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

Human pluripotent stem cells (hPSCs) are a promising cell source for tissue engineering and regenerative medicine,especially in the field of neurobiology. Neural differentiation protocols have been developed to differentiate hPSCs into specific neural cells,but these predominantly rely on biochemical cues. Recently,differentiation protocols have incorporated topographical cues to increase the total neuronal yield. However,the means by which these topographical cues improve neuronal yield remains unknown. In this study,we explored the effect of topography on the neural differentiation of hPSC by quantitatively studying the changes in marker expression at a transcript and protein level. We found that 2 ??m gratings increase the rate of neural differentiation,and that an additional culture period of 2 ??m gratings in the absence of neurotrophic signals can improve the neural differentiation of hPSCs. We envisage that this work can be incorporated into future differentiation protocols to decrease the differentiation period as well as the biochemical signals added,thus generating hPSC-derived neural cells in a more cost effective and efficient manner. ?? 2012 Elsevier Ltd. View Publication

The protocol described here efficiently directs human pluripotent stem cells (hPSCs) to functional cardiomyocytes in a completely defined,growth factor- and serum-free system by temporal modulation of regulators of canonical Wnt signaling. Appropriate temporal application of a glycogen synthase kinase 3 (GSK3) inhibitor combined with the expression of β-catenin shRNA or a chemical Wnt inhibitor is sufficient to produce a high yield (0.8-1.3 million cardiomyocytes per cm(2)) of virtually pure (80-98%) functional cardiomyocytes in 14 d from multiple hPSC lines without cell sorting or selection. Qualitative (immunostaining) and quantitative (flow cytometry) characterization of differentiated cells is described to assess the expression of cardiac transcription factors and myofilament proteins. Flow cytometry of BrdU incorporation or Ki67 expression in conjunction with cardiac sarcomere myosin protein expression can be used to determine the proliferative capacity of hPSC-derived cardiomyocytes. Functional human cardiomyocytes differentiated via these protocols may constitute a potential cell source for heart disease modeling,drug screening and cell-based therapeutic applications. View Publication

The purpose of this study was to investigate the chondrogenic features of human induced pluripotent stem cells (hiPSCs) and examine the differences in the chondrogenesis between hiPSCs and human bone marrow-derived MSCs (hBMMSCs). Embryoid bodies (EBs) were formed from undifferentiated hiPSCs. After EBs were dissociated into single cells,chondrogenic culture was performed in pellets and alginate hydrogel. Chondro-induced hiPSCs were implanted in osteochondral defects created on the patellar groove of immunosuppressed rats and evaluated after 12 weeks. The ESC markers NANOG,SSEA4 and OCT3/4 disappeared while the mesodermal marker BMP-4 appeared in chondro-induced hiPSCs. After 21 days of culture,greater glycosaminoglycan contents and better chondrocytic features including lacuna and abundant matrix formation were observed from chondro-induced hiPSCs compared to chondro-induced hBMMSCs. The expression of chondrogenic markers including SOX-9,type II collagen,and aggrecan in chondro-induced hiPSCs was comparable to or greater than chondro-induced hBMMSCs. A remarkably low level of hypertrophic and osteogenic markers including type X collagen,type I collagen and Runx-2 was noted in chondro-induced hiPSCs compared to chondro-induced hBMMSCs. hiPSCs had significantly greater methylation of several CpG sites in COL10A1 promoter than hBMMSCs in either undifferentiated or chondro-induced state,suggesting an epigenetic cause of the difference in hypertrophy. The defects implanted with chondro-induced hiPSCs showed a significantly better quality of cartilage repair than the control defects,and the majority of cells in the regenerated cartilage consisted of implanted hiPSCs. ?? 2014 Elsevier Ltd. View Publication

