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

The effect of 9-cis-retinoic acid (9-cis-RA) on the growth of eight gastric cancer cell lines was related to their transcription levels of mRNAs for retinoid receptors. Northern blot analysis showed that seven (TMK-1,MKN-1,-28,-45,-74,HSC-39,KATO-III) out of eight gastric cancer cell lines synthesized mRNAs for retinoic acid receptors (RARs) and retinoid X receptor-alpha (RXR-alpha). MKN-7 cells did not transcribe either RARs or RXR-alpha at the mRNA level although they appeared to have no alterations at the gene level. The growth of all of the cell lines except for MKN-7 cells was inhibited by 1 x 10(-6) M 9-cis-RA. Cell cycle distribution analysis revealed that G0-G1 arrest was not induced by exposure to 9-cis-RA in the sensitive TMK-1 and KATO-III cells or the resistant MKN-7 cells. Interestingly,9-cis-RA temporarily increased the amount of the cyclin dependent kinase (cdk) inhibitor,Waf1/Cip1/Sdi1/p21 protein,and also reduced the amount of cdk-7,epidermal growth factor receptor (EGFR) and cyclin D1 proteins,followed by reduction in phosphorylation of the product of the retinoblastoma tumor suppressor gene (Rb) in the sensitive TMK-1 cells,but not in the resistant MKN-7 cells. These results suggest that 9-cis-RA has a cytostatic effect on gastric cancer cells that synthesize the receptor molecules through cell cycle regulatory machinery. View Publication

The routine application of human pluripotent stem cells (hPSCs) and their derivatives in biomedicine and drug discovery will require the constant supply of high-quality cells by defined processes. Culturing hPSCs as cell-only aggregates in (three-dimensional [3D]) suspension has the potential to overcome numerous limitations of conventional surface-adherent (two-dimensional [2D]) cultivation. Utilizing single-use instrumented stirred-tank bioreactors,we showed that perfusion resulted in a more homogeneous culture environment and enabled superior cell densities of 2.85 X 10(6) cells per milliliter and 47% higher cell yields compared with conventional repeated batch cultures. Flow cytometry,quantitative reverse-transcriptase polymerase chain reaction,and global gene expression analysis revealed a high similarity across 3D suspension and 2D precultures,underscoring that matrix-free hPSC culture efficiently supports maintenance of pluripotency. Interestingly,physiological data and gene expression assessment indicated distinct changes of the cells' energy metabolism,suggesting a culture-induced switch from glycolysis to oxidative phosphorylation in the absence of hPSC differentiation. Our data highlight the plasticity of hPSCs' energy metabolism and provide clear physiological and molecular targets for process monitoring and further development. This study paves the way toward more efficient GMP-compliant cell production and underscores the enormous process development potential of hPSCs in suspension culture. SIGNIFICANCE Human pluripotent stem cells (hPSCs) are a unique source for the,in principle,unlimited production of functional human cell types in vitro,which are of high value for therapeutic and industrial applications. This study applied single-use,clinically compliant bioreactor technology to develop advanced,matrix-free,and more efficient culture conditions for the mass production of hPSCs in scalable suspension culture. Using extensive analytical tools to compare established conditions with this novel culture strategy,unexpected physiological features of hPSCs were discovered. These data allow a more rational process development,providing significant progress in the field of translational stem cell research and medicine. View Publication

We asked this question: in normal humans,is either a normal dietary intake or normal serum concentration of phosphorus a determinant of the serum concentration of 1,25(OH)2D? In seven normal men whose dietary phosphorus was decreased from 2,300 to 625 mg/d,each intake for 8-9 d,under strictly controlled,normal metabolic conditions,we measured serum concentrations of 1,25(OH)2D daily,and concentrations of phosphorus hourly throughout a 24-h period,before and after restriction. Decreasing dietary phosphorus induced: (a) a 58% increase in serum levels of 1,25(OH)2D; (b) a 35% decrease in serum levels of phosphorus measured in the afternoon; (c) a 12% decrease in the 24-h mean serum level of phosphorus; but,(d) no decrease in morning fasting levels of phosphorus. Serum concentrations of 1,25(OH)2D varied inversely and significantly with 24-h mean concentrations of phosphorus (r = -0.77,P less than 0.001). When these data are combined with those of our prior study in which dietary phosphorus was varied over an extreme range,the relationship between serum levels of 1,25(OH)2D and 24-h mean serum levels of phosphorus is even stronger (r = -0.90,P less than 0.001). In the aggregate,the results demonstrate that in normal men,dietary phosphorus throughout a normal range and beyond,can finely regulate the renal production and serum concentration of 1,25(OH)2D,and provide evidence that this regulation is mediated by fine modulation of the serum concentration of phosphorus. View Publication

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

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

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

Human pluripotent stem cells (hPSCs),including embryonic stem cells and induced pluripotent stem cells,are potentially useful in regenerative therapies for heart disease. For medical applications,clinical-grade cardiac cells must be produced from hPSCs in a defined,cost-effective manner. Cell-based screening led to the discovery of KY02111,a small molecule that promotes differentiation of hPSCs to cardiomyocytes. Although the direct target of KY02111 remains unknown,results of the present study suggest that KY02111 promotes differentiation by inhibiting WNT signaling in hPSCs but in a manner that is distinct from that of previously studied WNT inhibitors. Combined use of KY02111 and WNT signaling modulators produced robust cardiac differentiation of hPSCs in a xeno-free,defined medium,devoid of serum and any kind of recombinant cytokines and hormones,such as BMP4,Activin A,or insulin. The methodology has potential as a means for the practical production of human cardiomyocytes for regeneration therapies. View Publication

Robust control of human induced pluripotent stem cell (hIPSC) differentiation is essential to realize its patient-tailored therapeutic potential. Here,we demonstrate a novel application of Y-27632,a small molecule Rho-associated protein kinase (ROCK) inhibitor,to significantly influence the differentiation of hIPSCs in a lineage-specific manner. The application of Y-27632 to hIPSCs resulted in a decrease in actin bundling and disruption of colony formation in a concentration and time-dependent manner. Such changes in cell and colony morphology were associated with decreased expression of E-cadherin,a cell-cell junctional protein,proportional to the increased exposure to Y-27632. Interestingly,gene and protein expression of pluripotency markers such as NANOG and OCT4 were not downregulated by an exposure to Y-27632 up to 36h. Simultaneously,epithelial-to-mesenchymal (EMT) transition markers were upregulated with an exposure to Y-27632. These EMT-like changes in the cells with longer exposure to Y-27632 resulted in a significant increase in the subsequent differentiation efficiency towards mesendodermal lineage. In contrast,an inhibitory effect was observed when cells were subjected to ectodermal differentiation after prolonged exposure to Y-27632. Collectively,these results present a novel method for priming hIPSCs to modulate their differentiation potential with a simple application of Y-27632. View Publication

Use of animal feeder layers and serum containing media in the derivation and propagation of induced pluripotent stem cells (iPSCs) can hinder clinical translation,because of the presence of xeno-material/pathogens. A defined and standardized system would be ideal for generating a homogenous population of iPSCs,which closely resembles human embryonic stem cells (hESCs). This article presents a novel and extensive comparison between in-house produced iPSCs and hESCs under feeder" and "feeder-free" conditions� View Publication

A practical synthesis of the Rho-Kinase inhibitor Y-27632 and two new fluoro derivatives was achieved in seven steps and with a good overall yield of 45% starting from commercially available (R)-1-phenylethylamine. Compared to Y-27632 the new fluoro derivatives showed reduced or no effect on hPSC vitality and expansion after dissociation in human pluripotent stem cells. View Publication