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

Human pluripotent stem cells hold great promise for applications in drug discovery and regenerative medicine. Microfluidic technology is a promising approach for creating artificial microenvironments; however,although a proper 3D microenvironment is required to achieve robust control of cellular phenotypes,most current microfluidic devices provide only 2D cell culture and do not allow tuning of physical and chemical environmental cues simultaneously. Here,the authors report a 3D cellular microenvironment plate (3D-CEP),which consists of a microfluidic device filled with thermoresponsive poly(N-isopropylacrylamide)-β-poly(ethylene glycol) hydrogel (HG),which enables systematic tuning of both chemical and physical environmental cues as well as in situ cell monitoring. The authors show that H9 human embryonic stem cells (hESCs) and 253G1 human induced pluripotent stem cells in the HG/3D-CEP system maintain their pluripotent marker expression under HG/3D-CEP self-renewing conditions. Additionally,global gene expression analyses are used to elucidate small variations among different test environments. Interestingly,the authors find that treatment of H9 hESCs under HG/3D-CEP self-renewing conditions results in initiation of entry into the neural differentiation process by induction of PAX3 and OTX1 expression. The authors believe that this HG/3D-CEP system will serve as a versatile platform for developing targeted functional cell lines and facilitate advances in drug screening and regenerative medicine. View Publication

The cell line described here was established for a 50-year-old male patient with rapidly progressive non-Hodgkin's lymphoma whose marrow was diffusely infiltrated with large granular lymphocytes (LGL). Immunophenotyping of marrow blasts and peripheral lymphocytes was positive for CD56,CD2 and CD7,and negative for CD3. Cytotoxicity of peripheral blood mononuclear cells at an effector: target (E:T) cell ratio of 50:1 was 79% against K562 cells and 48% against Daudi cells. To establish the line,cells from the peripheral blood were placed into enriched alpha medium containing 12.5% fetal calf serum,12.5% horse serum,10(-4) M beta-mercaptoethanol and 10(-6) M hydrocortisone. Growth of the line (termed NK-92) is dependent on the presence of recombinant IL-2 and a dose as low as 10 U/ml is sufficient to maintain proliferation. Conversely,cells die within 72 h when deprived of IL-2; IL-7 and IL-12 do not maintain long-term growth,although IL-7 induces short-term proliferation measured by 3H-thymidine incorporation. None of the other cytokines tested (IL-1 alpha,IL-6,TNF-alpha,IFN-alpha,IFN-gamma) supported growth of NK-92 cells which have the following characteristics: surface marker positive for CD2,CD7,CD11a,CD28,CD45,CD54,CD56bright; surface marker negative for CD1,CD3,CD4,CD5,CD8,CD10,CD14,CD16,CD19,CD20,CD23,CD34,HLA-DR. DNA analysis showed germline configuration for T-cell receptor beta and gamma genes. CD25 (p55 IL-2 receptor) is expressed on about 50% of all cells when tested at 100 U/ml of IL-2 and its expression correlates inversely with the IL-2 concentration. The p75 IL-2 receptor is expressed on about half of the cells at low density irrespective of the IL-2 concentration. NK-92 cells kill both K562 and Daudi cells very effectively in a 4 h51-chromium release assay (84 and 86% respectively,at an E:T cell ratio of 5:1). The cell line described here thus displays characteristics of activated NK-cells and could be a valuable tool to study their biology. View Publication

Mesenchymal stem cells (MSCs) in their immature state express a variety of genes of the three germ layers at relatively low or moderate levels that might explain their phenomenal plasticity. Numerous recent studies have demonstrated that under the appropriate conditions in vitro and in vivo the expression of different sets of these genes can be upregulated,turning MSCs into variety of cell lineages of mesodermal,ectodermal and endodermal origin. While transdifferentiation of MSCs is still controversial,these unique properties make MSCs an ideal autologous source of easily reprogrammable cells. Recently,using the approach of cell reprogramming by biological active compounds that interfere with chromatin structure and function,as well as with specific signalling pathways that promote neural fate commitment,we have been able to generate neural-like cells from human bone marrow (BM)-derived MSCs (hMSCs). However,the efficiency of neural transformation of hMSCs induced by this approach gradually declined with passaging. To elucidate the mechanisms that underlie the higher plasticity of early-passage hMSCs,comparative analysis of the expression levels of several pluripotent and neural genes was conducted for early- and late-passage hMSCs. The results demonstrated that early-passage hMSCs expressed the majority of these genes at low and moderate levels that gradually declined at late passages. Neural induction further increased the expression of some of these genes in hMSCs,accompanied by morphological changes into neural-like cells. We concluded that low and moderate expression of several pluripotent and neural genes in early-passage hMSCs could explain their higher plasticity and pliability for neural induction. Copyright textcopyright 2012 John Wiley & Sons,Ltd. View Publication

