Aikawa N et al. ( 2015)
Biological & pharmaceutical bulletin 38 7 1070--1075
A Simple Protocol for the Myocardial Differentiation of Human iPS Cells.
We have developed a simple protocol for inducing the myocardial differentiation of human induced pluripotent stem (iPS) cells. Human iPS cell-derived embryonic bodies (EBs) were treated with a combination of activin-A,bone morphogenetic protein-4 and wnt-3a for one day in serum-free suspension culture,and were subsequently treated with noggin for three days. Thereafter,the EBs were subjected to adherent culture in media with 5% serum. All EBs were differentiated into spontaneously beating EBs,which were identified by the presence of striated muscles in transmission electron microscopy and the expression of the specific cardiomyocyte markers,NKX2-5 and TNNT2. The beating rate of the beating EBs was decreased by treatment with a rapidly activating delayed rectifier potassium current (Ikr) channel blocker,E-4031,an Ikr trafficking inhibitor,pentamidin,and a slowly activating delayed rectifier potassium current (Iks) channel blocker,chromanol 293B,and was increased by treatment with a beta-receptor agonist,isoproterenol. At a low concentration,verapamil,a calcium channel blocker,increased the beating rate of the beating EBs,while a high concentration decreased this rate. These findings suggest that the spontaneously beating EBs were myocardial cell clusters. This simple protocol for myocardial differentiation would be useful in providing a sufficient number of the beating myocardial cell clusters for studies requiring human myocardium.
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Li Z et al. (FEB 2009)
Journal of cellular biochemistry 106 2 194--9
Transplantation of human embryonic stem cell-derived endothelial cells for vascular diseases.
Using endothelial cells for therapeutic angiogenesis/vasculogenesis of ischemia diseases has led to exploring human embryonic stem cells (hESCs) as a potentially unlimited source for endothelial progenitor cells. With their capacity for self-renewal and pluripotency,hESCs and their derived endothelial cells (hESC-ECs) may be more advantageous than other endothelial cells obtained from diseased populations. However,hESC-ECs' poor differentiation efficiency and poorly characterized in vivo function after transplantation present significant challenges for their future clinical application. This review will focus on the differentiation pathways of hESCs and their therapeutic potential for vascular diseases,as well as the monitoring of transplanted cells' fate via molecular imaging. Finally,cell enhancement strategies to improve the engraftment efficiency of hESC-ECs will be discussed.
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mTeSR™1
mTeSR™1
Liu L et al. (AUG 2014)
Biomaterials 35 24 6259--6267
Nanofibrous gelatin substrates for long-term expansion of human pluripotent stem cells.
Nanofibrous gelatin substrates are suited for long-term expansion of human pluripotent stem cells (hPSCs) under feeder- and serum-free culture conditions. A combinatorial library with different sets of processing parameters was established to assess the culture performance of hPSCs on nanofibrous substrates in terms of cell adhesion and growth rate,using Matrigel as control. Then,the optimal conditions were applied to long-term expansion of hPSCs with several cell lines,showing a maintained pluripotency over more than 20 passages without introducing any abnormal chromosome. In addition,this approach allowed us to avoid enzymatic disassociation and mechanic cutting during passages,thereby promoting a better hPSC culture and long-term expansion. ?? 2014 Elsevier Ltd.
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mTeSR™1
mTeSR™1
J. E. Choi et al. (jun 2022)
STAR protocols 3 2 101389
Isolation of human and mouse myeloid-derived suppressor cells for metabolic analysis.
Metabolic reprogramming is associated with myeloid-derived suppressor cell (MDSC) immunosuppressive function. Here,we outline the process for acquiring MDSCs from human and murine sources for subsequent analysis of fatty acid oxidation,oxidative phosphorylation,and glycolysis using the Seahorse XFe 96 Analyzer. Murine MDSCs can be isolated directly from tumor-bearing mice or derived through IL-6 and GM-CSF culture of bone marrow cells from non-tumor-bearing mice. To generate human MDSCs,peripheral blood mononuclear cells (PBMCs) can be cultured with IL-6 and GM-CSF. For complete details on the use and execution of this protocol,please refer to Mohammadpour et al. (2021).
