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

Granulocyte colony-stimulating factor (G-CSF),the prototypical mobilizing cytokine,induces hematopoietic stem and progenitor cell (HSPC) mobilization from the bone marrow in a cell-nonautonomous fashion. This process is mediated,in part,through suppression of osteoblasts and disruption of CXCR4/CXCL12 signaling. The cellular targets of G-CSF that initiate the mobilization cascade have not been identified. We use mixed G-CSF receptor (G-CSFR)-deficient bone marrow chimeras to show that G-CSF-induced mobilization of HSPCs correlates poorly with the number of wild-type neutrophils. We generated transgenic mice in which expression of the G-CSFR is restricted to cells of the monocytic lineage. G-CSF-induced HSPC mobilization,osteoblast suppression,and inhibition of CXCL12 expression in the bone marrow of these transgenic mice are intact,demonstrating that G-CSFR signals in monocytic cells are sufficient to induce HSPC mobilization. Moreover,G-CSF treatment of wild-type mice is associated with marked loss of monocytic cells in the bone marrow. Finally,we show that bone marrow macrophages produce factors that support the growth and/or survival of osteoblasts in vitro. Together,these data suggest a model in which G-CSFR signals in bone marrow monocytic cells inhibit the production of trophic factors required for osteoblast lineage cell maintenance,ultimately leading to HSPC mobilization. View Publication

Interleukin-15 (IL-15) is essential for natural killer (NK) cell differentiation. In this study,we assessed whether the receptor tyrosine kinase Axl and its ligand,Gas6,are involved in IL-15-mediated human NK differentiation from CD34(+) hematopoietic progenitor cells (HPCs). Blocking the Axl-Gas6 interaction with a soluble Axl fusion protein (Axl-Fc) or the vitamin K inhibitor warfarin significantly diminished the absolute number and percentage of CD3(-)CD56(+) NK cells derived from human CD34(+) HPCs cultured in the presence of IL-15,probably resulting in part from reduced phosphorylation of STAT5. In addition,CD3(-)CD56(+) NK cells derived from culture of CD34(+) HPCs with IL-15 and Axl-Fc had a significantly diminished capacity to express interferon-gamma or its master regulator,T-BET. Culture of CD34(+) HPCs in the presence of c-Kit ligand and Axl-Fc resulted in a significant decrease in the frequency of NK precursor cells responding to IL-15,probably the result of reduced c-Kit phosphorylation. Collectively,our data suggest that the Axl/Gas6 pathway contributes to normal human NK-cell development,at least in part via its regulatory effects on both the IL-15 and c-Kit signaling pathways in CD34(+) HPCs,and to functional NK-cell maturation via an effect on the master regulatory transcription factor T-BET. View Publication

Bone marrow mesenchymal stem cells (MSC) have potent immunosuppressive properties and have been advocated for therapeutic use in humans. The nature of their suppressive capacity is poorly understood but is said to be a primitive stem cell function. Demonstration that adult stromal cells such as fibroblasts (Fb) can modulate T cells would have important implications for immunoregulation and cellular therapy. In this report,we show that dermal Fb inhibit allogeneic T cell activation by autologously derived cutaneous APCs and other stimulators. Fb mediate suppression through soluble factors,but this is critically dependent on IFN-gamma from activated T cells. IFN-gamma induces IDO in Fb,and accelerated tryptophan metabolism is at least partly responsible for suppression of T cell proliferation. T cell suppression is reversible,and transient exposure to Fb during activation reprograms T cells,increasing IL-4 and IL-10 secretion upon restimulation. Increased Th2 polarization by stromal cells is associated with amelioration of pathological changes in a human model of graft-vs-host disease. Dermal Fb are highly clonogenic in vitro,suggesting that Fb-mediated immunosuppression is not due to outgrowth of rare MSC,although dermal Fb remain difficult to distinguish from MSC by phenotype or transdifferentiation capacity. These results suggest that immunosuppression is a general property of stromal cells and that dermal Fb may provide an alternative and accessible source of cellular therapy. View Publication

Hyper-IgM (HIGM) syndromes are primary immunodeficiencies characterized by defects of class switch recombination and somatic hypermutation. HIGM patients who carry mutations in the CD40-ligand (CD40L) gene expressed by CD4(+) T cells suffer from recurrent infections and often develop autoimmune disorders. To investigate the impact of CD40L-CD40 interactions on human B cell tolerance,we tested by ELISA the reactivity of recombinant antibodies isolated from single B cells from three CD40L-deficient patients. Antibody characteristics and reactivity from CD40L-deficient new emigrant B cells were similar to those from healthy donors,suggesting that CD40L-CD40 interactions do not regulate central B cell tolerance. In contrast,mature naive B cells from CD40L-deficient patients expressed a high proportion of autoreactive antibodies,including antinuclear antibodies. Thus,CD40L-CD40 interactions are essential for peripheral B cell tolerance. In addition,a patient with the bare lymphocyte syndrome who could not express MHC class II molecules failed to counterselect autoreactive mature naive B cells,suggesting that peripheral B cell tolerance also depends on major histocompatibility complex (MHC) class II-T cell receptor (TCR) interactions. The decreased frequency of MHC class II-restricted CD4(+) regulatory T cells in CD40L-deficient patients suggests that these T cells may mediate peripheral B cell tolerance through CD40L-CD40 and MHC class II-TCR interactions. View Publication

