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

Here we describe the in vitro generation of a novel adherent cell fraction derived from highly enriched,mobilized CD133(+) peripheral blood cells after their culture with Flt3/Flk2 ligand and interleukin-6 for 3 to 5 weeks. These cells lack markers of hematopoietic stem cells,endothelial cells,mesenchymal cells,dendritic cells,and stromal fibroblasts. However,all adherent cells expressed the adhesion molecules VE-cadherin,CD54,and CD44. They were also positive for CD164 and CD172a (signal regulatory protein-alpha) and for a stem cell antigen defined by the recently described antibody W7C5. Adherent cells can either spontaneously or upon stimulation with stem cell factor give rise to a transplantable,nonadherent CD133(+)CD34(-) stem cell subset. These cells do not generate in vitro hematopoietic colonies. However,their transplantation into nonobese diabetic/severe combined immunodeficiency (NOD/SCID) mice induced substantially higher long-term multilineage engraftment compared with that of freshly isolated CD34(+) cells,suggesting that these cells are highly enriched in SCID-repopulating cells. In addition to cells of the myeloid lineage,nonadherent CD34(-) cells were able to give rise to human cells with B-,T-,and natural killer-cell phenotype. Hence,these cells possess a distinct in vivo differentiation potential compared with that of CD34(+) stem cells and may therefore provide an alternative to CD34(+) progenitor cells for transplantation. View Publication

In an attempt to bring pluripotent stem cell biology closer to reaching its full potential,many groups have focused on improving reprogramming protocols over the past several years. The episomal modified Sendai virus-based vector has emerged as one of the most practical ones. Here we describe reprogramming of mesenchymal stromal/stem cells (MSC) derived from umbilical cord Wharton's Jelly into induced pluripotent stem cells (iPSC) using genome non-integrating Sendai virus-based vectors. The detailed protocols of iPSC colony cryopreservation (vitrification) and adaption to feeder-free culture conditions are also included. View Publication

High aldehyde dehydrogenase (ALDH) activity has recently been used to identify tumorigenic cell fractions in many cancer types. Herein we hypothesized that a subpopulation of cells with cancer stem cells (CSCs) properties could be identified in established human osteosarcoma cell lines based on high ALDH activity. We previously showed that a subpopulation of cells with high ALDH activity were present in 4 selected human osteosarcoma cell lines,of which a significantly higher ALDH activity was present in the OS99-1 cell line that was originally derived from a highly aggressive primary human osteosarcoma. Using a xenograft model in which OS99-1 cells were grown in NOD/SCID mice,we identified a highly tumorigenic subpopulation of osteosarcoma cells based on their high ALDH activity. Cells with high ALDH activity (ALDH(br) cells) from the OS99-1 xenografts were much less frequent,averaging 3% of the entire tumor population,compared to those isolated directly from the OS99-1 cell line. ALDH(br) cells from the xenograft were enriched with greater tumorigenicity compared to their counterparts with low ALDH activity (ALDH(lo) cells),generating new tumors with as few as 100 cells in vivo. The highly tumorigenic ALDH(br) cells illustrated the stem cell characteristics of self-renewal,the ability to produce differentiated progeny and increased expression of stem cell marker genes OCT3/4A,Nanog and Sox-2. The isolation of osteosarcoma CSCs by their high ALDH activity may provide new insight into the study of osteosarcoma-initiating cells and may potentially have therapeutic implications for human osteosarcoma. View Publication

BACKGROUND Clustered regularly interspaced short palindromic repeats (CRISPR)/CRISPR-associated protein 9 (Cas9) has become an increasingly vital tool for modifying gene expression in a variety of cell types. Lentiviral transduction and electroporation are the two main approaches used to deliver CRISPR/Cas9 into cells. However,the application of CRISPR/Cas9 in primary hematopoietic cells has been limited due to either low transduction efficiency in terms of viral-based delivery or difficult selection and enrichment of transfected and edited cells with respect to electroporation of CRISPR/Cas9 ribonucleoprotein (RNP). METHODS In this study in vitro transcription was used to synthesize the guide RNA (gRNA),and plasmid pL-CRISPR.EFS.GFP was used as its DNA template. Then the in vitro transcribed gRNA was labeled with pCp-Cy5 via T4 ligase before incubating with Cas9 protein. Furthermore,CRISPR/Cas9 RNP was electroporated into primary CD34+ cells isolated from cord blood,and cell survival rate and transfection efficiency were calculated and compared to that of lentiviral transduction. RESULTS Here,we show that electroporation of CRISPR/Cas9 RNP resulted in higher cell viability compared to electroporation of CRISPR/Cas9 all-in-one plasmid,providing important findings for further studies in hematology via CRISPR/Cas9 technology. Moreover,we established a method for labeling in vitro-transcribed gRNA with fluorophore and the sorted fluorescent cells displayed higher knockout efficiency than nonsorted transfected cells. CONCLUSIONS Electroporation of fluorescence labeled CRISPR/Cas9 RNP is a perspective approach of gene editing. Our study provides an efficient and time-saving approach for genome-editing in hematopoietic cells. View Publication

