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

We have recently shown that conservation and differentiation of primitive human hematopoietic progenitors in in vitro long-term bone marrow cultures (LTBMC) occurs to a greater extent when hematopoietic cells are grown separated from the stromal layer than when grown in direct contact with the stroma. This finding suggests that hematopoiesis may depend mainly on soluble factors produced by the stroma. To define these soluble factors,we examine here whether a combination of defined early-acting cytokines can replace soluble stroma-derived biologic activities that induce conservation and differentiation of primitive progenitors. Normal human Lineage-/CD34+/HLA-DR- cells (DR-) were cultured either in the absence of a stromal layer (stroma-free") or in a culture system in which DR- cells were separated from the stromal layer by a microporous membrane ("stroma-noncontact"). Both culture systems were supplemented three times per week with or without cytokines. These studies show that culture of DR- cells for 5 weeks in a "stroma-free" culture supplemented with a combination of four early acting cytokines (Interleukin-3 [IL-3]� View Publication

The human ATP-binding cassette superfamily G (White) member 2 (ABCG2) gene and its murine homologue breast cancer resistance protein 1 (Bcrp1) are recently described ATP-binding cassette transporters associated with drug resistance in tumor cell lines,including the MCF-7 cell line,selected for its resistance to mitoxantrone (MCF-7/MitoR). Infection of MCF-7 cells with the retroviral vector containing ABCG2 cDNA (G1-ABCG2) resulted in cells (MCF-7/ABCG2) that were resistant to mitoxantrone at levels similar to those observed in MCF-7/MitoR cells. Previous studies have shown that pluripotent hematopoietic stem cells overexpress the multidrug-resistant transport (MDR1) gene and efflux rhodamine,a substrate for the MDR1 transporter. Other studies have identified a primitive hematopoietic stem cell population,or side population (SP) cells,which are identified by their efflux of the fluorescent dye,Hoechst 33342. In an attempt to identify the transport genes responsible for this phenotype,we examined the uptake of Hoechst 33342 into MCF-7,MCF-7/MitoR,and MCF-7 cells infected with a retroviral vector expressing the ABCG2 gene (MCF-7/ABCG2). MCF-7/MitoR cells as well as MCF-7/ABCG2 cells demonstrated lower levels of Hoechst 33342 uptake compared with the parental MCF-7 cells. We also examined the level of the mouse Bcrp1 RNA in SP cells and non-SP cells isolated from mouse hematopoietic cells. Mouse SP cells expressed relatively high levels of Bcrp1 mRNA relative to non-SP cells. These results suggest that Hoechst 33342 is a substrate for the ABCG2 transporter and that ABCG2/Bcrp1 expression may serve as a marker for hematopoietic stem cells in hematopoietic cells. View Publication

The anti-My-10 mouse monoclonal antibody was raised against the immature human myeloid cell line KG-1a and was selected for nonreactivity with mature human granulocytes. Anti-My-10 immunoprecipitated a KG-1a cell surface protein with an apparent Mr of approximately 115 kD. We describe the binding of this antibody to human hematopoietic cell types and show that My-10 is expressed specifically on immature normal human marrow cells,including hematopoietic progenitor cells. My-10 is also expressed by leukemic marrow cells from a subpopulation of patients. Thus,this antibody allows the identification and purification of hematopoietic progenitor cells from normal human marrow and the subclassification of leukemia. View Publication

Hematotoxicity is a significant issue for drug safety and can result from direct cytotoxicity toward circulating mature blood cell types as well as targeting of immature blood-forming stem cells/progenitor cells in the bone marrow. In vitro models for understanding and investigating the hematotoxicity potential of new test items/drugs are critical in early preclinical drug development. The traditional method,colony forming unit (CFU) assay,is commonly used and has been validated as a method for hematotoxicity screening. The CFU assay has multiple limitations for its application in investigative work. In this paper,we describe a detailed protocol for a liquid-culture,microplate-based in vitro hematotoxicity assay to evaluate lineage-specific (myeloid,erythroid,and megakaryocytic) hematotoxicity at different stages of differentiation. This assay has multiple advantages over the traditional CFU assay,including being suitable for high-throughput screening and flexible enough to allow inclusion of additional endpoints for mechanistic studies. Therefore,it is an extremely useful tool for scientists in pharmaceutical discovery and development. {\textcopyright} 2018 by John Wiley & Sons,Inc. View Publication

