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

Enumeration of human embryonic stem cell (hESC) numbers through single cell digestion can be time consuming especially in high-throughput or multi-factorial analysis containing 50+ samples. We have developed a reproducible,cost-effective method of counting hESCs in clumps circumventing the need to manually dissociate each sample to single cells. The method is based on the DNA binding capacity of propidium iodide (PI) and subsequent fluorescent signal detection. Standard curves generated for cell numbers versus PI fluorescence as single cells or clumps showed an almost identical relationship in the lines of best fit. The reproducibility of the assay was first demonstrated by seeding hESC clumps at specific cell densities ranging 0.05[x02013]2x105 cells/well and then secondly by using the assay to count cell numbers after different growth conditions. Validation tests showed that consistent seeding densities are important in maintaining undifferentiated hESC culture and that the assay can be used to estimate relative cell numbers and growth curves with high accuracy. View Publication

OBJECTIVE: We used genetically engineered mouse hematopoietic progenitor cells (HPCs) to investigate the therapeutic effects of human apoAI on atherosclerosis in apoE(-/-) mice. METHODS AND RESULTS: Lentiviral constructs expressing either human apoAI (LV-apoAI) or green fluorescent protein (LV-GFP) cDNA under a macrophage specific promoter (CD68) were generated and used for ex vivo transduction of mouse HPCs and macrophages. The transduction efficiency was textgreater25% for HPCs and textgreater70% for macrophages. ApoAI was found in the macrophage culture media,mostly associated with the HDL fraction. Interestingly,a significant increase in mRNA and protein levels for ATP binding cassette A1 (ABCA1) and ABCG1 were found in apoAI-expressing macrophages after acLDL loading. Expression of apoAI significantly increased cholesterol efflux in wild-type and apoE(-/-) macrophages. HPCs transduced with LV-apoAI ex vivo and then transplanted into apoE(-/-) mice caused a 50% reduction in atherosclerotic lesion area compared to GFP controls,without influencing plasma HDL-C levels. CONCLUSIONS: Lentiviral transduction of apoAI into HPCs reduces atherosclerosis in apoE(-/-) mice. Expression of apoAI in macrophages improves cholesterol trafficking in wild-type apoE-producing macrophages and causes upregulation of ABCA1 and ABCG1. These novel observations set the stage for a cell therapy approach to atherosclerosis regression,exploiting the cooperation between apoE and apoAI to maximize cholesterol exit from the plaque. View Publication

Human mesenchymal stromal cells (hMSCs) have generated significant interest due to their potential use in clinical applications. hMSCs are present at low frequency in vivo,but after isolation can be expanded considerably,generating clinically useful numbers of cells. In this study,we demonstrate the use of a defined embryonic stem cell expansion medium,mTeSR (Stem Cell Technologies),for the expansion of bone-marrow-derived hMSCs. The hMSCs grow at comparable rates,demonstrate tri-lineage differentiation potential,and show similar surface marker profiles (CD29(+),CD44(+),CD49a(+),CD73(+),CD90(+),CD105(+),CD146(+),CD166(+),CD34(-),and CD45(-)) in both the fetal bovine serum (FBS)-supplemented medium and mTeSR. However,expression of early differentiation transcription factors runt-related transcription factor 2,sex-determining region Y box 9,and peroxisome proliferator-activated receptor gamma changed significantly. Both runt-related transcription factor 2 and sex-determining region Y box 9 were upregulated,whereas peroxisome proliferator-activated receptor gamma was downregulated in mTeSR compared with FBS. Although osteogenic and chondrogenic differentiation was comparable in cells grown in mTeSR compared to FBS,adipogenic differentiation was significantly decreased in mTeSR-expanded cells,both in terms of gene expression and absolute numbers of adipocytes. The removal of the FBS from the medium and the provision of a defined medium with disclosed composition make mTeSR a superior study platform for hMSC biology in a controlled environment. Further,this provides a key step toward generating a clinical-grade medium for expansion of hMSCs for clinical applications that rely on osteo- and chondroinduction of MSCs,such as bone repair and cartilage generation. View Publication

