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

The pluripotent property of hESCs makes them attractive for treatment of degenerative diseases such as diabetes. We have developed a stage-wise directed differentiation protocol to produce alginate-encapsulated islet-like cells derived from hESCs,which can be directly implanted for diabetes therapy. The advantage of alginate encapsulation lies in its capability to immunoisolate,along with the added possibility of scalable culture. We have evaluated the possibility of encapsulating hESCs at different stages of differentiation. Encapsulation of predifferentiated cells resulted in insufficient cellular yield and differentiation. On the other hand,encapsulation of undifferentiated hESCs followed by differentiation induction upon encapsulation,resulted in the highest viability and differentiation. More striking was that alginate encapsulation resulted in a much stronger differentiation compared to parallel 2D cultures,resulting in 20-fold increase in c-peptide protein synthesis. To elucidate the mechanism contributing to encapsulation-mediated enhancement in hESC maturation,investigation of the signaling pathways revealed interesting insight. While the phospho-protein levels of all the tested signaling molecules were lower under encapsulation,the ratio of pSMAD/pAKT was significantly higher,indicating a more efficient signal transduction under encapsulation. These results clearly demonstrate that alginate encapsulation of hESCs and differentiation to islet-cells types provides a potentially translatable treatment option for type1 diabetes. View Publication

BACKGROUND Induced pluripotent stem cells (iPSCs) hold tremendous potential,both as a biological tool to uncover the pathophysiology of disease by creating relevant human cell models and as a source of cells for cell-based therapeutic applications. Studying the reprogramming process will also provide significant insight into tissue development. OBJECTIVE We sought to characterize the derivation of iPSC lines from nasal epithelial cells (NECs) isolated from nasal mucosa samples of children,a highly relevant and easily accessible tissue for pediatric populations. METHODS We performed detailed comparative analysis on the transcriptomes and methylomes of NECs,iPSCs derived from NECs (NEC-iPSCs),and embryonic stem cells (ESCs). RESULTS NEC-iPSCs express pluripotent cell markers,can differentiate into all 3 germ layers in vivo and in vitro,and have a transcriptome and methylome remarkably similar to those of ESCs. However,residual DNA methylation marks exist,which are differentially methylated between NEC-iPSCs and ESCs. A subset of these methylation markers related to epithelium development and asthma and specific to NEC-iPSCs persisted after several passages in vitro,suggesting the retention of an epigenetic memory of their tissue of origin. Our analysis also identified novel candidate genes with dynamic gene expression and DNA methylation changes during reprogramming,which are indicative of possible roles in airway epithelium development. CONCLUSION NECs are an excellent tissue source to generate iPSCs in pediatric asthmatic patients,and detailed characterization of the resulting iPSC lines would help us better understand the reprogramming process and retention of epigenetic memory. View Publication

We have established a system for directed differentiation of human embryonic stem (hES) cells into myeloid dendritic cells (DCs). As a first step,we induced hemopoietic differentiation by coculture of hES cells with OP9 stromal cells,and then,expanded myeloid cells with GM-CSF using a feeder-free culture system. Myeloid cells had a CD4+CD11b+CD11c+CD16+CD123(low)HLA-DR- phenotype,expressed myeloperoxidase,and included a population of M-CSFR+ monocyte-lineage committed cells. Further culture of myeloid cells in serum-free medium with GM-CSF and IL-4 generated cells that had typical dendritic morphology; expressed high levels of MHC class I and II molecules,CD1a,CD11c,CD80,CD86,DC-SIGN,and CD40; and were capable of Ag processing,triggering naive T cells in MLR,and presenting Ags to specific T cell clones through the MHC class I pathway. Incubation of DCs with A23187 calcium ionophore for 48 h induced an expression of mature DC markers CD83 and fascin. The combination of GM-CSF with IL-4 provided the best conditions for DC differentiation. DCs obtained with GM-CSF and TNF-alpha coexpressed a high level of CD14,and had low stimulatory capacity in MLR. These data clearly demonstrate that hES cells can be used as a novel and unique source of hemopoietic and DC precursors as well as DCs at different stages of maturation to address essential questions of DC development and biology. In addition,because ES cells can be expanded without limit,they can be seen as a potential scalable source of cells for DC vaccines or DC-mediated induction of immune tolerance. View Publication

Lysophospholipids are signaling molecules that play broad and major roles within the nervous system during both early development and neural injury. We used neural differentiation of human embryonic stem cells (hESC) as an in vitro model to examine the specific effects of lysophosphatidic acid (LPA) at various stages of neural development,from neural induction to mature neurons and glia. We report that LPA inhibits neurosphere formation and the differentiation of neural stem cells (NSC) toward neurons,without modifying NSC proliferation,apoptosis,or astrocytic differentiation. LPA acts through the activation of the Rho/ROCK and the phosphatidylinositol 3-kinase/Akt pathways to inhibit neuronal differentiation. This study is the first demonstration of a role for LPA signaling in neuronal differentiation of hESC. As LPA concentrations increase during inflammation,the inhibition of neuronal differentiation by LPA might contribute to the low level of neurogenesis observed following neurotrauma. View Publication

