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

BACKGROUND: Infection with HIV-1 has been shown to alter expression of a large array of host cell genes. However,previous studies aimed at investigating the putative HIV-1-induced modulation of host gene expression have been mostly performed in established human cell lines. To better approximate natural conditions,we monitored gene expression changes in a cell population highly enriched in human primary CD4+ T lymphocytes exposed to HIV-1 using commercial oligonucleotide microarrays from Affymetrix. RESULTS: We report here that HIV-1 influences expression of genes related to many important biological processes such as DNA repair,cellular cycle,RNA metabolism and apoptosis. Notably,expression of the p53 tumor suppressor and genes involved in p53 homeostasis such as GADD34 were up-regulated by HIV-1 at the mRNA level. This observation is distinct from the previously reported p53 phosphorylation and stabilization at the protein level,which precedes HIV-1-induced apoptosis. We present evidence that the HIV-1-mediated increase in p53 gene expression is associated with virus-mediated induction of type-I interferon (i.e. IFN-alpha and IFN-beta). CONCLUSION: These observations have important implications for our understanding of HIV-1 pathogenesis,particularly in respect to the virus-induced depletion of CD4+ T cells. View Publication

Glioblastoma,the most malignant type of primary brain tumor,is one of the solid cancers where cancer stem cells have been isolated,and studies have suggested resistance of those cells to chemotherapy and radiotherapy. Here,we report the establishment of CSC-enriched cultures derived from human glioblastoma specimens. They grew as neurospheres in serum-free medium with epidermal growth factor and fibroblast growth factor 2,varied in the level of CD133 expression and very efficiently formed highly invasive and/or vascular tumors upon intracerebral implantation into immunodeficient mice. As a novel therapeutic strategy for glioblastoma-derived cancer stem-like cells (GBM-SC),we have tested oncolytic herpes simplex virus (oHSV) vectors. We show that although ICP6 (UL39)-deleted mutants kill GBM-SCs as efficiently as wild-type HSV,the deletion of gamma34.5 significantly attenuated the vectors due to poor replication. However,this was significantly reversed by the additional deletion of alpha47. Infection with oHSV G47Delta (ICP6(-),gamma34.5(-),alpha47(-)) not only killed GBM-SCs but also inhibited their self-renewal as evidenced by the inability of viable cells to form secondary tumor spheres. Importantly,despite the highly invasive nature of the intracerebral tumors generated by GBM-SCs,intratumoral injection of G47Delta significantly prolonged survival. These results for the first time show the efficacy of oHSV against human GBM-SCs,and correlate this cytotoxic property with specific oHSV mutations. This is important for designing new oHSV vectors and clinical trials. Moreover,the new glioma models described in this study provide powerful tools for testing experimental therapeutics and studying invasion and angiogenesis. View Publication

MLL-AF4 fusion is a hallmark genetic abnormality in infant B-acute lymphoblastic leukemia (B-ALL) known to arise in utero. The cellular origin of leukemic fusion genes during human development is difficult to ascertain. The bone marrow (BM) microenvironment plays an important role in the pathogenesis of several hematological malignances. BM mesenchymal stem cells (BM-MSC) from 38 children diagnosed with cytogenetically different acute leukemias were screened for leukemic fusion genes. Fusion genes were absent in BM-MSCs of childhood leukemias carrying TEL-AML1,BCR-ABL,AML1-ETO,MLL-AF9,MLL-AF10,MLL-ENL or hyperdiploidy. However,MLL-AF4 was detected and expressed in BM-MSCs from all cases of MLL-AF4(+) B-ALL. Unlike leukemic blasts,MLL-AF4(+) BM-MSCs did not display monoclonal Ig gene rearrangements. Endogenous or ectopic expression of MLL-AF4 exerted no effect on MSC culture homeostasis. These findings suggest that MSCs may be in part tumor-related,highlighting an unrecognized role of the BM milieu on the pathogenesis of MLL-AF4(+) B-ALL. MLL-AF4 itself is not sufficient for MSC transformation and the expression of MLL-AF4 in MSCs is compatible with a mesenchymal phenotype,suggesting a differential impact in the hematopoietic system and mesenchyme. The absence of monoclonal rearrangements in MLL-AF4(+) BM-MSCs precludes the possibility of cellular plasticity or de-differentiation of B-ALL blasts and suggests that MLL-AF4 might arise in a population of prehematopoietic precursors. View Publication