The transfer of somatic cell nuclei into oocytes can give rise to pluripotent stem cells that are consistently equivalent to embryonic stem cells,holding promise for autologous cell replacement therapy. Although methods to induce pluripotent stem cells from somatic cells by transcription factors are widely used in basic research,numerous differences between induced pluripotent stem cells and embryonic stem cells have been reported,potentially affecting their clinical use. Because of the therapeutic potential of diploid embryonic stem-cell lines derived from adult cells of diseased human subjects,we have systematically investigated the parameters affecting efficiency of blastocyst development and stem-cell derivation. Here we show that improvements to the oocyte activation protocol,including the use of both kinase and translation inhibitors,and cell culture in the presence of histone deacetylase inhibitors,promote development to the blastocyst stage. Developmental efficiency varied between oocyte donors,and was inversely related to the number of days of hormonal stimulation required for oocyte maturation,whereas the daily dose of gonadotropin or the total number of metaphase II oocytes retrieved did not affect developmental outcome. Because the use of concentrated Sendai virus for cell fusion induced an increase in intracellular calcium concentration,causing premature oocyte activation,we used diluted Sendai virus in calcium-free medium. Using this modified nuclear transfer protocol,we derived diploid pluripotent stem-cell lines from somatic cells of a newborn and,for the first time,an adult,a female with type 1 diabetes. View Publication

Human pluripotent stem cell (hPSC)-derived endothelial cells and their progenitors may provide the means for vascularization of tissue-engineered constructs and can serve as models to study vascular development and disease. Here,we report a method to efficiently produce endothelial cells from hPSCs via GSK3 inhibition and culture in defined media to direct hPSC differentiation to CD34(+)CD31(+) endothelial progenitors. Exogenous vascular endothelial growth factor (VEGF) treatment was dispensable,and endothelial progenitor differentiation was β-catenin dependent. Furthermore,by clonal analysis,we showed that CD34(+)CD31(+)CD117(+)TIE-2(+) endothelial progenitors were multipotent,capable of differentiating into calponin-expressing smooth muscle cells and CD31(+)CD144(+)vWF(+)I-CAM1(+) endothelial cells. These endothelial cells were capable of 20 population doublings,formed tube-like structures,imported acetylated low-density lipoprotein,and maintained a dynamic barrier function. This study provides a rapid and efficient method for production of hPSC-derived endothelial progenitors and endothelial cells and identifies WNT/β-catenin signaling as a primary regulator for generating vascular cells from hPSCs. View Publication

WNT/$\$-CATENIN signaling promotes the hematopoietic/endothelial differentiation of human embryonic stem cells and human induced pluripotent stem cells (hiPSCs). The transient addition of a GSK3$\$ (GSKi) has been found to facilitate in vitro endothelial cell differentiation from hESCs/hiPSCs. Because hematopoietic and endothelial cells are derived from common progenitors (hemogenic endothelial progenitors [HEPs]),we examined the effect of transient GSKi treatment on hematopoietic cell differentiation from hiPSCs. We found that transient GSKi treatment at the start of hiPSC differentiation induction altered the gene expression profile of the cells. Multiple CDX/HOX genes,which are expressed in the posterior mesoderm of developing embryos,were significantly upregulated by GSKi treatment. Further,inclusion of the GSKi in a serum- and stroma-free culture with chemically defined medium efficiently induced HEPs,and the HEPs gave rise to various lineages of hematopoietic and endothelial cells. Therefore,transient WNT/$\$-CATENIN signaling triggers activation of the CDX/HOX pathway,which in turn confers hemogenic posterior mesoderm identity to differentiating hiPSCs. These data enhance our understanding of human embryonic hematopoietic/endothelial cell development and provide a novel in vitro system for inducing the differentiation of hematopoietic cells from hiPSCs. View Publication

We investigate the effects of myocardial transplantation of human induced pluripotent stem cell (iPSC)-derived progenitors and cardiomyocytes into acutely infarcted myocardium in severe combined immune deficiency mice. A total of 2 × 10(5) progenitors,cardiomyocytes or cell-free saline were injected into peri-infarcted anterior free wall. Sham-operated animals received no injection. Myocardial function was assessed at 2-week and 4-week post-infarction by using echocardiography and pressure-volume catheterization. Early myocardial remodelling was observed at 2-week with echocardiography derived stroke volume (SV) in saline (20.45 ± 7.36 $\$,P textless 0.05) and cardiomyocyte (19.52 ± 3.97 $\$,P textless 0.05) groups,but not in progenitor group (25.65 ± 3.61 $\$),significantly deteriorated as compared to sham control group (28.41 ± 4.41 $\$). Consistently,pressure-volume haemodynamic measurements showed worsening chamber dilation in saline (EDV: 23.24 ± 5.01 $\$,P textless 0.05; ESV: 17.08 ± 5.82 $\$,P textless 0.05) and cardiomyocyte (EDV: 26.45 ± 5.69 $\$,P textless 0.05; ESV: 18.03 ± 6.58 $\$,P textless 0.05) groups by 4-week post-infarction as compared to control (EDV: 15.26 ± 2.96 $\$; ESV: 8.41 ± 2.94 $\$). In contrast,cardiac progenitors (EDV: 20.09 ± 7.76 $\$; ESV: 13.98 ± 6.74 $\$) persistently protected chamber geometry against negative cardiac remodelling. Similarly,as compared to sham control (54.64 ± 11.37%),LV ejection fraction was preserved in progenitor group from 2-(38.68 ± 7.34%) to 4-week (39.56 ± 13.26%) while cardiomyocyte (36.52 ± 11.39%,P textless 0.05) and saline (35.34 ± 11.86%,P textless 0.05) groups deteriorated early at 2-week. Improvements of myocardial function in the progenitor group corresponded to increased vascularization (16.12 ± 1.49/mm(2) to 25.48 ± 2.08/mm(2) myocardial tissue,P textless 0.05) and coincided with augmented networking of cardiac telocytes in the interstitial space of infarcted zone. View Publication

