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

BACKGROUND Detailed molecular analyses of cells from rheumatoid arthritis (RA) synovium hold promise in identifying cellular phenotypes that drive tissue pathology and joint damage. The Accelerating Medicines Partnership RA/SLE Network aims to deconstruct autoimmune pathology by examining cells within target tissues through multiple high-dimensional assays. Robust standardized protocols need to be developed before cellular phenotypes at a single cell level can be effectively compared across patient samples. METHODS Multiple clinical sites collected cryopreserved synovial tissue fragments from arthroplasty and synovial biopsy in a 10{\%} DMSO solution. Mechanical and enzymatic dissociation parameters were optimized for viable cell extraction and surface protein preservation for cell sorting and mass cytometry,as well as for reproducibility in RNA sequencing (RNA-seq). Cryopreserved synovial samples were collectively analyzed at a central processing site by a custom-designed and validated 35-marker mass cytometry panel. In parallel,each sample was flow sorted into fibroblast,T-cell,B-cell,and macrophage suspensions for bulk population RNA-seq and plate-based single-cell CEL-Seq2 RNA-seq. RESULTS Upon dissociation,cryopreserved synovial tissue fragments yielded a high frequency of viable cells,comparable to samples undergoing immediate processing. Optimization of synovial tissue dissociation across six clinical collection sites with {\~{}} 30 arthroplasty and {\~{}} 20 biopsy samples yielded a consensus digestion protocol using 100 mu$g/ml of Liberase™ TL enzyme preparation. This protocol yielded immune and stromal cell lineages with preserved surface markers and minimized variability across replicate RNA-seq transcriptomes. Mass cytometry analysis of cells from cryopreserved synovium distinguished diverse fibroblast phenotypes,distinct populations of memory B cells and antibody-secreting cells,and multiple CD4+ and CD8+ T-cell activation states. Bulk RNA-seq of sorted cell populations demonstrated robust separation of synovial lymphocytes,fibroblasts,and macrophages. Single-cell RNA-seq produced transcriptomes of over 1000 genes/cell,including transcripts encoding characteristic lineage markers identified. CONCLUSIONS We have established a robust protocol to acquire viable cells from cryopreserved synovial tissue with intact transcriptomes and cell surface phenotypes. A centralized pipeline to generate multiple high-dimensional analyses of synovial tissue samples collected across a collaborative network was developed. Integrated analysis of such datasets from large patient cohorts may help define molecular heterogeneity within RA pathology and identify new therapeutic targets and biomarkers. View Publication

The synthetic retinoid 6-[3-(adamantyl)-4-hydroxyphenyl]-2-naphthalene carboxylic acid (CD437),which can bind to and activate the nuclear retinoic acid receptors beta and gamma (RARbeta/gamma),is a potent inducer of apoptosis in various cancer cell lines. However,this effect was reported to be independent of RARs. In this study,we compared and contrasted the potencies and mechanisms of action of CD437 and several other receptor-selective retinoids in induction of apoptosis and modulation of squamous differentiation in UMSCC22B human head and neck squamous cell carcinoma cell line. CD437 and the structurally related retinoid CD2325 exhibited almost equal potency in inducing apoptosis,whereas several other retinoids failed to induce apoptosis. The RAR-specific pan antagonist AGN193109 failed to suppress CD437-induced apoptosis,indicating that the induction of apoptosis by CD437 was RAR-independent. c-Fos expression was induced by CD437 and CD2325 that induced apoptosis in the cell line but not by other retinoids that failed to induce apoptosis,suggesting a role for c-Fos in CD437-induced apoptosis. At low concentration (0.01 microM),CD437 shared with several other receptor-selective retinoids the ability to suppress the mRNA levels of the squamous differentiation markers Spr1,involucrin,and cytokeratin 1. This effect of CD437 could be blocked by AGN193109. We conclude that CD437 can exert its effects in UMSCC22B human human head and neck squamous cell carcinoma cells by at least two mechanisms: RAR-mediated suppression of squamous differentiation and RAR-independent induction of apoptosis. View Publication

Pluripotent stem cells,both human embryonic stem cells (hESC) and human-induced pluripotent stem cells (hiPSC),can give rise to multiple cell types and hence have tremendous potential for regenerative therapies. However,the tumorigenic potential of these cells remains a great concern,as reflected in the formation of teratomas by transplanted pluripotent cells. In clinical practice,most pluripotent cells will be differentiated into useful therapeutic cell types such as neuronal,cardiac,or endothelial cells prior to human transplantation,drastically reducing their tumorigenic potential. Our work investigated the extent to which these differentiated stem cell derivatives are truly devoid of oncogenic potential. In this study,we analyzed the gene expression patterns from three sets of hiPSC- and hESC-derivatives and the corresponding primary cells,and compared their transcriptomes with those of five different types of cancer. Our analysis revealed a significant gene expression overlap of the hiPSC- and hESC-derivatives with cancer,whereas the corresponding primary cells showed minimum overlap. Real-time quantitative PCR analysis of a set of cancer-related genes (selected on the basis of rigorous functional and pathway analyses) confirmed our results. Overall,our findings suggested that pluripotent stem cell derivatives may still bear oncogenic properties even after differentiation,and additional stringent functional assays to purify these cells should be done before they can be used for regenerative therapy. View Publication

