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

In recent years,the differentiation of bone marrow cells (BMCs) into myocytes has been extensively investigated,but the findings remain inconclusive. The purpose of this study was to determine the conditions necessary to induce myogenic differentiation in short-term cultures of adult BMCs,and to identify the BMC subpopulation responsible for this phenomenon. We report that high-density cultures of murine hematopoietic BMCs gave rise to spontaneous beating cell clusters in the presence of vascular endothelial and fibroblast growth factors. These clusters originated from c-kit(pos) cells. The formation of the clusters could be completely blocked by adding a c-kit/tyrosine kinase inhibitor,Gleevec (imatinib mesylate; Novartis International,Basel,Switzerland,http://www.novartis.com),to the culture. Cluster formation was also blunted in BMCs from c-kit-deficient (Kit(W)/Kit(W-v)) mice. Clustered cells expressed cardiomyocyte-specific transcription factor genes Gata-4 and Nkx2.5,sarcomeric proteins beta-MHC and MLC-2v,and ANF and connexin-43. Immunostaining revealed alpha-sarcomeric actinin expression in more than 90% of clustered cells. Under electron microscopy,the clustered cells exhibited a sarcomeric myofiber arrangement and z-bands. This study defines the microenvironment required to achieve a reproducible in vitro model of beating,myogenic cell clusters. This model could be used to examine the mechanisms responsible for the postnatal myogenic differentiation of BMCs. Our results identify c-kit(pos) bone marrow hematopoietic cells as the source of the myogenic clusters. View Publication

Infection with a recombinant murine-feline gammaretrovirus,MoFe2,or with the parent virus,Moloney murine leukemia virus,caused significant reduction in B-lymphoid differentiation of bone marrow at 2 to 8 weeks postinfection. The suppression was selective,in that myeloid potential was significantly increased by infection. Analysis of cell surface markers and immunoglobulin H gene rearrangements in an in vitro model demonstrated normal B-lymphoid differentiation after infection but significantly reduced viability of differentiating cells. This reduction in viability may confer a selective advantage on undifferentiated lymphoid progenitors in the bone marrow of gammaretrovirus-infected animals and thereby contribute to the establishment of a premalignant state. View Publication

The repertoire of receptors that is expressed by NK cells is critical for their ability to kill virally infected or transformed cells. However,the molecular mechanisms that determine whether and when NK receptor genes are transcribed during hemopoiesis remain unclear. In this study,we show that hypomethylation of a CpG-rich region in the mouse NKG2A gene is associated with transcription of NKG2A in ex vivo NK cells and NK cell lines. This observation was extended to various developmental stages of NK cells sorted from bone marrow,in which we demonstrate that the CpGs are methylated in the NKG2A-negative stages (hemopoietic stem cells,NK progenitors,and NKG2A-negative NK cells),and hypomethylated specifically in the NKG2A-positive NK cells. Furthermore,we provide evidence that DNA methylation is important in maintaining the allele-specific expression of NKG2A. Finally,we show that acetylated histones are associated with the CpG-rich region in NKG2A positive,but not negative,cell lines,and that treatment with the histone deacetylase inhibitor trichostatin A alone is sufficient to induce NKG2A expression. Treatment with the methyltransferase inhibitor 5-azacytidine only is insufficient to induce transcription,but cotreatment with both drugs resulted in a significantly greater induction,suggesting a cooperative role for DNA methylation and histone acetylation status in regulating gene expression. These results enhance our understanding of the formation and maintenance of NK receptor repertoires in developing and mature NK cells. View Publication

CD4 T cells play a critical role in promoting the development of autoimmunity in type 1 diabetes. The diabetogenic CD4 T cell clone BDC-2.5,originally isolated from a NOD mouse,has been widely used to study the contribution of autoreactive CD4 T cells and relevant Ags to autoimmune diabetes. Recent work from our laboratory has shown that the Ag for BDC-2.5 T cells is a hybrid insulin peptide (2.5HIP) consisting of an insulin C-peptide fragment fused to a peptide from chromogranin A (ChgA) and that endogenous 2.5HIP-reactive T cells are major contributors to autoimmune pathology in NOD mice. The objective of this study was to determine if poly(lactide-co-glycolide) (PLG) nanoparticles (NPs) loaded with the 2.5HIP Ag (2.5HIP-coupled PLG NPs) can tolerize BDC-2.5 T cells. Infusion of 2.5HIP-coupled PLG NPs was found to prevent diabetes in an adoptive transfer model by impairing the ability of BDC-2.5 T cells to produce proinflammatory cytokines through induction of anergy,leading to an increase in the ratio of Foxp3+ regulatory T cells to IFN-gamma+ effector T cells. To our knowledge,this work is the first to use a hybrid insulin peptide,or any neoepitope,to re-educate diabetogenic T cells and may have significant implications for the development of an Ag-specific therapy for type 1 diabetes patients. View Publication