Chromosomal translocations of the mixed lineage leukemia (MLL) gene are a common cause of acute leukemias. The oncogenic function of MLL fusion proteins is,in part,mediated through aberrant activation of Hoxa genes and Meis1,among others. Here we demonstrate using a tamoxifen-inducible Cre-mediated loss of function mouse model that DOT1L,an H3K79 methyltransferase,is required for both initiation and maintenance of MLL-AF9-induced leukemogenesis in vitro and in vivo. Through gene expression and chromatin immunoprecipitation analysis we demonstrate that mistargeting of DOT1L,subsequent H3K79 methylation,and up-regulation of Hoxa and Meis1 genes underlie the molecular mechanism of how DOT1L contributes to MLL-AF9-mediated leukemogenesis. Our study not only provides the first in vivo evidence for the function of DOT1L in leukemia,but also reveals the molecular mechanism for DOT1L in MLL-AF9 mediated leukemia. Thus,DOT1L may serve as a potential therapeutic target for the treatment of leukemia caused by MLL translocations. View Publication

Autologous feeder cells have been developed by various methods to minimize the presence of xenogenic entities in human embryonic stem cell (hESC) cultures. However,there was no systematic comparison of supportive effects of the feeder cells on hESC growth,nor comparison to the supportive effects of various feeder-free culture systems and standard mouse feeder cells. In this study,we aimed to compare the supportive abilities of autologous feeders derived either directly from H9 hESCs (H9 dF) or from outgrowth of embryoid body predifferentiated in suspension from H9 hESCs (H9 ebF). Mouse feeder system and matrigel-mTeSR1 feeder-free system were used as controls. H9 ebF was found to secrete more basic fibroblast growth factor in the conditioned medium than H9 dF did. The undifferentiated state of H9 hESCs was sustained more stably on H9 ebF than on H9 dF,and the differentiation potential of H9 hESCs on H9 ebF was higher than on H9 dF. We concluded that H9 ebF was an optimal autologous feeder to maintain the long-term undifferentiated state of hESCs in our current culture system. This study helps to standardize the autologous culture of hESCs. It also suggests a more definite direction for future development of xeno-free culture system for hESCs. View Publication

T-cell responses in the lung are critical for protection against respiratory pathogens. TNFR superfamily members play important roles in providing survival signals to T cells during respiratory infections. However,whether these signals take place mainly during priming in the secondary lymphoid organs and/or in the peripheral tissues remains unknown. Here we show that under conditions of competition,GITR provides a T-cell intrinsic advantage to both CD4 and CD8 effector T cells in the lung tissue,as well as for the formation of CD4 and CD8 tissue-resident memory T cells during respiratory influenza infection in mice. In contrast,under non-competitive conditions,GITR has a preferential effect on CD8 over CD4 T cells. The nucleoprotein-specific CD8 T-cell response partially compensated for GITR deficiency by expansion of higher affinity T cells; whereas,the polymerase-specific response was less flexible and more GITR dependent. Following influenza infection,GITR is expressed on lung T cells and GITRL is preferentially expressed on lung monocyte-derived inflammatory antigen presenting cells. Accordingly,we show that GITR+/+ T cells in the lung parenchyma express more phosphorylated-ribosomal protein S6 than their GITR-/- counterparts. Thus,GITR signaling within the lung tissue critically regulates effector and tissue-resident memory T-cell accumulation. View Publication