搜索结果: 'methocult media formulations for human hematopoietic cells serum containing'

The development of human embryonic stem cells (ESCs) and induced pluripotent stem cells (iPSCs) facilitates in vitro studies of human disease mechanisms,speeds up the process of drug screening,and raises the feasibility of using cell replacement therapy in clinics. However,the study of genotype-phenotype relationships in ESCs or iPSCs is hampered by the low efficiency of site-specific gene editing. Transcription activator-like effector nucleases (TALENs) spurred interest due to the ease of assembly,high efficiency and faithful gene targeting. In this study,we optimized the TALEN design to maximize its genomic cutting efficiency. We showed that using optimized TALENs in conjunction with single-strand oligodeoxynucleotide (ssODN) allowed efficient gene editing in human cells. Gene mutations and gene deletions for up to 7.8 kb can be accomplished at high efficiencies. We established human tumor cell lines and H9 ESC lines with homozygous deletion of the microRNA-21 (miR-21) gene and miR-9-2 gene. These cell lines provide a robust platform to dissect the roles these genes play during cell differentiation and tumorigenesis. We also observed that the endogenous homologous chromosome can serve as a donor template for gene editing. Overall,our studies demonstrate the versatility of using ssODN and TALEN to establish genetically modified cells for research and therapeutic application. View Publication

BACKGROUND Efficient slow freezing protocols within serum-free and feeder-free culture systems are crucial for the clinical application of human embryonic stem (hES) cells. Frequently,however,hES cells must be cryopreserved as clumps when using conventional slow freezing protocols,leading to lower survival rates during freeze-thaw and limiting their recovery and growth efficiency after thawing,as well as limiting downstream applications that require single cell suspensions. We describe a novel method to increase freeze-thaw survival and proliferation rate of single hES cells in serum-free and feeder-free culture conditions. METHODS hES cells maintained on Matrigel-coated dishes were dissociated into single cells with Accutase and slow freezing. After thawing at 37 degrees C,cells were cultured in mTeSR medium supplemented with 10 microM of Rho-associated kinase inhibitor Y-27632 for 1 day. RESULTS The use of Y-27632 and Accutase significantly increases the survival of single hES cells after thawing compared with a control group (P textless 0.01). Furthermore,by treatment of hES cell aggregates with EGTA to disrupt cell-cell interaction,we show that Y-27632 treatment does not directly affect hES cell apoptosis. Even in the presence of Y-27632,hES cells deficient in cell-cell interaction undergo apoptosis. Y-27632-treated freeze-thawed hES cells retain typical morphology,stable karyotype,expression of pluripotency markers and the potential to differentiate into derivatives of all three germ layers after long-term culture. CONCLUSIONS The method described here allows for cryopreservation of single hES cells in serum-free and feeder-free conditions and therefore we believe this method will be ideal for current and future hES cell applications that are targeted towards a therapeutic end-point. View Publication

Parthenogenetic embryonic stem (ES) cells with two oocyte-derived genomes (uniparental) have been proposed as a source of autologous tissue for transplantation. The therapeutic applicability of any uniparental cell type is uncertain due to the consequences of genomic imprinting that in mammalian uniparental tissues causes unbalanced expression of imprinted genes. We transplanted uniparental fetal liver cells into lethally irradiated adult mice to test their capacity to replace adult hematopoietic tissue. Both maternal (gynogenetic) and paternal (androgenetic) derived cells conveyed long-term,multilineage reconstitution of hematopoiesis in recipients,with no associated pathologies. We also establish that uniparental ES cells can differentiate into transplantable hematopoietic progenitors in vitro that contribute to long-term hematopoiesis in recipients. Hematopoietic tissue in recipients maintained fidelity of parent-of-origin methylation marks at the Igf2/H19 locus; however,variability occurred in the maintenance of parental-specific methylation marks at other loci. In summary,despite genomic imprinting and its consequences on development that are particularly evident in the androgenetic phenotype,uniparental cells of both parental origins can form adult-transplantable stem cells and can repopulate an adult organ. View Publication

Human embryonic stem cells (hESCs) are a promising cell source for tissue engineering and regenerative medicine,but before they can be used in therapies,we must be able to accurately identify the state and progeny of hESCs. One of the most commonly used methods for identification is flow cytometry. Many flow cytometry applications use antibodies to detect the amount of antigen present on/in a cell. This allows for the identification of unique cell populations or the tracking of expression changes within a population during differentiation. The results are typically presented as a percentage of positively expressing cells (%Pos) for a marker of choice,relative to a negative control. However,this reporting term is vulnerable to distortion from outliers and inaccuracy from loss of information about the population's fluorescence intensity. In this article,we describe an alternate strategy that uses the normalized median fluorescence intensity (nMFI),in which the MFI of the stained sample is normalized to the MFI of the negative control,as the reporting term to more accurately describe a population of cells in culture. We observed that nMFI provides a more accurate representation for the quality of a starting population and comparing data of different experimental runs. In addition,we demonstrated that the nMFI is a more sensitive measure of pluripotent and differentiation markers expression changes during hESC differentiation into three germ layer lineages. View Publication