Natural killer T (NKT) cells are innate-like lymphocytes that recognize lipid antigens and have been shown to enhance B-cell activation and antibody production. B cells typically recruit T-cell help by presenting internalized antigens recognized by their surface antigen receptor. Here,we demonstrate a highly efficient means whereby human B cells present lipid antigens to NKT cells,capturing the antigen using apolipoprotein E (apoE) and the low-density lipoprotein receptor (LDL-R). ApoE dramatically enhances B-cell presentation of alpha-galactosylceramide (alphaGalCer),an exogenous CD1d presented antigen,inducing activation of NKT cells and the subsequent activation of B cells. B cells express the LDL-R on activation,and the activation of NKT cells by B cells is completely LDL-R dependent,as shown by blocking experiments and the complete lack of presentation when using apoE2,an isoform of apoE incapable of LDL-R binding. The dependence on apoE and the LDL-R is much more pronounced in B cells than we had previously seen in dendritic cells,which can apparently use alternate pathways of lipid antigen uptake. Thus,B cells use an apolipoprotein-mediated pathway of lipid antigen presentation,which constitutes a form of innate help for B cells by NKT cells. View Publication

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

AIMS Contradictory outcomes from recent clinical trials investigating the transplantation of autologous bone marrow mononuclear cell (BM-MNC) fraction containing stem/progenitor cells to damaged myocardium,following acute myocardial infarction,may be,in part,due to the different cell isolation protocols used. We compared total BM-MNC numbers and its cellular subsets obtained following isolation using Ficoll-Paque and Lymphoprep - two different density gradient media used in the clinical trials. MATERIALS & METHODS Bone marrow samples were taken from patients entered into the REGENERATE-IHD clinical trial after 5 days of subcutaneous granulocyte colony-stimulating factor injections. Each sample was divided equally for BM-MNC isolation using Ficoll-Paque and Lymphoprep,keeping all other procedural steps constant. Isolated fractions were characterized for hematopoietic stem cells,endothelial progenitor cells,T lymphocytes,B lymphocytes and NK cells using cell surface markers CD34(+),CD133(+)VEGFR2(+),CD45(+)CD3(+),CD45(+)CD19(+) and CD45(+)CD16(+)CD56(+),respectively. There were no significant differences in the absolute numbers and percentage cell recovery of various mononuclear cell types recovered following separation using either density gradient media. Cell viability and the proportion of various cell phenotypes investigated were similar between the two media. They were also equally efficient in excluding unwanted red blood cells,granulocytes and platelets from the final cell products. CONCLUSION We demonstrated that the composition and quantity of cell types found within therapeutic BM-MNC preparations for use in clinical trials of cardiac stem cell transplantation are not influenced by the type of density gradient media used when comparing Ficoll-Paque and Lymphoprep. View Publication

PURPOSE: Immunotherapy holds promise as a new strategy for the eradication of residual cells in acute myeloid leukaemia (AML). Leukaemic antigen presenting cells (APCs) combining optimal antigen presentation and tumour antigenicity could be used as potent T cell activators. For clinical purposes it is desirable to culture APCs under serum-free conditions. Therefore,we compared morphological,immunophenotypical and functional outcome of the serum-free culture of AML-APCs to their serum-enriched culture. METHODS: AML blasts (n=19) were cultured in the presence of either a cytokine mix or calcium ionophore (CI) for 14 and 2 days,respectively,in FCS-containing medium (FCS),StemSpan serum-free medium (SP) and CellGro serum-free medium (CG). After culture relative yields were calculated and immunophenotypic analysis of APC markers was performed. The mixed leukocyte reaction (MLR) was used to determine T cell stimulating capacity. RESULTS: Serum-free culture of AML-APCs resulted in comparable morphology,relative yields and immunophenotype to serum-enriched culture. By comparing both serum-free media we observed a trend towards a more mature phenotype of CI-cultured AML-APCs in SP. MLR showed that serum-free cultured cells have equal T cell stimulatory capacity in comparison with serum-enriched culture. CONCLUSION: These data show that the serum-free culture of AML-APCs is feasible and that these APCs are comparable to serum-enriched cultured AML-APCs with regard to morphological,immunophenotypical and functional characteristics. These AML-APCs are suitable for the development of active specific immunisation protocols which meet the criteria for good clinical practise (GCP). View Publication

