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

Different molecular markers have been identified for melanoma-initiating cells including CD133 and nestin. Assuming that metastasis requires a dissemination of tumor-initiating cells,presence of circulating tumor-initiating cells should be associated with worse patient outcome. In this study,20 ml blood was collected from 32 consecutive patients affected by metastatic melanoma and blood was enriched for circulating melanoma cells (CMCs) by CD45 depletion of the non-melanoma cell fraction. Multiparameter cytometry was carried out to co-stain with combinations of CD133 and nestin (NES). Six tissue samples from metastatic lesions of six different patients were stained with the same antibodies by immunohistochemistry. Percentage of NES-positive CMCs correlated with tumor burden and number of metastatic sites. Cox regression analysis revealed levels of lactate dehydrogenase (LDH; hazard ratio: 12.8 (1.35-121.5); P=0.02),number of metastatic sites (hazard ratio 3.87 (1.66-9.03); P=0.02),tumor burden (hazard ratio 5.72 (1.57-20.9); P=0.01),and percentage of NES-expressing CMCs ≥ 35% (hazard ratio 5.73 (1.66-19.7); P=0.006) to be factors related to shorter overall survival. CD133- and NES-expression profiles on CMCs were similar to matched metastatic tissue. These findings show that CMCs expressed stem cell-associated markers NES and CD133. Higher expression of NES on CMCs might represent an index of poor prognosis. View Publication

High maternal blood glucose levels caused by diabetes mellitus can irreversibly lead to maldevelopment of the growing fetus with specific effects on the skeleton. To date,it remains controversial at which stage embryonic development is affected. Specifically during embryonic bone development,it is unclear whether diminished bone mineral density is caused by reduced osteoblast or rather enhanced osteoclast function. Therefore,the aim of this study was to characterize the growth as well as the skeletal differentiation capability of pluripotent embryonic stem cells (ESCs),which may serve as an in vitro model for all stages of embryonic development,when cultured in diabetic levels of D-glucose (4.5 g/L) versus physiological levels (1.0 g/L). Results showed that cells cultivated in physiological glucose gave rise to a higher number of colonies with an undifferentiated character as compared to cells grown in diabetic glucose concentrations. In contrast,these cultures were characterized by slightly decreased expression of proteins associated with the stem cell state. Furthermore,differentiation of ESCs into osteoblasts and osteoclasts was favored in physiological glucose concentrations,demonstrated by an increased matrix calcification,enhanced expression of cell-type-specific mRNAs,as well as activity of the cell-type-specific enzymes,alkaline,and tartrate resistant acidic phosphatase. In fact,this pattern was noted in murine as well as in primate ESCs. Our study suggests that an interplay between both the osteoblast and the osteoclast lineage is needed for proper skeletal development to occur,which seems impaired in hyperglycemic conditions. View Publication

Abnormal differentiation of myeloid cells is one of the hallmarks of cancer. However,the molecular mechanisms of this process remain elusive. In this study,we investigated the effect of tumor-derived factors on Janus kinase (Jak)/STAT signaling in myeloid cells during their differentiation into dendritic cells. Tumor cell conditioned medium induced activation of Jak2 and STAT3,which was associated with an accumulation of immature myeloid cells. Jak2/STAT3 activity was localized primarily in these myeloid cells,which prevented the differentiation of immature myeloid cells into mature dendritic cells. This differentiation was restored after removal of tumor-derived factors. Inhibition of STAT3 abrogated the negative effects of these factors on myeloid cell differentiation,and overexpression of STAT3 reproduced the effects of tumor-derived factors. Thus,this is a first demonstration that tumor-derived factors may affect myeloid cell differentiation in cancer via constitutive activation of Jak2/STAT3. View Publication

