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

The fundamental repeating unit of eukaryotic chromatin is the nucleosome. Besides being involved in packaging DNA,nucleosome organization plays an important role in transcriptional regulation and cellular identity. Currently,there is much debate about the major determinants of the nucleosome architecture of a genome and its significance with little being known about its role in stem cells. To address these questions,we performed ultra-deep sequencing of nucleosomal DNA in two human embryonic stem cell lines and integrated our data with numerous epigenomic maps. Our analyses have revealed that the genome is a determinant of nucleosome organization with transcriptionally inactive regions characterized by a ground state" of nucleosome profiles driven by underlying DNA sequences. DNA sequence preferences are associated with heterogeneous chromatin organization around transcription start sites. Transcription� View Publication

Numerous publications have described the importance of bone morphogenetic protein (BMP) signaling in the specification of hematopoietic tissue in developing embryos. Here we investigate the full role of canonical BMP signaling in both adult and fetal liver hematopoiesis using conditional knockout strategies because conventional disruption of components of the BMP signaling pathway result in early death of the embryo. By targeting both Smad1 and Smad5,we have generated a double-knockout mouse with complete disruption of canonical BMP signaling. Interestingly,concurrent deletion of Smad1 and Smad5 results in death because of extrahematopoietic pathologic changes in the colon. However,Smad1/Smad5-deficient bone marrow cells can compete normally with wild-type cells and display unaffected self-renewal and differentiation capacity when transplanted into lethally irradiated recipients. Moreover,although BMP receptor expression is increased in fetal liver,fetal liver cells deficient in both Smad1 and Smad5 remain competent to long-term reconstitute lethally irradiated recipients in a multilineage manner. In conclusion,canonical BMP signaling is not required to maintain either adult or fetal liver hematopoiesis,despite its crucial role in the initial patterning of hematopoiesis in early embryonic development. View Publication

In recent years,studies of cancer development and recurrence have been influenced by the cancer stem cells (CSCs)/cancer-initiating cells (CICs) hypothesis. According to this,cancer is sustained by highly positioned,chemoresistant cells with extensive capacity of self renewal,which are responsible for disease relapse after chemotherapy. Growth of cancer cells as three-dimensional non-adherent spheroids is regarded as a useful methodology to enrich for cells endowed with CSC-like features. We have recently reported that cell cultures derived from malignant pleural effusions (MPEs) of patients affected by adenocarcinoma of the lung are able to efficiently form spheroids in non-adherent conditions supplemented with growth factors. By expression profiling,we were able to identify a set of genes whose expression is significantly upregulated in lung tumor spheroids versus adherent cultures. One of the most strongly upregulated gene was stearoyl-CoA desaturase (SCD1),the main enzyme responsible for the conversion of saturated into monounsaturated fatty acids. In the present study,we show both by RNA interference and through the use of a small molecule inhibitor that SCD1 is required for lung cancer spheroids propagation both in stable cell lines and in MPE-derived primary tumor cultures. Morphological examination and image analysis of the tumor spheroids formed in the presence of SCD1 inhibitors showed a different pattern of growth characterized by irregular cell aggregates. Electron microscopy revealed that the treated spheroids displayed several features of cellular damage and immunofluorescence analysis on optical serial sections showed apoptotic cells positive for the M30 marker,most of them positive also for the stemness marker ALDH1A1,thus suggesting that the SCD1 inhibitor is selectively killing cells with stem-like properties. Furthermore,SCD1-inhibited lung cancer cells were strongly impaired in their in vivo tumorigenicity and ALDH1A1 expression. These results suggest that SCD1 is a critical target in lung cancer tumor-initiating cells. View Publication

Despite many years of intensive effort,there is surprisingly little consensus on the most suitable markers with which to locate and isolate stem cells from adult tissues. By comparison,the study of cancer stem cells is still in its infancy; so,unsurprisingly,there is great uncertainty as to the identity of these cells. Stem cell markers can be broadly categorized into molecular determinants of self-renewal,clonogenicity,multipotentiality,adherence to the niche,and longevity. This review assesses the utility of recognizing cancer stem cells by virtue of high expression of aldehyde dehydrogenases (ALDHs),probably significant determinants of cell survival through their ability to detoxify many potentially cytotoxic molecules,and contributing to drug resistance. Antibodies are available against the ALDH enzyme family,but the vast majority of studies have used cell sorting techniques to enrich for cells expressing these enzymes. Live cells expressing high ALDH activity are usually identified by the ALDEFLUOR kit and sorted by fluorescence activated cell sorting (FACS). For many human tumours,but notably breast cancer,cell selection based upon ALDH activity appears to be a useful marker for enriching for cells with tumour-initiating activity (presumed cancer stem cells) in immunodeficient mice,and indeed the frequency of so-called ALDH(bri) cells in many tumours can be an independent prognostic indicator. View Publication