A rapid and efficient method to stimulate bone regeneration would be useful in orthopaedic stem cell therapies. Rolipram is an inhibitor of phosphodiesterase 4 (PDE4),which mediates cyclic adenosine monophosphate (cAMP) degradation. Systemic injection of rolipram enhances osteogenesis induced by bone morphogenetic protein 2 (BMP-2) in mice. However,there is little data on the precise mechanism,by which the PDE4 inhibitor regulates osteoblast gene expression. In this study,we investigated the combined ability of BMP-2 and cilomilast,a second-generation PDE4 inhibitor,to enhance the osteoblastic differentiation of mesenchymal stem cells (MSCs). The alkaline phosphatase (ALP) activity of MSCs treated with PDE4 inhibitor (cilomilast or rolipram),BMP-2,and/or H89 was compared with the ALP activity of MSCs differentiated only by osteogenic medium (OM). Moreover,expression of Runx2,osterix,and osteocalcin was quantified using real-time polymerase chain reaction (RT-PCR). It was found that cilomilast enhances the osteoblastic differentiation of MSCs equally well as rolipram in primary cultured MSCs. Moreover,according to the H89 inhibition experiments,Smad pathway was found to be an important signal transduction pathway in mediating the osteogenic effect of BMP-2,and this effect is intensified by an increase in cAMP levels induced by PDE4 inhibitor. View Publication

Hepatocytes play a central and crucial role in cholesterol and lipid homeostasis,and their proper function is of key importance for cardiovascular health. In particular,hepatocytes (especially periportal hepatocytes) endogenously synthesize large amounts of cholesterol and secrete it into circulating blood via apolipoprotein particles. Cholesterol-secreting hepatocytes are also the clinically-relevant cells targeted by statin treatment in vivo. The study of cholesterol homeostasis is largely restricted to the use of animal models and immortalized cell lines that do not recapitulate those key aspects of normal human hepatocyte function that result from genetic variation of individuals within a population. Hepatocyte-like cells (HLCs) derived from human embryonic and induced pluripotent stem cells can provide a cell culture model for the study of cholesterol homeostasis,dyslipidemias,the action of statins and other pharmaceuticals important for cardiovascular health. We have analyzed expression of core components for cholesterol homeostasis in untreated human iPS cells and in response to pravastatin. Here we show the production of differentiated cells resembling periportal hepatocytes from human pluripotent stem cells. These cells express a broad range of apolipoproteins required for secretion and elimination of serum cholesterol,actively secrete cholesterol into the medium,and respond functionally to statin treatment by reduced cholesterol secretion. Our research shows that HLCs derived from human pluripotent cells provide a robust cell culture system for the investigation of the hepatic contribution to human cholesterol homeostasis at both cellular and molecular levels. Importantly,it permits for the first time to also functionally assess the impact of genetic polymorphisms on cholesterol homeostasis. Finally,the system will also be useful for mechanistic studies of heritable dyslipidemias,drug discovery,and investigation of modes of action of cholesterol-modulatory drugs. View Publication

Invasion and metastasis are the major cause of deaths in patients with esophageal cancer. In this study,we isolated cancer stem-like cells from an esophageal squamous cell carcinoma cell line EC109 based on aldehyde dehydrogenase 1A1 (ALDH1A1),and found that ALDH1A1(high) cells possessed the capacities of self-renewal,differentiation and tumor initiation,indications of stem cell properties. To support their stemness,ALDH1A1(high) cells exhibited increased potential of invasion and metastasis as compared with ALDH1A1(low) cells. ALDH1A1(high) esophageal squamous cell carcinoma cells expressed increased levels of mRNA for vimentin,matrix metalloproteinase 2,7 and 9 (MMP2,MMP7 and MMP9),but decreased the level of E-cadherin mRNA,suggesting that epithelial-mesenchymal transition and secretary MMPs may be attributed to the high invasive and metastatic capabilities of ALDH1A1(high) cells. Furthermore,we examined esophageal squamous cell carcinoma specimens from 165 patients and found that ALDH1A1(high) cells were associated with esophageal squamous dysplasia and the grades,differentiation and invasion depth,lymph node metastasis and UICC stage of esophageal squamous cell carcinoma,as well as poor prognosis of patients. Our results provide the strong evidence that ALDH1A1(high) cancer stem-like cells contribute to the invasion,metastasis and poor outcome of human esophageal squamous cell carcinoma. View Publication

Despite high remission rates after therapy,60% to 70% of patients with acute myeloid leukemia (AML) do not survive 5 years after their initial diagnosis. The main cause of treatment failures may be insufficient eradication of a subpopulation of leukemic stem-like cells (LSC),which are thought to be responsible for relapse by giving rise to more differentiated leukemic progenitors (LP). To address the need for therapeutic targets in LSCs,we compared microRNA (miRNA) expression patterns in highly enriched healthy CD34(+)CD38(-) hematopoietic stem cells (HSC),CD34(+)CD38(-) LSCs,and CD34(+)CD38(+) LPs,all derived from the same patients' bone marrow (BM) specimens. In this manner,we identified multiple differentially expressed miRNAs,in particular miR-126,which was highly expressed in HSCs and increased in LSCs compared with LPs,consistent with a stem-like cell function. High miR-126 expression in AML was associated with poor survival,higher chance of relapse,and expression of genes present in LSC/HSC signatures. Notably,attenuating miR-126 expression in AML cells reduced in vitro cell growth by inducing apoptosis,but did not affect the survival of normal BM in which it instead enhanced expansion of HSCs. Furthermore,targeting miR-126 in LSCs and LPs reduced their clonogenic capacity and eliminated leukemic cells,again in the absence of similar inhibitory effects on normal BM cells. Our results define miR-126 as a therapeutic focus to specifically eradicate LSCs and improve AML outcome. View Publication