Ab-targeted vaccination involves targeting a receptor of choice expressed by dendritic cells (DCs) with Ag-coupled Abs. Currently,there is little consensus as to which criteria determine receptor selection to ensure superior Ag presentation and immunity. In this study,we investigated parameters of DC receptor internalization and determined how they impact Ag presentation outcomes. First,using mixed bone marrow chimeras,we established that Ag-targeted,but not nontargeted,DCs are responsible for Ag presentation in settings of Ab-targeted vaccination in vivo. Next,we analyzed parameters of DEC205 (CD205),Clec9A,CD11c,CD11b,and CD40 endocytosis and obtained quantitative measurements of internalization speed,surface turnover,and delivered Ag load. Exploiting these parameters in MHC class I (MHC I) and MHC class II (MHC II) Ag presentation assays,we showed that receptor expression level,proportion of surface turnover,or speed of receptor internalization did not impact MHC I or MHC II Ag presentation efficiency. Furthermore,the Ag load delivered to DCs did not correlate with the efficiency of MHC I or MHC II Ag presentation. In contrast,targeting Ag to CD8(+) or CD8(-) DCs enhanced MHC I or MHC II Ag presentation,respectively. Therefore,receptor expression levels,speed of internalization,and/or the amount of Ag delivered can be excluded as major determinants that dictate Ag presentation efficiency in setting of Ab-targeted vaccination. View Publication

T cell activation in response to Ag is largely regulated by protein posttranslational modifications. Although phosphorylation has been extensively characterized in T cells,much less is known about the glycosylation of serine/threonine residues by O-linked N-acetylglucosamine (O-GlcNAc). Given that O-GlcNAc appears to regulate cell signaling pathways and protein activity similarly to phosphorylation,we performed a comprehensive analysis of O-GlcNAc during T cell activation to address the functional importance of this modification and to identify the modified proteins. Activation of T cells through the TCR resulted in a global elevation of O-GlcNAc levels and in the absence of O-GlcNAc,IL-2 production and proliferation were compromised. T cell activation also led to changes in the relative expression of O-GlcNAc transferase (OGT) isoforms and accumulation of OGT at the immunological synapse of murine T cells. Using a glycoproteomics approach,we identified textgreater200 O-GlcNAc proteins in human T cells. Many of the identified proteins had a functional relationship to RNA metabolism,and consistent with a connection between O-GlcNAc and RNA,inhibition of OGT impaired nascent RNA synthesis upon T cell activation. Overall,our studies provide a global analysis of O-GlcNAc dynamics during T cell activation and the first characterization,to our knowledge,of the O-GlcNAc glycoproteome in human T cells. View Publication

Strategies to prevent organ transplant rejection whilst minimizing long-term immunosuppression are currently under intense investigation with regulatory T cells (Tregs) nearing clinical application. The clinical trial,ThRIL,recently commenced at King's College London,proposes to use Treg cell therapy to induce tolerance in liver transplant recipients,the success of which has the potential to revolutionize the management of these patients and enable a future of drug-free transplants. This is the first report of the manufacture of clinical grade Tregs from prospective liver transplant recipients via a CliniMACS-based GMP isolation technique and expanded using anti-CD3/CD28 beads,IL-2 and rapamycin. We report the enrichment of a pure,stable population of Tregs (textgreater95% CD4(+)CD25(+)FOXP3(+)),reaching adequate numbers for their clinical application. Our protocol proved successful in,influencing the expansion of superior functional Tregs,as compared to freshly isolated cells,whilst also preventing their conversion to Th17 cells under pro-inflammatory conditions. We conclude with the manufacture of the final Treg product in the clinical research facility (CRF),a prerequisite for the clinical application of these cells. The data presented in this manuscript together with the much-anticipated clinical results from ThRIL,will undoubtedly inform the improved management of the liver transplant recipient. View Publication

The MUC1 transmembrane mucin is expressed on the surface of activated human T cells; however,the physiologic signals responsible for the regulation of MUC1 in T cells are not known. The present studies demonstrate that IL-7,but not IL-2 or IL-4,markedly induces MUC1 expression on CD3+ T cells. MUC1 was also up-regulated by IL-15,but to a lesser extent than that found with IL-7. The results show that IL-7 up-regulates MUC1 on CD4+,CD8+,CD25+,CD69+,naive CD45RA+,and memory CD45RO+ T cells. In concert with induction of MUC1 expression by IL-7,activated dendritic cells (DC) that produce IL-7 up-regulate MUC1 on allogeneic CD3+ T cells. DC also induce MUC1 expression on autologous CD3+ T cells in the presence of recall Ag. Moreover,DC-induced MUC1 expression on T cells is blocked by a neutralizing anti-IL-7 Ab. The results also demonstrate that DC induce polarization of MUC1 on T cells at sites opposing the DC-T cell synapse. These findings indicate that DC-mediated activation of Ag-specific T cells is associated with induction and polarization of MUC1 expression by an IL-7-dependent mechanism. View Publication