Current sources of mesenchymal cells,including bone marrow,fat and muscle,all require invasive procurement procedures,and provide relatively low frequencies of progenitors. Here,we describe the non-invasive isolation,and characterization,of a rich source of mesenchymal progenitor cells,which we call human umbilical cord perivascular cells (HUCPVCs). HUCPVCs show a similar immunological phenotype to bone marrow-derived mesenchymal stromal cells (BM-MSCs),since they are non-alloreactive,exhibit immunosuppression,and significantly reduce lymphocyte activation,in vitro. They present a non-hematopoietic myofibroblastic mesenchymal phenotype (CD45-,CD34-,CD105+,CD73+,CD90+,CD44+,CD106+,3G5+,CD146+); with a 1:300 frequency at harvest,a short-doubling time,and a clonogenic frequency of textgreater1:3 in culture. Furthermore,in addition to robust quinti-potential differentiation capacity in vitro,HUCPVCs have been shown to contribute to both musculo-skeletal and dermal wound healing in vivo. View Publication

The use of induced pluripotent stem cells (iPSCs) is an exciting frontier in the study and treatment of human diseases through the generation of specific cell types. Here we show the derivation of iPSCs from human nonmobilized peripheral blood (PB) and bone marrow (BM) mononuclear cells (MNCs) by retroviral transduction of OCT3/4,SOX2,KLF4,and c-MYC. The PB- and BM-derived iPSCs were quite similar to human embryonic stem cells with regard to morphology,expression of surface antigens and pluripotency-associated transcription factors,global gene expression profiles,and differentiation potential in vitro and in vivo. Infected PB and BM MNCs gave rise to iPSCs in the presence of several cytokines,although transduction efficiencies were not high. We found that 5 × 10(5) PB MNCs,which corresponds to less than 1 mL of PB,was enough for the generation of several iPSC colonies. Generation of iPSCs from MNCs of nonmobilized PB,with its relative efficiency and ease of harvesting,could enable the therapeutic use of patient-specific pluripotent stem cells. View Publication

Human neural progenitor cells provide a source for cell replacement therapy to treat neurodegenerative diseases. Therefore,there is great interest in mechanisms and tools to direct the fate of multipotent progenitor cells during their differentiation to increase the yield of a desired cell type. We tested small molecule inhibitors of glycogen synthase kinase-3 (GSK-3) for their functionality and their influence on neurogenesis using the human neural progenitor cell line ReNcell VM. Here we report the enhancement of neurogenesis of human neural progenitor cells by treatment with GSK-3 inhibitors. We tested different small molecule inhibitors of GSK-3 i.e. LiCl,sodium-valproate,kenpaullone,indirubin-3-monoxime and SB-216763 for their ability to inhibit GSK-3 in human neural progenitor cells. The highest in situ GSK-3 inhibitory effect of the drugs was found for kenpaullone and SB-216763. Accordingly,kenpaullone and SB-216763 were the only drugs tested in this study to stimulate the Wnt/β-catenin pathway that is antagonized by GSK-3. Analysis of human neural progenitor differentiation revealed an augmentation of neurogenesis by SB-216763 and kenpaullone,without changing cell cycle exit or cell survival. Small molecule inhibitors of GSK-3 enhance neurogenesis of human neural progenitor cells and may be used to direct the differentiation of neural stem and progenitor cells in therapeutic applications. View Publication

Therapeutic and industrial applications of pluripotent stem cells and their derivatives require large cell quantities generated in defined conditions. To this end,we have translated single cell-inoculated suspension cultures of human pluripotent stem cells (hPSCs; including human induced pluripotent stem cells [hiPS] and human embryonic stem cells [hESC]) to stirred tank bioreactors. These systems that are widely used in biopharmaceutical industry allow straightforward scale up and detailed online monitoring of key process parameters. To ensure minimum medium consumption,but in parallel functional integration of all probes mandatory for process monitoring,that is,for pO₂ and pH,experiments were performed in 100 mL culture volume in a mini reactor platform" consisting of four independently controlled vessels. By establishing defined parameters for tightly controlled cell inoculation and aggregate formation up to 2×10�?� hiPSCs/100 mL were generated in a single process run in 7 days. Expression of pluripotency markers and ability of cells to differentiate into derivates of all three germ layers in vitro was maintained� View Publication