A simple,scalable,and reproducible technology that allows direct formation of large numbers of homogeneous and synchronized embryoid bodies (EBs) of defined sizes from dissociated human induced pluripotent stem cells (hiPSCs) was developed. Non-cell-adhesive hydrogels were used to create round-bottom microwells to host dissociated hiPSCs. No Rho-associated kinase inhibitor (ROCK-i),or centrifugation was needed and the side effects of ROCK-i can be avoided. The key requirement for the successful EB formation in addition to the non-cell-adhesive round-bottom microwells is the input cell density per microwell. Too few or too many cells loaded into the microwells will compromise the EB formation process. In parallel,we have tested our microwell-based system for homogeneous hEB formation from dissociated human embryonic stem cells (hESCs). Successful production of homogeneous hEBs from dissociated hESCs in the absence of ROCK-i and centrifugation was achieved within an optimal range of input cell density per microwell. Both the hiPSC- and hESC-derived hEBs expressed key proteins characteristic of all the three developmental germ layers,confirming their EB identity. This novel EB production technology may represent a versatile platform for the production of homogeneous EBs from dissociated human pluripotent stem cells (hPSCs). View Publication

About half of the human genome consists of highly repetitive elements,most of which are considered dispensable for human life. Here,we report that repetitive elements originating from endogenous retroviruses (ERVs) are systematically transcribed during human early embryogenesis in a stage-specific manner. Our analysis highlights that the long terminal repeats (LTRs) of ERVs provide the template for stage-specific transcription initiation,thereby generating hundreds of co-expressed,ERV-derived RNAs. Conversion of human embryonic stem cells (hESCs) to an epiblast-like state activates blastocyst-specific ERV elements,indicating that their activity dynamically reacts to changes in regulatory networks. In addition to initiating stage-specific transcription,many ERV families contain preserved splice sites that join the ERV segment with non-ERV exons in their genomic vicinity. In summary,we find that ERV expression is a hallmark of cellular identity and cell potency that characterizes the cell populations in early human embryos. View Publication

Pluripotent human embryonic stem cells (hESCs) have the capability of differentiating into different lineages based on specific environmental cues. We had previously shown that hESCs can be primed to differentiate into either neurons or glial cells,depending on the arrangement,geometry and size of their substrate topography. In particular,anisotropically patterned substrates like gratings were found to favour the differentiation of hESCs into neurons rather than glial cells. In this study,our aim is to elucidate the underlying mechanisms of topography-induced differentiation of hESCs towards neuronal lineages. We show that high actomyosin contractility induced by a nano-grating topography is crucial for neuronal maturation. Treatment of cells with the myosin II inhibitor (blebbistatin) and myosin light chain kinase inhibitor (ML-7) greatly reduces the expression level of microtubule-associated protein 2 (MAP2). On the other hand,our qPCR array results showed that PAX5,BRN3A and NEUROD1 were highly expressed in hESCs grown on nano-grating substrates as compared to unpatterned substrates,suggesting the possible involvement of these genes in topography-mediated neuronal differentiation of hESCs. Interestingly,YAP was localized to the cytoplasm of differentiating hESCs. Taken together,our study has provided new insights in understanding the mechanotransduction of topographical cues during neuronal differentiation of hESCs. View Publication

Systemic sclerosis (SSc) is a life-threatening chronic connective tissue disease with the characteristics of skin fibrosis,vascular injury,and inflammatory infiltrations. Though inhibition of phosphodiesterase 4 (PDE4) has been turned out to be an effective strategy in suppressing inflammation through promoting the accumulation of intracellular cyclic adenosine monophosphate (cAMP),little is known about the functional modes of inhibiting PDE4 by apremilast on the process of SSc. The present research aimed to investigate the therapeutic effects and underlying mechanism of apremilast on SSc. Herein,we found that apremilast could markedly ameliorate the pathological manifestations of SSc,including skin dermal thickness,deposition of collagens,and increased expression of $\alpha$-SMA. Further study demonstrated that apremilast suppressed the recruitment and activation of macrophages and T cells,along with the secretion of inflammatory cytokines,which accounted for the effects of apremilast on modulating the pro-fibrotic processes. Interestingly,apremilast could dose-dependently inhibit the activation of M1 and T cells in vitro through promoting the phosphorylation of CREB. In summary,our research suggested that inhibiting PDE4 by apremilast might provide a novel therapeutic option for clinical treatment of SSc patients. View Publication