Purpose: The bone marrow microenvironment is considered a critical component in the dissemination and fate of cancer cells in the metastatic process. We explored the possible correlation between bone marrow mesenchymal stem cells (BM-MSC) and disseminated breast cancer-initiating cells (BCIC) in primary breast cancer patients. Experimental design: Bone marrow mononuclear cells (BM-MNC) were collected at the time of primary surgery in 12 breast cancer patients. BM-MNC was immunophenotyped and BCIC was defined as epithelial cells (CD326+CD45-) with a stem-like" phenotype (CD44+CD24low/-� View Publication

Green tea has shown remarkable anti-inflammatory and cancer chemopreventive effects in many animal tumor bioassays,cell culture systems,and epidemiological studies. Many of these biological effects of green tea are mediated by epigallocatechin 3-gallate (EGCG),the major polyphenol present therein. We have earlier shown that EGCG treatment results in apoptosis of several cancer cells,but not of normal cells (J. Natl. Cancer Inst. 89,1881-1886 (1997)). The mechanism of this differential response of EGCG is not known. In this study,we investigated the involvement of NF-kappaB during these differential responses of EGCG. EGCG treatment resulted in a dose-dependent (i) inhibition of cell growth,(ii) G0/G1-phase arrest of the cell cycle,and (iii) induction of apoptosis in human epidermoid carcinoma (A431) cells,but not in normal human epidermal keratinocytes (NHEK). Electromobility shift assay revealed that EGCG (10-80 microM) treatment results in lowering of NF-kappaB levels in both the cytoplasm and nucleus in a dose-dependent manner in both A431 cells and NHEK,albeit at different concentrations. EGCG treatment was found to result in a dose-based differential inhibition of TNF-alpha- and LPS-mediated activation of NF-kappaB in these cells. The inhibition of NF-kappaB constitutive expression and activation in NHEK was observed only at high concentrations. The immunoblot analysis also demonstrated a similar pattern of inhibition of the constitutive expression as well as activation of NF-kappaB/p65 nuclear protein. This inhibition of TNF-alpha-caused NF-kappaB activation was mediated via the phosphorylative degradation of its inhibitory protein IkappaBalpha. Taken together,EGCG was found to impart differential dose-based NF-kappaB inhibitory response in cancer cells vs normal cells; i.e.,EGCG-mediated inhibition of NF-kappaB constitutive expression and activation was found to occur at much higher dose of EGCG in NHEK as compared to A431 cells. This study suggests that EGCG-caused cell cycle deregulation and apoptosis of cancer cells may be mediated through NF-kappaB inhibition. View Publication

The cell surface marker CD133 has been proposed as a brain tumor stem cell marker. However,there have been substantial controversies regarding the necessity and role of CD133 in tumorigenesis. This study aimed to characterize CD133(+) cells in brain tumors. Human brain tumor specimens and whole blood were collected from the same patients (N=12). We carried out dual FACS staining for CD133/CD34 and functional tumorigenesis and angiogenesis analyses of CD133(+) cells from different origins. We also investigated the in vivo tumorigenic potential and histological characteristics of four distinct groups on the basis of expression of CD133/CD34 markers (CD133(+),CD133(+)/CD34(+),CD133(+)/CD34(-),and CD133(-)). CD133(+) brain tumor cells coexpressed significantly higher positivity for CD34 (70.7±5.2% in CD133(+) vs. 12.3±4.2% in CD133(-) cells,P<0.001). CD133(+) brain tumor cells formed neurosphere-like spheroids and differentiated into multiple nervous system lineages unlike CD133(+) blood cells. They showed biological characteristics of endothelial cells,including vWF expression,LDL uptake and tube formation in vitro,unlike CD133(-) brain tumors cells. Pathologic analysis of brains implanted with CD133(+) cells showed large,markedly hypervascular tumors with well-demarcated boundary. CD133(+)/CD34(-) cells produced smaller but highly infiltrative tumors. Notably,pure angiogenic cell fractions (CD133(+)/CD34(+)) and CD133(-) tumor cells did not generate tumors in vivo. Our data suggest the presence of a distinct subpopulation of CD133(+) cells isolated from human brain tumors,with characteristics of endothelial progenitor cells (EPCs). View Publication

Mutations at the steel locus (Sl) of the mouse affect the same cellular targets as mutations at the white spotting locus (W),which is allelic with the c-kit proto-oncogene. We show that KL,a hematopoietic growth factor obtained from conditioned medium of BALB/c 3T3 fibroblasts that stimulates the proliferation of mast cells and early erythroid progenitors,specifically binds to the c-kit receptor. The predicted amino acid sequence of isolated KL-specific cDNA clones suggests that KL is synthesized as an integral transmembrane protein. Linkage analysis maps the KL gene to the Sl locus on mouse chromosome 10,and KL sequences are deleted in the genome of the Sl mouse. These results indicate that the Sl locus encodes the ligand of the c-kit receptor,KL. View Publication