We analyzed 112 patients with high-risk acute myeloid leukemia (61 in complete remission [CR]; 51 in relapse),who received human leukocyte-antigen (HLA)-haploidentical transplants from natural killer (NK) alloreactive (n = 51) or non-NK alloreactive donors (n = 61). NK alloreactive donors possessed HLA class I,killer-cell immunoglobulin-like receptor (KIR) ligand(s) which were missing in the recipients,KIR gene(s) for missing self recognition on recipient targets,and alloreactive NK clones against recipient targets. Transplantation from NK-alloreactive donors was associated with a significantly lower relapse rate in patients transplanted in CR (3% versus 47%) (P textgreater .003),better event-free survival in patients transplanted in relapse (34% versus 6%,P = .04) and in remission (67% versus 18%,P = .02),and reduced risk of relapse or death (relative risk versus non-NK-alloreactive donor,0.48; 95% CI,0.29-0.78; P textgreater .001). In all patients we tested the missing ligand" model which pools KIR ligand mismatched transplants and KIR ligand-matched transplants from donors possessing KIR(s) for which neither donor nor recipient have HLA ligand(s). Only transplantation from NK-alloreactive donors is associated with a survival advantage." View Publication

Current laboratory methods used to passage adherent human pluripotent stem cells (hPSCs) are labor intensive,result in reduced cell viability and are incompatible with larger scale production necessary for many clinical applications. To meet the current demand for hPSCs,we have developed a new non-enzymatic passaging method using sodium citrate. Sodium citrate,formulated as a hypertonic solution,gently and efficiently detaches adherent cultures of hPSCs as small multicellular aggregates with minimal manual intervention. These multicellular aggregates are easily and reproducibly recovered in calcium-containing medium,retain a high post-detachment cell viability of 97%±1% and readily attach to fresh substrates. Together,this significantly reduces the time required to expand hPSCs as high quality adherent cultures. Cells subcultured for 25 passages using this novel sodium citrate passaging solution exhibit characteristic hPSC morphology,high levels (textgreater80%) of pluripotency markers OCT4,SSEA-4,TRA-1-60 andTRA-1-81,a normal G-banded karyotype and the ability to differentiate into cells representing all three germ layers,both in vivo and in vitro. View Publication

Although adipose tissue is an expandable and readily attainable source of proliferating,multipotent stem cells,its potential for use in regenerative medicine has not been extensively explored. Here we report that adult human and mouse adipose-derived stem cells can be reprogrammed to induced pluripotent stem (iPS) cells with substantially higher efficiencies than those reported for human and mouse fibroblasts. Unexpectedly,both human and mouse iPS cells can be obtained in feeder-free conditions. We discovered that adipose-derived stem cells intrinsically express high levels of pluripotency factors such as basic FGF,TGFbeta,fibronectin,and vitronectin and can serve as feeders for both autologous and heterologous pluripotent cells. These results demonstrate a great potential for adipose-derived cells in regenerative therapeutics and as a model for studying the molecular mechanisms of feeder-free iPS generation and maintenance. View Publication

Corneal transparency depends on a unique extracellular matrix secreted by stromal keratocytes,mesenchymal cells of neural crest lineage. Derivation of keratocytes from human embryonic stem (hES) cells could elucidate the keratocyte developmental pathway and open a potential for cell-based therapy for corneal blindness. This study seeks to identify conditions inducing differentiation of pluripotent hES cells to the keratocyte lineage. Neural differentiation of hES cell line WA01(H1) was induced by co-culture with mouse PA6 fibroblasts. After 6 days of co-culture,hES cells expressing cell-surface NGFR protein (CD271,p75NTR) were isolated by immunoaffinity adsorption,and cultured as a monolayer for one week. Keratocyte phenotype was induced by substratum-independent pellet culture in serum-free medium containing ascorbate. Gene expression,examined by quantitative RT-PCR,found hES cells co-cultured with PA6 cells for 6 days to upregulate expression of neural crest genes including NGFR,SNAI1,NTRK3,SOX9,and MSX1. Isolated NGFR-expressing cells were free of PA6 feeder cells. After expansion as a monolayer,mRNAs typifying adult stromal stem cells were detected,including BMI1,KIT,NES,NOTCH1,and SIX2. When these cells were cultured as substratum-free pellets keratocyte markers AQP1,B3GNT7,PTDGS,and ALDH3A1 were upregulated. mRNA for keratocan (KERA),a cornea-specific proteoglycan,was upregulated more than 10,000 fold. Culture medium from pellets contained high molecular weight keratocan modified with keratan sulfate,a unique molecular component of corneal stroma. These results show hES cells can be induced to differentiate into keratocytes in vitro. Pluripotent stem cells,therefore,may provide a renewable source of material for development of treatment of corneal stromal opacities. View Publication