CRKL (CRK-like) is an adapter protein predominantly phosphorylated in cells that express the tyrosine kinase p210(BCR-ABL),the fusion product of a (9;22) chromosomal translocation causative for chronic myeloid leukemia. It has been unclear,however,whether CRKL plays a functional role in p210(BCR-ABL) transformation. Here,we show that CRKL is required for p210(BCR-ABL) to support interleukin-3-independent growth of myeloid progenitor cells and long-term outgrowth of B-lymphoid cells from fetal liver-derived hematopoietic progenitor cells. Furthermore,a synthetic phosphotyrosyl peptide that binds to the CRKL SH2 domain with high affinity blocks association of endogenous CRKL with the p210(BCR-ABL) complex and reduces c-MYC levels in K562 human leukemic cells as well as in mouse hematopoietic cells transformed by p210(BCR-ABL) or the imatinib-resistant mutant T315I. These results indicate that the function of CRKL as an adapter protein is essential for p210(BCR-ABL)-induced transformation. View Publication

Hematopoietic stem cells (HSC) are tightly regulated through,as yet,undefined mechanisms that balance self-renewal and differentiation. We have identified a role for the transcriptional coactivators CREB-binding protein (CBP) and p300 in such HSC fate decisions. A full dose of CBP,but not p300,is crucial for HSC self-renewal. Conversely,p300,but not CBP,is essential for proper hematopoietic differentiation. Furthermore,in chimeric mice,hematologic malignancies emerged from both CBP(-/-) and p300(-/-) cell populations. Thus,CBP and p300 play essential but distinct roles in maintaining normal hematopoiesis,and,in mice,both are required for preventing hematologic tumorigenesis. View Publication

BACKGROUND Heterogeneity of endothelial cells (ECs) is a hallmark of the vascular system which may impact the development and management of vascular disorders. Despite the tremendous progress in differentiation of human embryonic stem cells (hESCs) towards endothelial lineage,differentiation into arterial and venous endothelial phenotypes remains elusive. Additionally,current differentiation strategies are hampered by inefficiency,lack of reproducibility,and use of animal-derived products. METHODS To direct the differentiation of hESCs to endothelial subtypes,H1- and H9-hESCs were seeded on human plasma fibronectin and differentiated under chemically defined conditions by sequential modulation of glycogen synthase kinase-3 (GSK-3),basic fibroblast growth factor (bFGF),bone morphogenetic protein 4 (BMP4) and vascular endothelial growth factor (VEGF) signaling pathways for 5 days. Following the initial differentiation,the endothelial progenitor cells (CD34(+)CD31(+) cells) were sorted and terminally differentiated under serum-free conditions to arterial and venous ECs. The transcriptome and secretome profiles of the two distinct populations of hESC-derived arterial and venous ECs were characterized. Furthermore,the safety and functionality of these cells upon in vivo transplantation were characterized. RESULTS Sequential modulation of hESCs with GSK-3 inhibitor,bFGF,BMP4 and VEGF resulted in stages reminiscent of primitive streak,early mesoderm/lateral plate mesoderm,and endothelial progenitors under feeder- and serum-free conditions. Furthermore,these endothelial progenitors demonstrated differentiation potential to almost pure populations of arterial and venous endothelial phenotypes under serum-free conditions. Specifically,the endothelial progenitors differentiated to venous ECs in the absence of VEGF,and to arterial phenotype under low concentrations of VEGF. Additionally,these hESC-derived arterial and venous ECs showed distinct molecular and functional profiles in vitro. Furthermore,these hESC-derived arterial and venous ECs were nontumorigenic and were functional in terms of forming perfused microvascular channels upon subcutaneous implantation in the mouse. CONCLUSIONS We report a simple,rapid,and efficient protocol for directed differentiation of hESCs into endothelial progenitor cells capable of differentiation to arterial and venous ECs under feeder-free and serum-free conditions. This could offer a human platform to study arterial-venous specification for various applications related to drug discovery,disease modeling and regenerative medicine in the future. View Publication

Induced pluripotent stem cells (IPS) are an artificially derived type of pluripotent stem cell,showing many of the same characteristics as natural pluripotent stem cells. IPS are a hopeful therapeutic model; however there is a critical need to determine their response to environmental toxins. Effects of arsenic on cells have been studied extensively; however,its effect on IPS is yet to be elucidated. Arsenic trioxide (ATO) has been shown to inhibit cell proliferation,induce apoptosis and genotoxicity in many cells. Based on ATOs action in other cells,we hypothesize that it will induce alterations in morphology,inhibit cell viability and induce a genotoxic effect on IPS. Cells were treated for 24 hours with ATO (0-9 µg/mL). Cell morphology,viability and DNA damage were documented. Results indicated sufficient changes in morphology of cell colonies mainly in cell ability to maintain grouping and ability to remain adherent. Cell viability decreased in a dose dependent manner. There were significant increases in tail length and moment as well as destruction of intact DNA as concentration increased. Exposure to ATO resulted in a reproducible dose dependent sequence of events marked by changes in morphology,decrease of cell viability,and induction of genotoxicity in IPS. View Publication

