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

Mouse embryonic fibroblasts (MEFs) and human foreskin fibroblasts (HFFs) are used for the culture of human embryonic stem cells (hESCs). MEFs and HFFs differed in their capacity to support the proliferation and pluripotency of hESCs and could affect cardiac differentiation potential of hESCs. The aim of this study was to evaluate the effect of MEFs and HFFs feeders on dopaminergic differentiation of hESCs lines. To minimize the impact of culture condition variation,two hESCs lines were cultured on mixed feeder cells (MFCs,MEFs: HFFs = 1:1) and HFFs feeder,respectively,and then were differentiated into dopaminergic (DA) neurons under the identical protocol. Dopaminergic differentiation was evaluated by immunocytochemistry,quantitative fluorescent real-time PCR,transmission and scanning electron microscopy,and patch clamp. Our results demonstrated that these hESCs-derived neurons were genuine and functional DA neurons. However,compared to hESCs line on MFCs feeder,hESCs line on HFFs feeder had a higher proportion of tyrosine hydroxylase (TH) positive cells and expressed higher levels of FOXA2,PITX3,NURR1,and TH genes. In addition,the values of threshold intensity and threshold membrane potential of DA neurons from hESCs line on HFFs feeder were lower than those of DA neurons from hESCs line on the MFCs feeder. In conclusion,HFFs feeder not only facilitated the differentiation of hESCs cells into dopaminergic neurons,but also induced hESCs-derived DA neurons to express higher electrophysiological excitability. Therefore,feeder cells could affect not only dopaminergic differentiation potential of different hESCs lines,but also electrophysiological properties of hESCs-derived DA neurons. View Publication

Differentiation approaches to obtain mesenchymal stem cells (MSCs) have gradually developed over the last few decades. The problem is that different protocols give different MSC types,making further research difficult. Here,we tried three different approaches to differentiate embryonic stem cells (ESCs) from early mesoderm to MSCs using serum-containing or xeno-free differentiation medium and observed differences in the cells’ morphology,doubling rate,ability to form colonies,surface marker analysis,and multilineage differentiation potential of the obtained cell lines. We concluded that the xeno-free medium best fits the criteria of MSCs’ morphology,growth kinetics,and surface marker characterization. In contrast,the serum-containing medium gives better potential for further MSC differentiation into osteogenic,chondrogenic,and adipogenic lineages. View Publication

BACKGROUND: ALDH-bright (ALDH(br)) cell populations sorted from freshly collected umbilical cord blood (UCB) on the basis of their high aldehyde dehydrogenase (ALDH) activity are highly enriched for HPC. HPC with low ALDH activity (ALDH(dim)) are primarily short-term progenitors,whereas progenitors that initiate long-term cultures or establish long-term grafts in xenograft models are ALDH(br). We examined the multilineage hematopoietic and platelet progenitor activities of ALDH(br) cells recovered from cryopreserved UCB units typically employed in the practice of clinical transplantation. METHODS: Frozen UCB units were thawed,washed,immunomagnetically depleted of cells expressing glycophorin A and CD14,reacted for flow cytometric detection of ALDH,and sorted to yield ALDH(br) and ALDH(dim) populations. We measured surface Ag expression and viability of cells in the ALDH(br) and ALDH(dim) populations by flow cytometry and hematopoietic (CFC-H) and megakaryocytic (CFC-Mk) colony-forming cells in each population. RESULTS: ALDH(br) populations isolated from thawed UCB cells were highly enriched for CD34(+) and CD133(+) cells. Flow-sorted ALDH(br) populations were enriched 1116-fold in CFC-H,10-fold in multilineage GEMM colonies and 2015-fold in CFC-Mk compared with the ALDH(dim) population. All progenitors giving rise to large Mk colonies were derived from ALDH(br) populations. DISCUSSION: ALDH(br) populations recovered from thawed,banked UCB with the method we describe have HPC activity and may be useful in the clinic to facilitate reconstitution of erythroid,myeloid and megakaryocytic blood elements. View Publication

Tumor-initiating cells (TICs) are defined by their ability to form tumors after xenotransplantation in immunodeficient mice and appear to be relatively rare in most human cancers. Recent data in melanoma indicate that the frequency of TICs increases dramatically via more permissive xenotransplantation conditions,raising the possibility that the true frequency of TICs has been greatly underestimated in most human tumors. We compared the growth of human pancreatic,non-small cell lung,and head and neck carcinomas in NOD/SCID and NSG mice. Although TIC frequency was detected up to 10-fold higher in NSG mice,it remained low (textless1 in 2500 cells) in all cases. Moreover,aldehyde dehydrogenase-positive (ALDH(+)) and CD44(+)CD24(+) cells,phenotypically distinct cells enriched in TICs,were equally tumorigenic in NOD/SCID and NSG mice. Our findings demonstrate that TICs are rare in these cancers and that the identification of TICs and their frequency in other human malignancies should be validated via primary tumors and highly permissive xenotransplantation conditions. View Publication

Lineage conversion of one somatic cell type to another is an attractive approach for generating specific human cell types. Lineage conversion can be direct,in the absence of proliferation and multipotent progenitor generation,or indirect,by the generation of expandable multipotent progenitor states. We report the development of a reprogramming methodology in which cells transition through a plastic intermediate state,induced by brief exposure to reprogramming factors,followed by differentiation. We use this approach to convert human fibroblasts to mesodermal progenitor cells,including by non-integrative approaches. These progenitor cells demonstrated bipotent differentiation potential and could generate endothelial and smooth muscle lineages. Differentiated endothelial cells exhibited neo-angiogenesis and anastomosis in vivo. This methodology for indirect lineage conversion to angioblast-like cells adds to the armamentarium of reprogramming approaches aimed at the study and treatment of ischemic pathologies. View Publication

The tumorigenicity of human pluripotent stem cells (hPSCs) is widely acknowledged as a major obstacle that withholds their application in regenerative medicine. This protocol describes two efficient and robust ways to chemically eliminate the tumor-initiating hPSCs from monolayer culture. The protocol details how to maintain and differentiate hPSCs,how to apply chemical inhibitors to cultures of hPSCs and their differentiated progeny,and how to assess the purity of the resultant cell cultures using in vitro and in vivo assays. It also describes how to rescue the cytotoxic effect. The elimination and the rescue assay can be completed within 3-5 d,the in vitro assessment requires another day,and the in vivo assessment requires up to 12 additional weeks. View Publication

Human pluripotent stem cells (HPSCs) cultured in conditions that maintain pluripotency via FGF and TGFβ signaling have been described as being in a primed state. These cells have been shown to exhibit characteristics more closely related to mouse epiblast-derived stem cells than to so called naïve mouse PSCs said to possess a more ground state pluripotency that mimics the early mouse embryo inner cell mass. Initial attempts to create culture conditions favorable for generation of naïve HPSCs from primed HPSCs has required the use of mouse embryonic fibroblasts as a feeder layer to support this transition. A protocol for the routine derivation and maintenance of naïve HPSCs in completely defined conditions is highly desirable for stem cell researchers to enhance the study and clinical translation of naïve HPSCs. Here we describe a standard protocol for transitioning primed HPSCs to a naïve state using commercial RSet media and xeno-free recombinant vitronectin. View Publication