PURPOSE This study aimed to develop a feasible and efficient method for generating embryonic stem cell (ESC)-like induced pluripotent stem (iPS) cells from human Tenon's capsule fibroblasts (HTFs) through the expression of a defined set of transcription factors,which will have significant application value for ophthalmic personalized regenerative medicine. METHODS HTFs were harvested from fresh samples,and reprogramming was induced by the exogenous expression of the four classic transcription factors,OCT-3/4,SOX-2,KLF-4,and C-MYC. The HTF-derived iPS (TiPS) cells were analyzed with phase contrast microscopy,real-time PCR,immunofluorescence,FACS analysis,alkaline phosphatase activity analysis,and a teratoma formation assay. Human ESC colonies were used as the positive control. RESULTS The resulting HTF-derived iPS cell colonies were indistinguishable from human ESC colonies regarding morphology,gene expression levels,pluripotent gene expression,alkaline phosphatase activity,and the ability to generate all three embryonic germ layers. CONCLUSIONS This study presents a simple,efficient,practical procedure for generating patient-tailored iPS cells from HTFs. These cells will serve as a valuable and preferred candidate donor cell population for ophthalmological regenerative medicine. View Publication

Recent reports link Kaposi sarcoma-associated herpesvirus (KSHV) infection of bone marrow cells to bone marrow failure and lymphoproliferative syndromes. The identity of the infected marrow cells,however,remains unclear. Other work has demonstrated that circulating mononuclear cells can harbor KSHV where its detection predicts the onset and severity of Kaposi sarcoma. In either setting,bone marrow precursors may serve as viral reservoirs. Since mesenchymal stem cells (MSCs) in human bone marrow regulate the differentiation and proliferation of adjacent hematopoietic precursors,we investigated their potential role in KSHV infection. Our results indicate that primary MSCs are susceptible to both cell-free and cell-associated KSHV in culture. Moreover,infection persisted within nearly half of the cells for up to 6 weeks. Thus,MSCs possess a clear capacity to support KSHV infection and warrant further exploration into their potential role in KSHV-related human disease. View Publication

Ring chromosomes are structural aberrations commonly associated with birth defects,mental disabilities and growth retardation. Rings form after fusion of the long and short arms of a chromosome,and are sometimes associated with large terminal deletions. Owing to the severity of these large aberrations that can affect multiple contiguous genes,no possible therapeutic strategies for ring chromosome disorders have been proposed. During cell division,ring chromosomes can exhibit unstable behaviour leading to continuous production of aneuploid progeny with low viability and high cellular death rate. The overall consequences of this chromosomal instability have been largely unexplored in experimental model systems. Here we generated human induced pluripotent stem cells (iPSCs) from patient fibroblasts containing ring chromosomes with large deletions and found that reprogrammed cells lost the abnormal chromosome and duplicated the wild-type homologue through the compensatory uniparental disomy (UPD) mechanism. The karyotypically normal iPSCs with isodisomy for the corrected chromosome outgrew co-existing aneuploid populations,enabling rapid and efficient isolation of patient-derived iPSCs devoid of the original chromosomal aberration. Our results suggest a fundamentally different function for cellular reprogramming as a means of /`chromosome therapy/' to reverse combined loss-of-function across many genes in cells with large-scale aberrations involving ring structures. In addition,our work provides an experimentally tractable human cellular system for studying mechanisms of chromosomal number control,which is of critical relevance to human development and disease. View Publication

Adverse effect of alcohol on neural function has been well documented. Especially,the teratogenic effect of alcohol on neurodevelopment during embryogenesis has been demonstrated in various models,which could be a pathologic basis for fetal alcohol spectrum disorders (FASDs). While the developmental defects from alcohol abuse during gestation have been described,the specific mechanisms by which alcohol mediates these injuries have yet to be determined. Recent studies have shown that alcohol has significant effect on molecular and cellular regulatory mechanisms in embryonic stem cell (ESC) differentiation including genes involved in neural development. To test our hypothesis that alcohol induces molecular alterations during neural differentiation we have derived neural precursor cells from pluripotent human ESCs in the presence or absence of ethanol treatment. Genome-wide transcriptomic profiling identified molecular alterations induced by ethanol exposure during neural differentiation of hESCs into neural rosettes and neural precursor cell populations. The Database for Annotation,Visualization and Integrated Discovery (DAVID) functional analysis on significantly altered genes showed potential ethanol's effect on JAK-STAT signaling pathway,neuroactive ligand-receptor interaction,Toll-like receptor (TLR) signaling pathway,cytokine-cytokine receptor interaction and regulation of autophagy. We have further quantitatively verified ethanol-induced alterations of selected candidate genes. Among verified genes we further examined the expression of P2RX3,which is associated with nociception,a peripheral pain response. We found ethanol significantly reduced the level of P2RX3 in undifferentiated hESCs,but induced the level of P2RX3 mRNA and protein in hESC-derived NPCs. Our result suggests ethanol-induced dysregulation of P2RX3 along with alterations in molecules involved in neural activity such as neuroactive ligand-receptor interaction may be a molecular event associated with alcohol-related peripheral neuropathy of an enhanced nociceptive response. View Publication