Human mesenchymal stem cells (hMSCs) suppress T-cell and dendritic-cell function and represent a promising strategy for cell therapy of autoimmune diseases. Nevertheless,no information is currently available on the effects of hMSCs on B cells,which may have a large impact on the clinical use of these cells. hMSCs isolated from the bone marrow and B cells purified from the peripheral blood of healthy donors were cocultured with different B-cell tropic stimuli. B-cell proliferation was inhibited by hMSCs through an arrest in the G0/G1 phase of the cell cycle and not through the induction of apoptosis. A major mechanism of B-cell suppression was hMSC production of soluble factors,as indicated by transwell experiments. hMSCs inhibited B-cell differentiation because IgM,IgG,and IgA production was significantly impaired. CXCR4,CXCR5,and CCR7 B-cell expression,as well as chemotaxis to CXCL12,the CXCR4 ligand,and CXCL13,the CXCR5 ligand,were significantly down-regulated by hMSCs,suggesting that these cells affect chemotactic properties of B cells. B-cell costimulatory molecule expression and cytokine production were unaffected by hMSCs. These results further support the potential therapeutic use of hMSCs in immune-mediated disorders,including those in which B cells play a major role. View Publication

Progranulin (pgrn; granulin-epithelin precursor,PC-cell-derived growth factor,or acrogranin) is a multifunctional secreted glycoprotein implicated in tumorigenesis,development,inflammation,and repair. It is highly expressed in macrophage and monocyte-derived dendritic cells. Here we investigate its regulation in myeloid cells. All-trans retinoic acid (ATRA) increased pgrn mRNA levels in myelomonocytic cells (CD34(+) progenitors; monoblastic U-937; monocytic THP-1; progranulocytic HL-60; macrophage RAW 264.7) but not in nonmyeloid cells tested. Interleukin-4 impaired basal expression of pgrn in U-937. Differentiation agents DMSO,and,in U-937 only,phorbol ester [phorbol 12-myristate,13-acetate (PMA)] elevated pgrn mRNA expression late in differentiation,suggestive of roles for pgrn in more mature terminally differentiated granulocyte/monocytes rather than during growth or differentiation. The response of pgrn mRNA to ATRA differs in U-937 and HL-60 lineages. In U-937,ATRA and chemical differentiation agents greatly increased pgrn mRNA stability,whereas,in HL-60,ATRA accelerated pgrn mRNA turnover. The initial upregulation of pgrn mRNA after stimulation with ATRA was independent of de novo protein synthesis in U-937 but not HL-60. Chemical blockade of nuclear factor-kappaB (NF-kappaB) activation impaired ATRA-stimulated pgrn expression in HL-60 but not U-937,whereas in U-937 it blocked PMA-induced pgrn mRNA expression,suggestive of cell-specific roles for NF-kappaB in determining pgrn mRNA levels. We propose that: 1) ATRA regulates pgrn mRNA levels in myelomonocytic cells; 2) ATRA acts in a cell-specific manner involving the differential control of mRNA stability and differential requirement for NF-kappaB signaling; and 3) elevated pgrn mRNA expression is characteristic of more mature cells and does not stimulate differentiation. View Publication

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

A method has been described for the long-term culture of human bone marrow cells in liquid medium. Hematopoiesis,as measured by the production of granulocytic-macrophage progenitor cells (CFUc),continued for at least 20 weeks and was dependent upon the presence of a marrow-derived adherent layer of cells. As in the case of murine marrow liquid cultures,the adherent layer consisted of mononuclear phagocytic cells,endothelial cells,and lipid-laden adipocytes,the latter being essential for long-term hematopoiesis. Optimal growth conditions included McCoy's medium supplemented with fetal bovine serum,horse serum,and hydrocortisone and incubation at 33 degrees C. Horse serum in conjunction with hydrocortisone appeared essential for the growth of adipocytes. View Publication

Nature Methods 8,293 (2011). doi:10.1038/nmeth0411-293 View Publication

Induced pluripotent stem (iPS) cells are a valuable resource for discovery of epigenetic changes critical to cell type-specific differentiation. Although iPS cells have been generated from other terminally differentiated cells,the reprogramming of normal adult human basal prostatic epithelial (E-PZ) cells to a pluripotent state has not been reported. Here,we attempted to reprogram E-PZ cells by forced expression of Oct4,Sox2,c-Myc,and Klf4 using lentiviral vectors and obtained embryonic stem cell (ESC)-like colonies at a frequency of 0.01%. These E-PZ-iPS-like cells with normal karyotype gained expression of pluripotent genes typical of iPS cells (Tra-1-81,SSEA-3,Nanog,Sox2,and Oct4) and lost gene expression characteristic of basal prostatic epithelial cells (CK5,CK14,and p63). E-PZ-iPS-like cells demonstrated pluripotency by differentiating into ectodermal,mesodermal,and endodermal cells in vitro,although lack of teratoma formation in vivo and incomplete demethylation of pluripotency genes suggested only partial reprogramming. Importantly,E-PZ-iPS-like cells re-expressed basal epithelial cell markers (CD44,p63,MAO-A) in response to prostate-specific medium in spheroid culture. Androgen induced expression of androgen receptor (AR),and co-culture with rat urogenital sinus further induced expression of prostate-specific antigen (PSA),a hallmark of secretory cells,suggesting that E-PZ-iPS-like cells have the capacity to differentiate into prostatic basal and secretory epithelial cells. Finally,when injected into mice,E-PZ-iPS-like cells expressed basal epithelial cell markers including CD44 and p63. When co-injected with rat urogenital mesenchyme,E-PZ-iPS-like cells expressed AR and expression of p63 and CD44 was repressed. DNA methylation profiling identified epigenetic changes in key pathways and genes involved in prostatic differentiation as E-PZ-iPS-like cells converted to differentiated AR- and PSA-expressing cells. Our results suggest that iPS-like cells derived from prostatic epithelial cells are pluripotent and capable of prostatic differentiation; therefore,provide a novel model for investigating epigenetic changes involved in prostate cell lineage specification. View Publication