Primary human endothelial cells represent an essential tool to model endothelial dysfunction and to screen interventions for its treatment. Here,we developed a protocol for the synchronous isolation of primary human saphenous vein endothelial cells (HSaVEC),human internal thoracic artery endothelial cells (HITAEC),and human microvascular endothelial cells (HMVEC) from SV and ITA utilized as conduits during coronary artery bypass graft surgery and from subcutaneous adipose tissue excised while providing an access to the heart. Treatment by collagenase type IV and magnetic separation with anti-CD31-antibody-coated beads ensured relatively high efficiency of the isolation (≈60% for HSaVEC,≈50% for HITAEC,and ≈20% for HMVEC) and high purity (≥99%) of isolated ECs within ≈2 weeks (HSaVEC),≈2–3 weeks (HITAEC),and ≈3–4 weeks (HMVEC). A colorimetric assay of cell viability and proliferation,as well as real-time bioimpedance monitoring using the xCELLigence instrument,demonstrated high proliferative activity in HSaVEC,HITAEC,and HMVEC,whilst the in vitro tube formation assay indicated their angiogenic potential. The isolation of HSaVEC,HITAEC,and HMVEC from patients undergoing coronary artery bypass graft surgery is a promising option to investigate endothelial heterogeneity,to interrogate endothelial responses to various stresses,and to pinpoint the optimal approaches for restoring endothelial homeostasis,thereby reproducing them within the bedside-to-bench-to-bedside concept. View Publication

Genetic modification of cell lines and primary cells is an expensive and cumbersome approach,often involving the use of viral vectors. Electroporation using square-wave generating devices,like Lonza's Nucleofector,is a widely used option,but the costs associated with the acquisition of electroporation kits and the transient transgene expression might hamper the utility of this methodology. In the present work,we show that our in-house developed buffers,termed Chicabuffers,can be efficiently used to electroporate cell lines and primary cells from murine and human origin. Using the Nucleofector II device,we electroporated 14 different cell lines and also primary cells,like mesenchymal stem cells and cord blood CD34+,providing optimized protocols for each of them. Moreover,when combined with sleeping beauty-based transposon system,long-term transgene expression could be achieved in all types of cells tested. Transgene expression was stable and did not interfere with CD34+ differentiation to committed progenitors. We also show that these buffers can be used in CRISPR-mediated editing of PDCD1 gene locus in 293T and human peripheral blood mononuclear cells. The optimized protocols reported in this study provide a suitable and cost-effective platform for the genetic modification of cells,facilitating the widespread adoption of this technology. View Publication

Acute myeloid leukemia (AML) is a malignant disorder derived from neoplastic myeloid progenitor cells characterized by abnormal proliferation and differentiation. Although novel therapeutics have recently been introduced,AML remains a therapeutic challenge with insufficient cure rates. In the last years,immune-directed therapies such as chimeric antigen receptor (CAR)-T cells were introduced,which showed outstanding clinical activity against B-cell malignancies including acute lymphoblastic leukemia (ALL). However,the application of CAR-T cells appears to be challenging due to the enormous molecular heterogeneity of the disease and potential long-term suppression of hematopoiesis. Here we report on the generation of CD33-targeted CAR-modified natural killer (NK) cells by transduction of blood-derived primary NK cells using baboon envelope pseudotyped lentiviral vectors (BaEV-LVs). Transduced cells displayed stable CAR-expression,unimpeded proliferation,and increased cytotoxic activity against CD33-positive OCI-AML2 and primary AML cells in vitro. Furthermore,CD33-CAR-NK cells strongly reduced leukemic burden and prevented bone marrow engraftment of leukemic cells in OCI-AML2 xenograft mouse models without observable side effects. 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

The present study describes and compares functional properties of Nuli-1 cells and primary human nasal epithelial cells (HNEC) including TLR expression and function. Differences in gene expression were identified for non-TLR genes that play a role in TLR response pathways. However,experiments comparing TLR gene expression for both Nuli-1 cells and HNECs indicated conserved expression in both cell types. Stimulation of the two cell types resulted in a conserved response to TLR3 agonists,but in differences in response to agonists for TLR5 and TLR6/2. HNECs were much more susceptible to infection with Staphylococcus aureus than NuLi-1 cells. Furthermore,when cultured at air-liquid interface (ALI),NuLi-1 cells possessed much lower trans-epithelial resistance than primary HNEC and did not exhibit maintenance of cell morphology or mucous production which was observed in HNECs. Nor did they produce the characteristic interconnecting pattern of tight junction complexes at the apicolateral margin of adjacent cells. Caution should therefore be exercised when selecting cell lines for immunological studies and a thorough screen of properties relevant to the study should always be carried out prior to commencement. View Publication

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