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产品类型:
产品号#:
19867
产品名:
EasySep™小鼠MDSC(CD11b+Gr1+)分选试剂盒
M. Bauler et al. (May 2024)
Molecular Therapy. Methods & Clinical Development 32 2
Genetic alteration of SJ293TS cells and modification of serum-free media enhances lentiviral vector production
Successful cell and gene therapy clinical trials have resulted in the US Food and Drug Administration and European Medicines Agency approving their use for treatment of patients with certain types of cancers and monogenetic diseases. These novel therapies,which rely heavily on lentiviral vectors to deliver therapeutic transgenes to patient cells,have driven additional investigations,increasing demand for both pre-clinical and current Good Manufacturing Practices-grade viral vectors. To better support novel studies by improving current production methods,we report the development of a genetically modified HEK293T-based cell line that is null for expression of both Protein Kinase R and Beta-2 microglobulin and grows in suspension using serum-free media,SJ293TS-DPB. Absence of Protein Kinase R increased anti-sense lentiviral vector titers by more than 7-fold,while absence of Beta-2 microglobulin,a key component of major histocompatibility complex class I molecules,has been reported to reduce the immunogenicity of lentiviral particles. Furthermore,we describe an improved methodology for culturing SJ293TS-DPB that facilitates expansion,reduces handling,and increases titers by 2-fold compared with previous methods. SJ293TS-DPB stably produced lentiviral vectors for over 4 months and generated lentiviral vectors that efficiently transduce healthy human donor T cells and CD34 + hematopoietic stem cells.
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beta-Catenin expression in the bone marrow microenvironment is required for long-term maintenance of primitive hematopoietic cells.
Hematopoiesis is dependent upon the bone marrow microenvironment,which is comprised of multiple mesenchymal cell types,including fibroblasts,endothelial cells,osteoblasts,and stroma progenitors. The canonical Wnt signaling pathway,which relies on the beta-catenin protein to mediate its signal,is necessary for the normal development of mesenchymal tissue. We hypothesized that canonical Wnt signaling regulates the cellular composition and function of the bone marrow microenvironment. We observed that a beta-catenin-deficient bone marrow microenvironment maintained hematopoietic stem cells but exhibited a decreased capacity to support primitive hematopoietic cells. These results correlated with decreased numbers of osteoblasts and with decreased production of basic fibroblast growth factor,stem cell factor,and vascular cell adhesion molecule-1. From these data,we propose a model in which beta-catenin in the microenvironment is required noncell autonomously for long-term maintenance of hematopoietic progenitors.
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产品类型:
产品号#:
05150
产品名:
MyeloCult™H5100
Z. N. G. Galofre et al. (Feb 2024)
Nature Communications 15
Runx1+ vascular smooth muscle cells are essential for hematopoietic stem and progenitor cell development in vivo
Hematopoietic stem cells (HSCs) produce all essential cellular components of the blood. Stromal cell lines supporting HSCs follow a vascular smooth muscle cell (vSMC) differentiation pathway,suggesting that some hematopoiesis-supporting cells originate from vSMC precursors. These pericyte-like precursors were recently identified in the aorta-gonad-mesonephros (AGM) region; however,their role in the hematopoietic development in vivo remains unknown. Here,we identify a subpopulation of NG2 + Runx1 + perivascular cells that display a sclerotome-derived vSMC transcriptomic profile. We show that deleting Runx1 in NG2 + cells impairs the hematopoietic development in vivo and causes transcriptional changes in pericytes/vSMCs,endothelial cells and hematopoietic cells in the murine AGM. Importantly,this deletion leads also to a significant reduction of HSC reconstitution potential in the bone marrow in vivo. This defect is developmental,as NG2 + Runx1 + cells were not detected in the adult bone marrow,demonstrating the existence of a specialised pericyte population in the HSC-generating niche,unique to the embryo. Subject terms: Cell biology,Haematopoiesis,Cardiovascular biology
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产品类型:
产品号#:
03434
03444
产品名:
MethoCult™GF M3434
MethoCult™GF M3434
Lin P-Y et al. (NOV 2013)
Stem cells and development 23 4 372--379
A synthetic peptide-acrylate surface for production of insulin-producing cells from human embryonic stem cells.