We showed that resistance to severe hypoxia defines hierarchical levels within normal hematopoietic populations and that hypoxia modulates the balance between generation of progenitors and maintenance of hematopoietic stem cells (HSC) in favor of the latter. This study deals with the effects of hypoxia (0.1% oxygen) in vitro on Friend's murine erythroleukemia (MEL) cells,addressing the question of whether a clonal leukemia cell population comprise functionally different cell subsets characterized by different hypoxia resistance. To identify leukemia stem cells (LSC),we used the Culture Repopulating Ability (CRA) assay we developed to quantify in vitro stem cells capable of short-term reconstitution (STR). Hypoxia strongly inhibited the overall growth of MEL cell population,which,despite its clonality,comprised progenitors characterized by markedly different hypoxia-resistance. These included hypoxia-sensitive colony-forming cells and hypoxia-resistant STR-type LSC,capable of repopulating secondary liquid cultures of CRA assays,confirming what was previously shown for normal hematopoiesis. STR-type LSC were found capable not only of surviving in hypoxia but also of being mostly in cycle,in contrast with the fact that almost all hypoxia-surviving cells were growth-arrested and with what we previously found for HSC. However,quiescent LSC were also detected,capable of delayed culture repopulation with the same efficiency as STR-like LSC. The fact that even quiescent LSC,believed to sustain minimal residual disease in vivo,were found within the MEL cells indicates that all main components of leukemia cell populations may be present within clonal cell lines,which are therefore suitable to study the sensitivity of individual components to treatments. Disclosure of potential conflicts of interest is found at the end of this article. View Publication

Studies have suggested the potential importance of Notch signaling to the cancer stem cell population in some tumors,but it is not known whether all cells in the cancer stem cell fraction require Notch activity. To address this issue,we blocked Notch activity in MCF-7 cells by expressing a dominant-negative MAML-GFP (dnMAML) construct,which inhibits signaling through all Notch receptors,and quantified the effect on tumor-initiating activity. Inhibition of Notch signaling reduced primary tumor sphere formation and side population. Functional quantification of tumor-initiating cell numbers in vivo showed a significant decrease,but not a complete abrogation,of these cells in dnMAML-expressing cells. Interestingly,when assessed in secondary assays in vitro or in vivo,there was no difference in tumor-initiating activity between the dnMAML-expressing cells and control cells. The fact that a subpopulation of dnMAML-expressing cells was capable of forming primary and secondary tumors indicates that there are Notch-independent tumor-initiating cells in the breast cancer cell line MCF-7. Our findings thus provide direct evidence for a heterogeneous cancer stem cell pool,which will require combination therapies against multiple oncogenic pathways to eliminate the tumor-initiating cell population. View Publication

Induced pluripotent stem cells (iPSCs) can be generated from patients with specific diseases by the transduction of reprogramming factors and can be useful as a cell source for cell transplantation therapy for various diseases with impaired organs. However,the low efficiency of iPSC derived from somatic cells (0.01-0.1%) is one of the major problems in the field. The phosphoinositide 3-kinase (PI3K) pathway is thought to be important for self-renewal,proliferation,and maintenance of embryonic stem cells (ESCs),but the contribution of this pathway or its well-known negative regulator,phosphatase,and tensin homolog deleted on chromosome ten (Pten),to somatic cell reprogramming remains largely unknown. Here,we show that activation of the PI3K pathway by the Pten inhibitor,dipotassium bisperoxo(5-hydroxypyridine-2-carboxyl)oxovanadate,improves the efficiency of germline-competent iPSC derivation from mouse somatic cells. This simple method provides a new approach for efficient generation of iPSCs. View Publication

Mast cells are unique hematopoietic cells that are richly distributed in the skin and mucosal surfaces of the respiratory and gastrointestinal tract. They play a key role in allergic inflammation by releasing a cocktail of granular constituents,including histamine,serine proteases,and various eicosanoids and cytokines. As such,a number of drugs target either inhibition of mast cell degranulation or the products of degranulation. To identify potential novel drugs and mechanisms in mast cell biology,assays were developed to identify inhibitors of mast cell degranulation and activation in a phenotypic screen. Due to the challenges associated with obtaining primary mast cells,cord blood-derived mononuclear cells were reproducibly differentiated to mast cells and assays developed to monitor tryptase release and prostaglandin D2 generation. The tryptase assay was particularly sensitive,requiring only 500 cells per data point,which permitted a set of approximately 12,000 compounds to be screened robustly and cost-effectively. Active compounds were tested for concomitant inhibition of prostaglandin D2 generation. This study demonstrates the robustness and effectiveness of this approach in the identification of potential novel compounds and mechanisms targeting mast cell-driven inflammation,to enable innovative drug discovery efforts to be prosecuted. View Publication