Mesenchymal stem cells (MSCs) have multilineage differentiation potential which includes cell lineages of the central nervous system; hence MSCs might be useful in the treatment of neurodegenerative diseases such as Parkinson's disease. Although mesenchymal stem cells have been shown to differentiate into the neural lineage,there is still little knowledge about the underlying mechanisms of differentiation particularly towards specialized neurons such as dopaminergic neurons. Here,we show that MSCs derived from human umbilical cord blood (MSC(hUCBs)) are capable of expressing tyrosine hydroxylase (TH) and Nurr1,markers typically associated with DA neurons. We also found differential phosphorylation of TH isoforms indicating the presence of post-translational mechanisms possibly activating and modifying TH in MSC(hUCB). Furthermore,functional dissection of components in the differentiation medium revealed that dibutyryl-cAMP (db-cAMP),3-isobutyl-1-methylxanthine (IBMX) and retinoic acid (RA) are involved in the regulation of Nurr1 and Neurofilament-L expression as well as in the differential phosphorylation of TH. We also demonstrate a possible inhibitory role of the protein kinase A signaling pathway in the phosphorylation of specific TH isoforms. View Publication

Improving effector T-cell functions is highly desirable for preventive or therapeutic interventions of diverse diseases. Signal transducer and activator of transcription 3 (Stat3) in the myeloid compartment constrains Th1-type immunity,dampening natural and induced antitumor immune responses. We have recently developed an in vivo small interfering RNA (siRNA) delivery platform by conjugating a Toll-like receptor 9 agonist with siRNA that efficiently targets myeloid and B cells. Here,we show that either CpG triggering combined with the genetic Stat3 ablation in myeloid/B cell compartments or administration of the CpG-Stat3siRNA drastically augments effector functions of adoptively transferred CD8+ T cells. Specifically,we show that both approaches are capable of increasing dendritic cell and CD8(+) T-cell engagement in tumor-draining lymph nodes. Furthermore,both approaches can significantly activate the transferred CD8(+) T cells in vivo,upregulating effector molecules such as perforin,granzyme B,and IFN-γ. Intravital multiphoton microscopy reveals that Stat3 silencing combined with CpG triggering greatly increases killing activity and tumor infiltration of transferred T cells. These results suggest the use of CpG-Stat3siRNA,and possibly other Stat3 inhibitors,as a potent adjuvant to improve T-cell therapies. View Publication

B1 cells differ in many ways from conventional B cells,most prominently in the production of natural immunoglobulin,which is vitally important for protection against pathogens. B1 cells have also been implicated in the pathogenesis of autoimmune dyscrasias and malignant diseases. It has been impossible to accurately study B1 cells during health and illness because the nature of human B1 cells has not been successfully defined. This has produced controversy regarding the existence of human B1 cells. Here,we determined the phenotype of human B1 cells by testing sort-purified B cell fractions for three fundamental B1 cell functions based on mouse studies: spontaneous IgM secretion,efficient T cell stimulation,and tonic intracellular signaling. We found that a small population of CD20(+)CD27(+)CD43(+) cells present in both umbilical cord and adult peripheral blood fulfilled these criteria and expressed a skewed B cell receptor repertoire. These B cells express little or no surface CD69 and CD70,both of which are markedly up-regulated after activation of CD20(+)CD27(-)CD43(-) (naive) and CD20(+)CD27(+)CD43(-) (memory) B cells. This work identifies human B1 cells as CD20(+)CD27(+)CD43(+)CD70(-). We determined that the proportion of B1 cells declines with age,which may contribute to disease susceptibility. Identification of human B1 cells provides a foundation for future studies on the nature and role of these cells in human disease. View Publication

A robust method for culturing human pluripotent stem (hPS) cells under chemically defined and xeno-free conditions is an important tool for stem cell research and for the development of regenerative medicine. Here,we describe a protocol for monolayer culturing of Oct-4-positive hPS cells on a specific laminin-521 (LN-521) isoform,under xeno-free and chemically defined conditions. The cells are dispersed into single-cell suspension and then plated on LN-521 isoform at densities higher than 5,000 cells per cm²,where they attach,migrate and survive by forming small monolayer cell groups. The cells avidly divide and expand horizontally until the entire dish is covered by a confluent monolayer. LN-521,in combination with E-cadherin,allows cloning of individual hPS cells in separate wells of 96-well plates without the presence of rho-associated protein kinase (ROCK) inhibitors or any other inhibitors of anoikis. Characterization of cells maintained for several months in culture reveals pluripotency with a minimal degree of genetic abnormalities. View Publication

