrhodopsin-2,called CatCh,we could control iNGN activity with blue light stimulation. In combination with optogenetic tools,iNGNs offer opportunities for studies that require precise spatial and temporal resolution. iNGNs developed spontaneous network activity,and these networks had excitatory glutamatergic synapses,which we characterized with single-cell synaptic recordings. AMPA glutamatergic receptor activity was especially dominant in postsynaptic recordings,whereas NMDA glutamatergic receptor activity was absent from postsynaptic recordings but present in extrasynaptic recordings. Our results on long-term cultures of iNGNs could help in future studies elucidating mechanisms of human synaptogenesis and neurotransmission,along with the ability to scale-up the size of the cultures.
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产品类型:
产品号#:
05854
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产品名:
mFreSR™
mFreSR™
mTeSR™1
mTeSR™1
Wei Y et al. (MAR 2017)
Placenta 51 28--37
Generation of trophoblast-like cells from the amnion in vitro: A novel cellular model for trophoblast development.
Despite the high incidence of trophoblast-related diseases,the molecular mechanism of inadequate early trophoblast development is still unclear due to the lack of an appropriate cellular model in vitro. In the present study,we reprogrammed the amniotic cells to be induced pluripotent stem cells (iPSCs) via a non-virus and non-integrated method and subsequently differentiated them into trophoblast-like cells by a modified BMP4 strategy in E6 medium. Compared with the previously studied trophoblast-like cells from ESCs,the iPSCs derived trophoblast-like cells behave similarly in terms of gene expression profiles and biofunctions. Also we confirmed the differentiating tendency from iPSCs to be syncytiotrophoblasts-like cells might be caused by inappropriate differentiating oxygen condition. Additionally,we preliminarily indicated in vitro artificial" differentiation of iPSCs also undergoing a possible trophoblastic stem cell stage as witnessed in vivo. In conclusion we provided an in vitro cellular model to study early trophoblast development for specific individual by using the feasible amnion.
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mTeSR™1
mTeSR™1
Deng Y et al. (FEB 2017)
Biomacromolecules 18 2 587--598
Peptide-Decorated Nanofibrous Niche Augments In Vitro Directed Osteogenic Conversion of Human Pluripotent Stem Cells.
Realization of clinical potential of human pluripotent stem cells (hPSCs) in bone regenerative medicine requires development of simple and safe biomaterials for expansion of hPSCs followed by directing their lineage commitment to osteoblasts. In the present study,a chemically defined peptide-decorated polycaprolactone (PCL) nanofibrous microenvironment was prepared through electrospinning technology and subsequent conjugation with vitronectin peptide to promote the culture and osteogenic potential of hPSCs in vitro. The results indicated that hPSCs successfully proliferated and maintained their pluripotency on the biointerface of peptide-conjugated nanofibers without Matrigel under defined conditions. Moreover,the prepared niche exhibited an appealing ability in promoting directed differentiation of hPSCs to osteoblastic phenotype without embryoid body formation step,determined from the cell morphological alteration,alkaline phosphate activity,and osteogenesis-related gene expression,as well as protein production. Such well-defined,xeno-free,and safe nanofiber scaffolds that allow the survival and facilitate osteo-differentiation of hPSCs provide a novel platform for hPSCs differentiation via cell-nanofiber interplay,and possess great value in accelerating the translational perspectives of hPSCs in bone tissue engineering.
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Yamane J et al. (MAY 2016)
Nucleic Acids Research 44 12 5515--5528
Prediction of developmental chemical toxicity based on gene networks of human embryonic stem cells
Predictive toxicology using stem cells or their derived tissues has gained increasing importance in biomedical and pharmaceutical research. Here,we show that toxicity category prediction by support vector machines (SVMs),which uses qRT-PCR data from 20 categorized chemicals based on a human embryonic stem cell (hESC) system,is improved by the adoption of gene networks,in which network edge weights are added as feature vectors when noisy qRT-PCR data fail to make accurate predictions. The accuracies of our system were 97.5-100% for three toxicity categories: neurotoxins (NTs),genotoxic carcinogens (GCs) and non-genotoxic carcinogens (NGCs). For two uncategorized chemicals,bisphenol-A and permethrin,our system yielded reasonable results: bisphenol-A was categorized as an NGC,and permethrin was categorized as an NT; both predictions were supported by recently published papers. Our study has two important features: (i) as the first study to employ gene networks without using conventional quantitative structure-activity relationships (QSARs) as input data for SVMs to analyze toxicogenomics data in an hESC validation system,it uses additional information of gene-to-gene interactions to significantly increase prediction accuracies for noisy gene expression data; and (ii) using only undifferentiated hESCs,our study has considerable potential to predict late-onset chemical toxicities,including abnormalities that occur during embryonic development.
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mTeSR™1
mTeSR™1
Ciampi O et al. (JUN 2016)
Stem Cell Research 17 1 130--139
Generation of functional podocytes from human induced pluripotent stem cells
Generating human podocytes in vitro could offer a unique opportunity to study human diseases. Here,we describe a simple and efficient protocol for obtaining functional podocytes in vitro from human induced pluripotent stem cells. Cells were exposed to a three-step protocol,which induced their differentiation into intermediate mesoderm,then into nephron progenitors and,finally,into mature podocytes. After differentiation,cells expressed the main podocyte markers,such as synaptopodin,WT1,α-Actinin-4,P-cadherin and nephrin at the protein and mRNA level,and showed the low proliferation rate typical of mature podocytes. Exposure to Angiotensin II significantly decreased the expression of podocyte genes and cells underwent cytoskeleton rearrangement. Cells were able to internalize albumin and self-assembled into chimeric 3D structures in combination with dissociated embryonic mouse kidney cells. Overall,these findings demonstrate the establishment of a robust protocol that,mimicking developmental stages,makes it possible to derive functional podocytes in vitro.
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