Efficient approaches for the precise genetic engineering of stem cells can enhance both basic and applied stem cell research. Adeno-associated virus (AAV) vectors have demonstrated high-efficiency gene delivery and gene targeting to numerous cell types,and AAV vectors developed specifically for gene delivery to stem cells have further increased gene targeting frequency compared to plasmid construct techniques. This chapter details the production and purification techniques necessary to generate adeno-associated viral vectors for use in high-efficiency gene targeting of adult or pluripotent stem cell applications. Culture conditions used to achieve high gene targeting frequencies in rat neural stem cells and human pluripotent stem cells are also described. View Publication

A two-step separation procedure is described for the positive selection of cells based on their reactivity with mouse monoclonal antibodies. In the first step cells are specifically cross-linked to hapten-modified glass beads using tetrameric monoclonal antibody complexes. In the second step bound cells are selectively eluted by reductive cleavage of the tetrameric antibody complexes. The latter are comprised of two mouse IgG1 monoclonal antibodies (one recognizing a cell surface antigen on target cells and the other a hapten coupled to the glass beads) bound together by two F(ab')2 fragments of rat anti-mouse IgG1 monoclonal antibody. The complexes provide a specific cleavable cross-link between cell and bead because the disulfide bonds between the two Fab' arms of the F(ab')2 fragments can be broken under relatively mild conditions using dithiothreitol. This specific cleavage of the cross-linker allows elution of the specifically absorbed cells without co-elution of non-specifically bound cells. This is shown in the purification of CD3+ T cells from human peripheral blood,where the removed fractions were over 90% pure and approximately 50% of the positive cells were recovered. Separation of cells labelled with limiting amounts of tetrameric antibody complexes demonstrated that this separation technique was also effective for the purification of cells expressing low amounts of antigens. This was confirmed by the purification of CD34-positive cells from human bone marrow. With this approach,colony-forming cells were enriched 15-24-fold over density separated marrow. View Publication

Sickle cell anemia affects millions of people worldwide and is an emerging global health burden. As part of a large NIH-funded NextGen Consortium,we generated a diverse,comprehensive,and fully characterized library of sickle-cell-disease-specific induced pluripotent stem cells (iPSCs) from patients of different ethnicities,β-globin gene (HBB) haplotypes,and fetal hemoglobin (HbF) levels. iPSCs stand to revolutionize the way we study human development,model disease,and perhaps eventually,treat patients. Here,we describe this unique resource for the study of sickle cell disease,including novel haplotype-specific polymorphisms that affect disease severity,as well as for the development of patient-specific therapeutics for this phenotypically diverse disorder. As a complement to this library,and as proof of principle for future cell- and gene-based therapies,we also designed and employed CRISPR/Cas gene editing tools to correct the sickle hemoglobin (HbS) mutation. View Publication

Recent studies suggest that highly activated,polyfunctional CD4+ T cells are incredibly effective in strengthening and sustaining overall host antitumor immunity,promoting tumor-specific CD4+ T-cell responses and effectively enhancing antitumor immunity by immunotherapy. Previously,we developed a novel cryo-thermal therapy for local tumor ablation and achieved long-term survival rates in several tumor models. It was discovered that cryo-thermal therapy remodeled the tumor microenvironment and induced an antigen-specific CD4+ T-cell response,which mediated stronger antitumor immunity in vivo. In this study,the phenotype of bulk T cells in spleen was analyzed by flow cytometry after cryo-thermal therapy and both CD4+ Th1 and CD8+ CTL were activated. In addition,by using T-cell depletion,isolation,and adoptive T-cell therapy,it was found that cryo-thermal therapy induced Th1-dominant CD4+ T cells that directly inhibited the growth of tumor cells,promoted the maturation of MDSCs via CD4+ T-cell-derived IFN-? and enhanced the cytotoxic effector function of NK cells and CD8+ T cells,and promoted the maturation of APCs via cell-cell contact and CD4+ T-cell-derived IFN-?. Considering the multiple roles of cryo-thermal-induced Th1-dominant CD4+ T cells in augmenting antitumor immune memory,we suggest that local cryo-thermal therapy is an attractive thermo-immunotherapy strategy to harness host antitumor immunity and has great potential for clinical application. View Publication