Canonical Wnt signaling has emerged as a critical regulatory pathway for stem cells. The association between ectopic activation of Wnt signaling and many different types of human cancer suggests that Wnt ligands can initiate tumor formation through altered regulation of stem cell populations. Here we have shown that mice deficient for the Wnt co-receptor Lrp5 are resistant to Wnt1-induced mammary tumors,which have been shown to be derived from the mammary stem/progenitor cell population. These mice exhibit a profound delay in tumorigenesis that is associated with reduced Wnt1-induced accumulation of mammary progenitor cells. In addition to the tumor resistance phenotype,loss of Lrp5 delays normal mammary development. The ductal trees of 5-week-old Lrp5-/- females have fewer terminal end buds,which are structures critical for juvenile ductal extension presumed to be rich in stem/progenitor cells. Consequently,the mature ductal tree is hypomorphic and does not completely fill the fat pad. Furthermore,Lrp5-/- ductal cells from mature females exhibit little to no stem cell activity in limiting dilution transplants. Finally,we have shown that Lrp5-/- embryos exhibit substantially impaired canonical Wnt signaling in the primitive stem cell compartment of the mammary placodes. These findings suggest that Lrp5-mediated canonical signaling is required for mammary ductal stem cell activity and for tumor development in response to oncogenic Wnt effectors. View Publication

A metabolic biomarker-based in vitro assay utilizing human embryonic stem (hES) cells was developed to identify the concentration of test compounds that perturbs cellular metabolism in a manner indicative of teratogenicity. This assay is designed to aid the early discovery-phase detection of potential human developmental toxicants. In this study,metabolomic data from hES cell culture media were used to assess potential biomarkers for development of a rapid in vitro teratogenicity assay. hES cells were treated with pharmaceuticals of known human teratogenicity at a concentration equivalent to their published human peak therapeutic plasma concentration. Two metabolite biomarkers (ornithine and cystine) were identified as indicators of developmental toxicity. A targeted exposure-based biomarker assay using these metabolites,along with a cytotoxicity endpoint,was then developed using a 9-point dose–response curve. The predictivity of the new assay was evaluated using a separate set of test compounds. To illustrate how the assay could be applied to compounds of unknown potential for developmental toxicity,an additional 10 compounds were evaluated that do not have data on human exposure during pregnancy,but have shown positive results in animal developmental toxicity studies. The new assay identified the potential developmental toxicants in the test set with 77% accuracy (57% sensitivity,100% specificity). The assay had a high concordance (≥75%) with existing in vivo models,demonstrating that the new assay can predict the developmental toxicity potential of new compounds as part of discovery phase testing and provide a signal as to the likely outcome of required in vivo tests. View Publication

Meticulous characterization of human embryonic stem cells (hESC) is critical to their eventual use in cell-based therapies,particularly in view of the diverse methods for derivation and maintenance of these cell lines. However,characterization methods are generally not standardized and many currently used assays are subjective,making dependable and direct comparison of cell lines difficult. In order to address this problem,we selected 10 molecular-based high-resolution assays as components of a panel for characterization of hESC. The selection of the assays was primarily based on their quantitative or objective (rather than subjective) nature. We demonstrate the efficacy of this panel by characterizing 4 hESC lines,derived in two different laboratories using different derivation techniques,as pathogen free,genetically stable,and able to differentiate into derivatives of all three germ layers. Our panel expands and refines a characterization panel previously proposed by the International Stem Cell Initiative and is another step toward standardized hESC characterization and quality control,a crucial element of successful hESC research and clinical translation. View Publication

Constitutive JAK2 activation in hematopoietic cells by the JAK2V617F mutation recapitulates myeloproliferative neoplasm (MPN) phenotypes in mice,establishing JAK2 inhibition as a potential therapeutic strategy. Although most polycythemia vera patients carry the JAK2V617F mutation,half of those with essential thrombocythemia or primary myelofibrosis do not,suggesting alternative mechanisms for constitutive JAK-STAT signaling in MPNs. Most patients with primary myelofibrosis have elevated levels of JAK-dependent proinflammatory cytokines (eg,interleukin-6) consistent with our observation of JAK1 hyperactivation. Accordingly,we evaluated the effectiveness of selective JAK1/2 inhibition in experimental models relevant to MPNs and report on the effects of INCB018424,the first potent,selective,oral JAK1/JAK2 inhibitor to enter the clinic. INCB018424 inhibited interleukin-6 signaling (50% inhibitory concentration [IC(50)] = 281nM),and proliferation of JAK2V617F(+) Ba/F3 cells (IC(50) = 127nM). In primary cultures,INCB018424 preferentially suppressed erythroid progenitor colony formation from JAK2V617F(+) polycythemia vera patients (IC(50) = 67nM) versus healthy donors (IC(50) textgreater 400nM). In a mouse model of JAK2V617F(+) MPN,oral INCB018424 markedly reduced splenomegaly and circulating levels of inflammatory cytokines,and preferentially eliminated neoplastic cells,resulting in significantly prolonged survival without myelosuppressive or immunosuppressive effects. Preliminary clinical results support these preclinical data and establish INCB018424 as a promising oral agent for the treatment of MPNs. View Publication