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

PURPOSE: Experimental in vitro models including well-characterised cell lines can be used to identify possible new therapeutic targets for the treatment of osteosarcoma. Culture media including inactivated serum is often recommended for in vitro culture of osteosarcoma cells,but the serum component then represents a nonstandardised parameter including a wide range of unidentified mediators. To improve the standardisation we have investigated whether serum-free culture media can be used in experimental in vitro studies of osteosarcoma cell lines. METHODS: The seven osteosarcoma cell lines Cal72,SJSA-1,Saos-2,SK-ES-1,U2OS,143.98.2,and KHOS-32IH were cultured in vitro in various serum-free media and media supplemented with 10% heat-inactivated fetal calf serum (FCS). RESULTS: Although proliferation often was relatively low in serum-free media (X-vivo 10,X-vivo 15,X-vivo 20,Stem Span SFEM),some cell lines (Cal72,KHOS-32IH,Saos-2) showed proliferation comparable with the recommended FCS-containing media even when using serum-free conditions. The optimal serum-free medium then varied between cell lines. We also compared 6 different FCS-containing media (including Stem Span with 10% FCS) and the optimal FCS-containing medium varied between cell lines. However,all cell lines proliferated well in Stem Span with FCS,and this medium was regarded as optimal for four of the lines. FCS could not be replaced by fatty acids or low density lipoprotein when testing the Stem Span medium. The release of a wide range of soluble mediators showed only minor differences when using serum-free and FCS-containing media (including Stem Span with and without FCS),and serum-free Stem Span could also be used for in vitro studies of mitogen-stimulated T cell activation in the presence of accessory osteosarcoma cells. The use of Stem Span with 10% FCS allowed the release of a wide range of chemokines by osteosarcoma cell lines (Cal72,SJSA-1),and the chemokine release profile was very similar to the fibroblast lines Hs27 and HFL1. CONCLUSIONS: Serum-free culture media can be used for in vitro studies of several osteosarcoma cell lines,but the optimal medium varies between cell lines and thus depends on: (i) the cell lines to be investigated/compared; (ii) the functional characteristic that is evaluated (proliferation,cytokine release); and (iii) whether coculture experiments are included. View Publication

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. View Publication

Summary Human pluripotent stem cells (hPSCs) are uniquely dependent on aerobic glycolysis to generate ATP. However,the importance of oxidative phosphorylation (OXPHOS) has not been elucidated. Detailed amino acid profiling has revealed that glutamine is indispensable for the survival of hPSCs. Under glucose- and glutamine-depleted conditions,hPSCs quickly died due to the loss of ATP. Metabolome analyses showed that hPSCs oxidized pyruvate poorly and that glutamine was the main energy source for OXPHOS. hPSCs were unable to utilize pyruvate-derived citrate due to negligible expression of aconitase 2 (ACO2) and isocitrate dehydrogenase 2/3 (IDH2/3) and high expression of ATP-citrate lyase. Cardiomyocytes with mature mitochondria were not able to survive without glucose and glutamine,although they were able to use lactate to synthesize pyruvate and glutamate. This distinguishing feature of hPSC metabolism allows preparation of clinical-grade cell sources free of undifferentiated hPSCs,which prevents tumor formation during stem cell therapy. View Publication

Ex vivo amplification of human hematopoietic stem cells (HSC) without loss of their self-renewing potential represents an important target for transplantation,gene and cellular therapies. Valproic acid is a safe and widely used neurologic agent that acts as a potent inhibitor of histone deacetylase activities. Here,we show that valproic acid addition to liquid cultures of human CD34+ cells isolated from cord blood,mobilized peripheral blood,and bone marrow strongly enhances the ex vivo expansion potential of different cytokine cocktails as shown by morphologic,cytochemical,immunophenotypical,clonogenic,and gene expression analyses. Notably,valproic acid highly preserves the CD34 positivity after 1 week (range,40-89%) or 3 weeks (range,21-52%) amplification cultures with two (Flt3L + thrombopoietin) or four cytokines (Flt3L + thrombopoietin + stem cell factor + interleukin 3). Moreover,valproic acid treatment increases histone H4 acetylation levels at specific regulatory sites on HOXB4,a transcription factor gene with a key role in the regulation of HSC self-renewal and AC133,a recognized marker gene for stem cell populations. Overall,our results relate the changes induced by valproic acid on chromatin accessibility with the enhancement of the cytokine effect on the maintenance and expansion of a primitive hematopoietic stem cell population. These findings underscore the potentiality of novel epigenetic approaches to modify HSC fate in vitro. View Publication