A cDNA clone encoding a novel hematopoietic growth factor activity produced by a gibbon T cell line has been identified using a mammalian cell expression cloning system. The sequence of this cDNA proved to have significant homology to the sequence encoding murine interleukin 3 (IL-3). The human gene,which was readily identified because of its high degree of homology to the gibbon sequence,also displayed significant homology with the murine IL-3 sequence. The recombinant gibbon IL-3 protein proved to have multipotent colony stimulating activity when tested with normal human bone marrow cells,proving that this primate hematopoietin is not only structurally but also functionally related to murine IL-3. View Publication

AbstractIntroduction
Preeclampsia and other placental pathologies are characterized by a lack of spiral artery remodeling associated with insufficient invasion by extravillous trophoblast cells (EVT). Because trophoblast invasion occurs in early pregnancy when access to human placental tissue is limited,there is a need for model systems for the study of trophoblast differentiation and invasion. Human embryonic stem cells (hESC) treated with BMP4- differentiate to trophoblast,and express HLA-G,a marker of EVT. The goals of the present study were to further characterize the HLA-G+ cells derived from BMP4-treated hESC,and determine their suitability as a model.
Methods
HESC were treated with BMP4 under 4% or 20% oxygen and tested in Matrigel invasion chambers. Both BMP4-treated hESC and primary human placental cells were separated into HLA-G+ and HLA-G−/TACSTD2+ populations with immunomagnetic beads and expression profiles analyzed by microarray.
Results
There was a 10-fold increase in invasion when hESC were BMP4-treated. There was also an independent,stimulatory effect of oxygen on this process. Invasive cells expressed trophoblast marker KRT7,and the majority were also HLA-G+. Gene expression profiles revealed that HLA-G+,BMP4-treated hESC were similar to,but distinct from,HLA-G+ cells isolated from first trimester placentas. Whereas HLA-G+ and HLA-G− cells from first trimester placentas had highly divergent gene expression profiles,HLA-G+ and HLA-G− cells from BMP4-treated hESC had somewhat similar profiles,and both expressed genes characteristic of early trophoblast development.
Conclusions
We conclude that hESC treated with BMP4 provide a model for studying transition to the EVT lineage. View Publication

Recently,induced pluripotent stem cells (iPSCs) were established as promising cell sources for revolutionary regenerative therapies. The initial culture system used for iPSC generation needed fetal calf serum in the culture medium and mouse embryonic fibroblast as a feeder layer,both of which could possibly transfer unknown exogenous antigens and pathogens into the iPSC population. Therefore,the development of culture systems designed to minimize such potential risks has become increasingly vital for future applications of iPSCs for clinical use. On another front,although donor cell types for generating iPSCs are wide-ranging,T cells have attracted attention as unique cell sources for iPSCs generation because T cell-derived iPSCs (TiPSCs) have a unique monoclonal T cell receptor genomic rearrangement that enables their differentiation into antigen-specific T cells,which can be applied to novel immunotherapies. In the present study,we generated transgene-free human TiPSCs using a combination of activated human T cells and Sendai virus under defined culture conditions. These TiPSCs expressed pluripotent markers by quantitative PCR and immunostaining,had a normal karyotype,and were capable of differentiating into cells from all three germ layers. This method of TiPSCs generation is more suitable for the therapeutic application of iPSC technology because it lowers the risks associated with the presence of undefined,animal-derived feeder cells and serum. Therefore this work will lead to establishment of safer iPSCs and extended clinical application. View Publication

The blood-brain barrier (BBB) is crucial to the health of the brain and is often compromised in neurological disease. Moreover,because of its barrier properties,this endothelial interface restricts uptake of neurotherapeutics. Thus,a renewable source of human BBB endothelium could spur brain research and pharmaceutical development. Here we show that endothelial cells derived from human pluripotent stem cells (hPSCs) acquire BBB properties when co-differentiated with neural cells that provide relevant cues,including those involved in Wnt/β-catenin signaling. The resulting endothelial cells have many BBB attributes,including well-organized tight junctions,appropriate expression of nutrient transporters and polarized efflux transporter activity. Notably,they respond to astrocytes,acquiring substantial barrier properties as measured by transendothelial electrical resistance (1,450 ± 140 Ω cm2),and they possess molecular permeability that correlates well with in vivo rodent blood-brain transfer coefficients. View Publication