BACKGROUND: Induced pluripotent stem cells (iPSCs) can be differentiated into potentially unlimited lineages of cell types for use in autologous cell therapy. However,the efficiency of the differentiation procedure and subsequent function of the iPSC-derived cells may be influenced by epigenetic factors that the iPSCs retain from their tissues of origin; thus,iPSC-derived cells may be more effective for treatment of myocardial injury if the iPSCs were engineered from cardiac-lineage cells,rather than dermal fibroblasts. METHODS AND RESULTS: We show that human cardiac iPSCs (hciPSCs) can be generated from cardiac fibroblasts and subsequently differentiated into exceptionally pure (textgreater92%) sheets of cardiomyocytes (CMs). The hciPSCs passed through all the normal stages of differentiation before assuming a CM identity. When using the fibrin gel-enhanced delivery of hciPSC-CM sheets at the site of injury in infarcted mouse hearts,the engraftment rate was 31.91%+/-5.75% at Day 28 post transplantation. The hciPSC-CM in the sheet also appeared to develop a more mature,structurally aligned phenotype 28 days after transplantation and was associated with significant improvements in cardiac function,vascularity,and reduction in apoptosis. CONCLUSIONS: These data strongly support the potential of hciPSC-CM sheet transplantation for the treatment of heart with acute myocardial infarction. View Publication

Regeneration of human cartilage is inherently inefficient; an abundant autologous source,such as human induced pluripotent stem cells (hiPSCs),is therefore attractive for engineering cartilage. We report a growth factor-based protocol for differentiating hiPSCs into articular-like chondrocytes (hiChondrocytes) within 2 weeks,with an overall efficiency textgreater90%. The hiChondrocytes are stable and comparable to adult articular chondrocytes in global gene expression,extracellular matrix production,and ability to generate cartilage tissue in vitro and in immune-deficient mice. Molecular characterization identified an early SRY (sex-determining region Y) box (Sox)9(low) cluster of differentiation (CD)44(low)CD140(low) prechondrogenic population during hiPSC differentiation. In addition,2 distinct Sox9-regulated gene networks were identified in the Sox9(low) and Sox9(high) populations providing novel molecular insights into chondrogenic fate commitment and differentiation. Our findings present a favorable method for generating hiPSC-derived articular-like chondrocytes. The hiChondrocytes are an attractive cell source for cartilage engineering because of their abundance,autologous nature,and potential to generate articular-like cartilage rather than fibrocartilage. In addition,hiChondrocytes can be excellent tools for modeling human musculoskeletal diseases in a dish and for rapid drug screening. View Publication

We examined the role of NFκB1 in the homeostasis and function of peripheral follicular (Fo) B cells. Aging mice lacking NFκB1 (Nfκb1(-/-)) develop lymphoproliferative and multiorgan autoimmune disease attributed in large part to the deregulated activity ofNfκb1(-/-)Fo B cells that produce excessive levels of the proinflammatory cytokine interleukin 6 (IL-6). Despite enhanced germinal center (GC) B cell differentiation,the formation of GC structures was severely disrupted in theNfκb1(-/-)mice. Bone marrow chimeric mice revealed that the Fo B cell-intrinsic loss of NFκB1 led to the spontaneous generation of GC B cells. This was primarily the result of an increase in IL-6 levels,which promotes the differentiation of Fo helper CD4(+)T cells and acts in an autocrine manner to reduce antigen receptor and toll-like receptor activation thresholds in a population of proliferating IgM(+)Nfκb1(-/-)Fo B cells. We demonstrate that p50-NFκB1 repressesIl-6transcription in Fo B cells,with the loss of NFκB1 also resulting in the uncontrolled RELA-driven transcription ofIl-6.Collectively,our findings identify a previously unrecognized role for NFκB1 in preventing multiorgan autoimmunity through its negative regulation ofIl-6gene expression in Fo B cells. View Publication

Thirdhand cigarette smoke (THS) was recently recognized as an environmental health hazard; however,little is known about it effects on cells. Mitochondria are sensitive monitors of cell health and report on environmentally-induced stress. We tested the effects of low levels of THS extracted from terry cloth on mitochondrial morphology and function using stem cells with well-defined mitochondria. Concentrations of THS that did not kill cells caused stress-induced mitochondrial hyperfusion (SIMH),which was characterized by changes in mitochondrial morphology indicative of fusion,increased mitochondrial membrane potential (MMP),increased ATP levels,increased superoxide production,and increased oxidation of mitochondrial proteins. SIMH was accompanied by a decrease in Fis1 expression,a gene responsible for mitochondrial fission,and a decrease in apoptosis-related genes,including Aifm2,Bbc3 and Bid There was also down regulation of Ucp2,Ucp4 and Ucp5,genes that decrease MMP thereby reducing oxidative phosphorylation,while promoting glycolysis. These effects,which collectively accompany SIMH,are a pro-survival mechanism to rescue damaged mitochondria and protect cells from apoptosis. Prolonged exposure to THS caused a reduction in MMP and decreased cell proliferation,which likely leads to apoptosis. View Publication