Resveratrol (trans-3,5,4'-trihydroxystilbene) (RSV) is a natural polyphenol with protective effects over cardiac tissues and can affect cell survival and differentiation in cardiac stem cells transplantation. However,whether this agent can affect cardiomyocytes (CMs) differentiation of induced pluripotent stem cells (iPSCs) is not yet clear. This study explored whether RSV can affect CMs differentiation of human iPSCs. Under embryoid bodies (EBs) condition,the effect of RSV on the change of pluripotent markers,endoderm markers,mesoderm markers,and ectoderm markers was measured using qRT-PCR. Under CM differentiation culture,the effect of RSV on CM specific markers was also measured. The regulative role of RSV over canonical Wnt signal pathway and serum response factor- (SRF-) miR-1 axis and the functions of these two axes were further studied. Results showed that RSV had no effect on the self-renewal of human iPSCs but could promote mesoderm differentiation. Under CM differentiation culture,RSV could promote CM differentiation of human iPSCs through suppressing canonical Wnt signal pathway and enhancing SRF-miR-1 axis. View Publication

Ex vivo expansion of hematopoietic stem cells (HSCs) has been explored in the fields of stem cell biology,gene therapy,and clinical transplantation. Here,we demonstrate efficient ex vivo expansion of HSCs measured by long-term severe combined immunodeficient (SCID) repopulating cells (SRCs) from human cord blood CD133-sorted cells using a soluble form of Delta1. After a 3-week culture on immobilized Delta1 supplemented with stem cell factor,thrombopoietin,Flt-3 ligand,interleukin (IL)-3,and IL-6/soluble IL-6 receptor chimeric protein (FP6) in a serum- and stromal cell-free condition,we achieved approximately sixfold expansion of SRCs when evaluated by limiting dilution/transplantation assays. The maintenance of full multipotency and self-renewal capacity during culture was confirmed by transplantation to nonobese diabetic/SCID/gammac(null) mice,which showed myeloid,B,T,and natural killer cells as well as CD133(+)CD34(+) cells,and hematopoietic reconstitution in the secondary recipients. Interestingly,the CD133-sorted cells contained approximately 4.5 times more SRCs than the CD34-sorted cells. The present study provides a promising method to expand HSCs and encourages future trials on clinical transplantation. View Publication

Ex vivo culture of human hematopoietic cells is a crucial component of many therapeutic applications. Although current culture conditions have been optimized using quantitative in vitro progenitor assays,knowledge of the conditions that permit maintenance of primitive human repopulating cells is lacking. We report that primitive human cells capable of repopulating nonobese diabetic (NOD)/severe combined immunodeficiency (SCID) mice (SCID-repopulating cells; SRC) can be maintained and/or modestly increased after culture of CD34+CD38- cord blood cells in serum-free conditions. Quantitative analysis demonstrated a 4- and 10-fold increase in the number of CD34+CD38- cells and colony-forming cells,respectively,as well as a 2- to 4-fold increase in SRC after 4 d of culture. However,after 9 d of culture,all SRC were lost,despite further increases in total cells,CFC content,and CD34+ cells. These studies indicate that caution must be exercised in extending the duration of ex vivo cultures used for transplantation,and demonstrate the importance of the SRC assay in the development of culture conditions that support primitive cells. View Publication

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. View Publication

A microfluidic human pluripotent stem cell (hPSC) array has been developed for robust and reproducible hPSC culture methods to assess chemically defined serum- and feeder-free culture conditions. This microfluidic platform,combined with image cytometry,enables the systematic analysis of multiple simultaneously detected marker expression in individual cells,for screening of various chemically defined media across hPSC lines,and the study of phenotypic responses. View Publication

Pluripotent stem cells are able to give rise to all cell types of the organism. There are two sources for human pluripotent stem cells: embryonic stem cells (ESCs) derived from surplus blastocysts created for in vitro fertilization and induced pluripotent stem cells (iPSCs) generated by reprogramming of somatic cells. ESCs have been an area of intense research during the past decade,and two clinical trials have been recently approved. iPSCs were created only recently,and most of the research has been focused on the iPSC generation protocols and investigation of mechanisms of direct reprogramming. The iPSC technology makes possible to derive pluripotent stem cells from any patient. However,there are a number of hurdles to be overcome before iPSCs will find a niche in practice. In this review,we discuss differences and similarities of the two pluripotent cell types and assess prospects for application of these cells in biomedicine. View Publication

Human induced pluripotent stem cells (hiPSCs) have demonstrated great potential for hyaline cartilage regeneration. However,current approaches for chondrogenic differentiation of hiPSCs are complicated and inefficient primarily due to intermediate embryoid body formation,which is required to generate endodermal,ectodermal,and mesodermal cell lineages. We report a new,straightforward and highly efficient approach for chondrogenic differentiation of hiPSCs,which avoids embryoid body formation. We differentiated hiPSCs directly into mesenchymal stem /stromal cells (MSC) and chondrocytes. hiPSC-MSC-derived chondrocytes showed significantly increased Col2A1,GAG,and SOX9 gene expression compared to hiPSC-MSCs. Following transplantation of hiPSC-MSC and hiPSC-MSC-derived chondrocytes into osteochondral defects of arthritic joints of athymic rats,magnetic resonance imaging studies showed gradual engraftment,and histological correlations demonstrated hyaline cartilage matrix production. Results present an efficient and clinically translatable approach for cartilage tissue regeneration via patient-derived hiPSCs,which could improve cartilage regeneration outcomes in arthritic joints. View Publication

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. View Publication