To search for new indicators of self-renewing hematopoietic stem cells (HSCs),highly purified populations were isolated from adult mouse marrow,micromanipulated into a specially designed microscopic array,and cultured for 4 days in 300 ng/ml Steel factor,20 ng/ml IL-11,and 1 ng/ml flt3-ligand. During this period,each cell and its progeny were imaged at 3-min intervals by using digital time-lapse photography. Individual clones were then harvested and assayed for HSCs in mice by using a 4-month multilineage repopulation endpoint (textgreater1% contribution to lymphoid and myeloid lineages). In a first experiment,6 of 14 initial cells (43%) and 17 of 61 clones (28%) had HSC activity,demonstrating that HSC self-renewal divisions had occurred in vitro. Characteristics associated with HSC activity included longer cell-cycle times and the absence of uropodia on a majority of cells within the clone during the final 12 h of culture. Combining these criteria maximized the distinction of clones with HSC activity from those without and identified a subset of 27 of the 61 clones. These 27 clones included all 17 clones that had HSC activity; a detection efficiency of 63% (2.26 times more frequently than in the original group). The utility of these characteristics for discriminating HSC-containing clones was confirmed in two independent experiments where all HSC-containing clones were identified at a similar 2- to 3-fold-greater efficiency. These studies illustrate the potential of this monitoring system to detect new features of proliferating HSCs that are predictive of self-renewal divisions. View Publication

The low frequency of hematopoietic stem and progenitor cells (HSPCs) in human BM has precluded analysis of the direct biochemical effects elicited by cytokines in these populations,and their functional consequences. Here,single-cell phospho-specific flow cytometry was used to define the signaling networks active in 5 previously defined human HSPC subsets. This analysis revealed that the currently defined HSC compartment is composed of biochemically distinct subsets with the ability to respond rapidly and directly in vitro to a broader array of cytokines than previously appreciated,including G-CSF. The G-CSF response was physiologically relevant-driving cell-cycle entry and increased proliferation in a subset of single cells within the HSC compartment. The heterogeneity in the single-cell signaling and proliferation responses prompted subfractionation of the adult BM HSC compartment by expression of CD114 (G-CSF receptor). Xenotransplantation assays revealed that HSC activity is significantly enriched in the CD114(neg/lo) compartment,and almost completely absent in the CD114(pos) subfraction. The single-cell analyses used here can be adapted for further refinement of HSPC surface immunophenotypes,and for examining the direct regulatory effects of other factors on the homeostasis of stem and progenitor populations in normal or diseased states. View Publication

Genetic manipulation of human embryonic stem cells (hESC) has been limited by their general resistance to common methods used to introduce exogenous DNA or RNA. Efficient and high throughput transfection of nucleic acids into hESC would be a valuable experimental tool to manipulate these cells for research and clinical applications. We investigated the ability of two commercially available electroporation systems,the Nucleofection® 96-well Shuttle® System from Lonza and the Neon™ Transfection System from Invitrogen to efficiently transfect hESC. Transfection efficiency was measured by flow cytometry for the expression of the green fluorescent protein and the viability of the transfected cells was determined by an ATP catalyzed luciferase reaction. The transfected cells were also analyzed by flow cytometry for common markers of pluripotency. Both systems are capable of transfecting hESC at high efficiencies with little loss of cell viability. However,the reproducibility and the ease of scaling for high throughput applications led us to perform more comprehensive tests on the Nucleofection® 96-well Shuttle® System. We demonstrate that this method yields a large fraction of transiently transfected cells with minimal loss of cell viability and pluripotency,producing protein expression from plasmid vectors in several different hESC lines. The method scales to a 96-well plate with similar transfection efficiencies at the start and end of the plate. We also investigated the efficiency with which stable transfectants can be generated and recovered under antibiotic selection. Finally,we found that this method is effective in the delivery of short synthetic RNA oligonucleotides (siRNA) into hESC for knockdown of translation activity via RNA interference. Our results indicate that these electroporation methods provide a reliable,efficient,and high-throughput approach to the genetic manipulation of hESC. View Publication