Human embryonic stem cells (hESCs),due to their self-renewal capacity and pluripotency,have become a potential source of transplantable $\$-cells for the treatment of diabetes. However,it is imperative that the derived cells fulfill the criteria for clinical treatment. In this study,we replaced common Matrigel with a synthetic peptide-acrylate surface (Synthemax) to expand undifferentiated hESCs and direct their differentiation in a defined and serum-free medium. We confirmed that the cells still expressed pluripotent markers,had the ability to differentiate into three germ layers,and maintained a normal karyotype after 10 passages of subculture. Next,we reported an efficient protocol for deriving nearly 86% definitive endoderm cells from hESCs under serum-free conditions. Moreover,we were able to obtain insulin-producing cells within 21 days following a simple three-step protocol. The results of immunocytochemical and quantitative gene expression analysis showed that the efficiency of induction was not significantly different between the Synthemax surface and the Matrigel-coated surface. Thus,we provided a totally defined condition from hESC culture to insulin-producing cell differentiation,and the derived cells could be a therapeutic resource for diabetic patients in the future.
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mTeSR™1
mTeSR™1
Roubal I et al. ( 2016)
Methods in molecular biology (Clifton,N.J.) 1341 345--357
Derivation of Neural Precursor Cells from Human Embryonic Stem Cells for DNA Methylomic Analysis.
Embryonic stem cells are self-renewing pluripotent cells with competency to differentiate into all three-germ lineages. Many studies have demonstrated the importance of genetic and epigenetic molecular mechanisms in the maintenance of self-renewal and pluripotency. Stem cells are under unique molecular and cellular regulations different from somatic cells. Proper regulation should be ensured to maintain their unique self-renewal and undifferentiated characteristics. Understanding key mechanisms in stem cell biology will be important for the successful application of stem cells for regenerative therapeutic medicine. More importantly practical use of stem cells will require our knowledge on how to properly direct and differentiate stem cells into the necessary type of cells. Embryonic stem cells and adult stem cells have been used as study models to unveil molecular and cellular mechanisms in various signaling pathways. They are especially beneficial to developmental studies where in vivo molecular/cellular study models are not available. We have derived neural stem cells from human embryonic stem cells as a model to study the effect of teratogen in neural development. We have tested commercial neural differentiation system and successfully derived neural precursor cells exhibiting key molecular features of neural stem cells,which will be useful for experimental application.
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mTeSR™1
mTeSR™1
Wu W et al. (JUN 2015)
Analytica chimica acta 881 124--30
Strand displacement amplification for ultrasensitive detection of human pluripotent stem cells.
Human pluripotent stem cells (hPSCs),such as embryonic stem cells (ESCs) and induced pluripotent stem cells (iPSCs),provide a powerful model system for studies of cellular identity and early mammalian development,which hold great promise for regenerative medicine. It is necessary to develop a convenient method to discriminate hPSCs from other cells in clinics and basic research. Herein,a simple and reliable biosensor for stem cell detection was established. In this biosensor system,stage-specific embryonic antigen-3 (SSEA-3) and stage-specific embryonic antigen-4 (SSEA-4) were used to mark human pluripotent stem cells (hPSCs). Antibody specific for SSEA-3 was coated onto magnetic beads for hPSCs enrichment,and antibody specific for SSEA-4 was conjugated with carboxyl-modified tDNA sequence which was used as template for strand displacement amplification (SDA). The amplified single strand DNA (ssDNA) was detected with a lateral flow biosensor (LFB). This biosensor is capable of detecting a minimum of 19 human embryonic stem cells by a strip reader and 100 human embryonic stem cells by the naked eye within 80min. This approach has also shown excellent specificity to distinguish hPSCs from other types of cells,showing that it is promising for specific and handy detection of human pluripotent stem cells.
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EasySep™小鼠TIL(CD45)正选试剂盒
产品手册Mammary Epithelial Cells: Standardized Media and Reagents
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