Injury induces the recruitment of bone marrow-derived cells (BMDCs) that contribute to the repair and regeneration process. The behavior of BMDCs in injured tissue has a profound effect on repair,but the regulation of BMDC behavior is poorly understood. Aberrant recruitment/retention of these cells in wounds of diabetic patients and animal models is associated with chronic inflammation and impaired healing. BMD Gr-1(+)CD11b(+) cells function as immune suppressor cells and contribute significantly to tumor-induced neovascularization. Here we report that Gr-1(+)CD11b(+) cells also contribute to injury-induced neovascularization,but show altered recruitment/retention kinetics in the diabetic environment. Moreover,diabetic-derived Gr-1(+)CD11b(+) cells fail to stimulate neovascularization in vivo and have aberrant proliferative,chemotaxis,adhesion,and differentiation potential. Previously we demonstrated that gene transfer of HOXA3 to wounds of diabetic mice is taken up by and expressed by recruited BMDCs. This is associated with a suppressed inflammatory response,enhanced neovascularization,and accelerated wound healing. Here we show that sustained expression of Hoxa3 in diabetic-derived BMD Gr-1(+)CD11b(+) cells reverses their diabetic phenotype. These findings demonstrate that manipulation of adult stem/progenitor cells ex vivo could be used as a potential therapy in patients with impaired wound healing. View Publication

Dyskeratosis congenita (DC) is an inherited bone marrow (BM) failure syndrome associated with mutations in telomerase genes and the acquisition of shortened telomeres in blood cells. To investigate the basis of the compromised hematopoiesis seen in DC,we analyzed cells from granulocyte colony-stimulating factor mobilized peripheral blood (mPB) collections from 5 members of a family with autosomal dominant DC with a hTERC mutation. Premobilization BM samples were hypocellular,and percentages of CD34(+) cells in marrow and mPB collections were significantly below values for age-matched controls in 4 DC subjects. Directly clonogenic cells,although present at normal frequencies within the CD34(+) subset,were therefore absolutely decreased. In contrast,even the frequency of long-term culture-initiating cells within the CD34(+) DC mPB cells was decreased,and the telomere lengths of these cells were also markedly reduced. Nevertheless,the different lineages of mature cells were produced in normal numbers in vitro. These results suggest that marrow failure in DC is caused by a reduction in the ability of hematopoietic stem cells to sustain their numbers due to telomere impairment rather than a qualitative defect in their commitment to specific lineages or in the ability of their lineage-restricted progeny to execute normal differentiation programs. View Publication

The lipocalin mouse 24p3 has been implicated in diverse physiological processes,including apoptosis,iron trafficking,development and innate immunity. Studies from our laboratory as well as others demonstrated the proapoptotic activity of 24p3 in a variety of cultured models. However,a general role for the lipocalin 24p3 in the hematopoietic system has not been tested in vivo. To study the role of 24p3,we derived 24p3 null mice and back-crossed them onto C57BL/6 and 129/SVE backgrounds. Homozygous 24p3(-/-) mice developed a progressive accumulation of lymphoid,myeloid,and erythroid cells,which was not due to enhanced hematopoiesis because competitive repopulation and recovery from myelosuppression were the same as for wild type. Instead,apoptotic defects were unique to many mature hematopoietic cell types,including neutrophils,cytokine-dependent mast cells,thymocytes,and erythroid cells. Thymocytes isolated from 24p3 null mice also displayed resistance to apoptosis-induced by dexamethasone. Bim response to various apoptotic stimuli was attenuated in 24p3(-/-) cells,thus explaining their resistance to the ensuing cell death. The results of these studies,in conjunction with those of previous studies,reveal 24p3 as a regulator of the hematopoietic compartment with important roles in normal physiology and disease progression. Interestingly,these functions are limited to relatively mature blood cell compartments. View Publication

Redirecting Ag specificity by transfer of TCR genes into PBLs is an attractive method to generate large numbers of cytotoxic T cells for immunotherapy of cancer and viral diseases. However,transferred TCR chains can pair with endogenous TCR chains,resulting in the formation of mispaired TCR dimers and decreased or unspecific reactivity. TCR gene transfer into hematopoietic stem cells (HSCs) is an alternative to create T cells with desired Ag specificity,because in this case expression of endogenous TCR chains is then less likely owing to allelic exclusion. We generated TCR-transduced T cells from peripheral T cells using the lymphocytic choriomeningitis virus-specific P14 TCR. After transfer of the P14 TCR genes into HSCs and subsequent reconstitution of irradiated mice,TCR-engineered HSC-derived T cells were produced. We then compared the Ag-specific T cell populations with P14 TCR-transgenic T cells for their therapeutic efficiency in three in vivo models. In this study,we demonstrate that TCR-transduced T cells and TCR-engineered HSC-derived T cells are comparable in controlling lymphocytic choriomeningitis virus infection in mice and suppress growth of B16 tumor cells expressing the cognate Ag in a comparable manner. View Publication