In systemic lupus erythematosus,defective clearance of apoptotic debris and activation of innate cells result in a chronically activated type 1 IFN response,which can be measured in PBMCs of most patients. Metformin,a widely used prescription drug for Type 2 diabetes,has a therapeutic effect in several mouse models of lupus through mechanisms involving inhibition of oxidative phosphorylation and a decrease in CD4+ T cell activation. In this study,we report that in CD4+ T cells from human healthy controls and human systemic lupus erythematosus patients,metformin inhibits the transcription of IFN-stimulated genes (ISGs) after IFN-alpha treatment. Accordingly,metformin inhibited the phosphorylation of pSTAT1 (Y701) and its binding to IFN-stimulated response elements that control ISG expression. These effects were independent of AMPK activation or mTORC1 inhibition but were replicated using inhibitors of the electron transport chain respiratory complexes I,III,and IV. This indicates that mitochondrial respiration is required for ISG expression in CD4+ T cells and provides a novel mechanism by which metformin may exert a therapeutic effect in autoimmune diseases. View Publication

Murine hematopoietic stem cells with varying proliferative capacity can be assayed by limiting dilution analysis of cobblestone area" (CA) formation on stromal layers in microlong-term bone marrow cultures. Cobblestone area forming cell (CAFC) frequency determined at early time points (day 7) correlates with mature stem cells measured as day 8 CFU-S� View Publication

BACKGROUND: Many patients with ischemic heart disease have cardiovascular risk factors such as cigarette smoking. We tested the effect of nicotine (a key component of cigarette smoking) on the therapeutic effects of human embryonic stem cell-derived endothelial cells (hESC-ECs).backslashnbackslashnMETHODS AND RESULTS: To induce endothelial cell differentiation,undifferentiated hESCs (H9 line) underwent 4-day floating EB formation and 8-day outgrowth differentiation in EGM-2 media. After 12 days,CD31(+) cells (13.7+/-2.5%) were sorted by FACScan and maintained in EGM-2 media for further differentiation. After isolation,these hESC-ECs expressed endothelial specific markers such as vWF (96.3+/-1.4%),CD31 (97.2+/-2.5%),and VE-cadherin (93.7+/-2.8%),form vascular-like channels,and incorporated DiI-labeled acetylated low-density lipoprotein (DiI-Ac-LDL). Afterward,5x10(6) hESC-ECs treated for 24 hours with nicotine (10(-8) M) or PBS (as control) were injected into the hearts of mice undergoing LAD ligation followed by administration for two weeks of vehicle or nicotine (100 microg/ml) in the drinking water. Surprisingly,bioluminescence imaging (BLI) showed significant improvement in the survival of transplanted hESC-ECs in the nicotine treated group at 6 weeks. Postmortem analysis confirmed increased presence of small capillaries in the infarcted zones. Finally,in vitro mechanistic analysis suggests activation of the MAPK and Akt pathways following activation of nicotinic acetylcholine receptors (nAChRs).backslashnbackslashnCONCLUSIONS: This study shows for the first time that short-term systemic administrations of low dose nicotine can improve the survival of transplanted hESC-ECs,and enhance their angiogenic effects in vivo. Furthermore,activation of nAChRs has anti-apoptotic,angiogenic,and proliferative effects through MAPK and Akt signaling pathways. View Publication

Teratoma formation is a critical obstacle to safe clinical translation of human embryonic stem (ES) cell-based therapies in the future. As current methods of isolation are unable to yield 100% pure population of differentiated cells from a pluripotent donor source,potential development of these tumors is a significant concern. Here we used non-invasive reporter gene imaging to investigate the relationship between human ES cell number and teratoma formation in a xenogenic model of ES cell transplantation. Human ES cells (H9 line) were stably transduced with a double fusion (DF) reporter construct containing firefly luciferase and enhanced green fluorescent protein (Fluc- eGFP) driven by a human ubiquitin promoter. Immunodeficient mice received intramyocardial (n = 35) or skeletal muscle (n = 35) injection of 1 × 102,1 × 103,1 × 104,1 × 105 or 1 × 106 DF positive ES cells suspended in saline for myocardium and Matrigel for skeletal muscle. Cell survival and proliferation were monitored via bioluminescence imaging (BLI) for an 8 week period following transplantation. Mice negative for Fluc signal after 8 weeks were followed out to day 365 to confirm tumor absence. Significantly,in this study,a minimum of 1 × 105 ES cells in the myocardium and 1 × 104 cells in the skeletal muscle was observed to be requisite for teratoma development,suggesting that human ES cell number may be a critical factor in teratoma formation. Engraftment and tumor occurrence were also observed to be highly dependent on ES cell number. We anticipate these results should yield useful insights to the safe and reliable application of human ES cell derivatives in the clinic. Keywords View Publication