Mast cells are tissue-resident immune cells that play a key role in inflammation and allergy. Here we show that interaction of mast cells with antibody-targeted cells induces the polarized exocytosis of their granules resulting in a sustained exposure of effector enzymes,such as tryptase and chymase,at the cell-cell contact site. This previously unidentified mast cell effector mechanism,which we name the antibody-dependent degranulatory synapse (ADDS),is triggered by both IgE- and IgG-targeted cells. ADDSs take place within an area of cortical actin cytoskeleton clearance in the absence of microtubule organizing centre and Golgi apparatus repositioning towards the stimulating cell. Remarkably,IgG-mediated degranulatory synapses also occur upon contact with opsonized Toxoplasma gondii tachyzoites resulting in tryptase-dependent parasite death. Our results broaden current views of mast cell degranulation by revealing that human mast cells form degranulatory synapses with antibody-targeted cells and pathogens for dedicated secretion and defence. View Publication

BACKGROUND This article is part of a series of publications providing formal method validation for biospecimen processing in the context of accreditation in laboratories and biobanks. We report the optimization and validation for fitness-for-purpose of automated and manual protocols for isolating peripheral blood mononuclear cells (PBMCs) from whole blood,and compare the two methods. METHODS The manual method was optimized for whole blood centrifugation speed,gradient type (Ficoll,Leucosep,CPT),and freezing method (Mr Frosty,Controlled Rate Freezing). Various parameters of the automated protocol using a CPT gradient on a Tecan liquid handler were optimized. Optimal protocols were validated in parallel for reproducibility and robustness. Optimization and validation were assessed in terms of cell yield,viability,recovery,white blood cell (WBC) subpopulation distribution,gene expression,and lymphoblastoid cell line (LCL) transformation. RESULTS An initial centrifugation of whole blood at 2000 g was considered optimal for further processing,allowing isolation of plasma and PBMCs from a single sample. The three gradients gave similar outcomes in terms of cell yield,viability,and WBC subpopulation distribution. Ficoll showed some advantages and was selected for further evaluations. Optimization of the automated protocol script using a CPT gradient gave 61% cell recovery. No significant differences in quality,quantity,and WBC subpopulation distribution were seen between the two freezing methods,and Mr. Frosty was selected. The manual and automated protocols were reproducible in terms of quantity,recovery,viability,WBC subpopulation distribution,gene expression,and LCL transformation. Most (75%-100%) of the 13 robustness parameters were accepted for both methods with an 8 h pre-centrifugation delay versus 38%-85% after 24 h. Differences identified between the automated and manual methods were not considered consequential. CONCLUSIONS We validated the first fully automated method for isolating viable PBMCs,including RNA analysis and generation of LCLs. We recommend processing within 8 h of blood collection. View Publication

Recent population studies provide clues that the use of metformin may be associated with reduced incidence and improved prognosis of certain cancers. This drug is widely used in the treatment of type 2 diabetes,where it is often referred to as an insulin sensitizer" because it not only lowers blood glucose but also reduces the hyperinsulinemia associated with insulin resistance. As insulin and insulin-like growth factors stimulate proliferation of many normal and transformed cell types� View Publication

OBJECTIVES: Tolerogenic dendritic cells (tolDCs) constitute a promising experimental treatment for targeting autoreactive T cells in autoimmune diseases,including rheumatoid arthritis (RA). The authors' goal is to bring tolDC therapy for RA to the clinic. Here the authors address key translational issues related to the manufacturing of tolDCs from RA patients with current good manufacturing practice (cGMP)-compliant reagents,the stability of tolDCs,and the selection of suitable quality control markers. METHODS: Human monocyte-derived tolDCs were established from RA patients and healthy controls (HCs) using the immunosuppressive drugs dexamethasone and vitamin D₃,and the cGMP-grade immunomodulator,monophosphoryl lipid A,in the cGMP-compliant medium,CellGroDC. The functionality of tolDCs and tolDC-modulated autologous CD4 T cells was determined by flow cytometry,[³H]thymidine incorporation and ELISA. RESULTS: Clinical-grade tolDCs established from patients with RA exhibit a typical tolerogenic phenotype of reduced costimulatory molecules,low production of proinflammatory cytokines and impaired stimulation of autologous antigen-specific T cells,comparable to HC tolDCs. Toll-like receptor 2 (TLR-2) was highly expressed by tolDCs but not mature DCs. Furthermore,tolDCs suppressed mature DC-induced T cell proliferation,interferon γ and interleukin 17 production,and rendered T cells hyporesponsive to further stimulation. Importantly,tolDCs were phenotypically stable in the absence of immunosuppressive drugs and were refractory to further challenge with proinflammatory mediators. CONCLUSIONS: tolDCs established from patients with RA are comparable to those derived from healthy donors. TLR-2 was identified as an ideal marker for quality control of tolDCs. Potently tolerogenic and highly stable,these tolDCs are a promising cellular therapeutic for tailored immunomodulation in the treatment of RA. View Publication