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

Chronic graft-versus-host disease (cGVHD) is a common late complication of allogeneic stem cell transplantation (allo-SCT). Some cGVHD patients develop skin lesions,and the skin lesions in sclerodermatous cGVHD (s-cGVHD) patients resemble those in progressive systemic sclerosis (PSS),which is characterized by impaired production of circulating endothelial progenitor cells (EPCs). We investigated,retrospectively,whether low EPC production may promote the development of sclerodermatous lesions in cGVHD. Peripheral blood (PB) was obtained from 14 healthy volunteers and 27 allo-SCT patients. Five patients developed s-cGVHD. CD34(+) cells were purified by using the magnetic cell-sorting separation system,and the CD34(+)/CD133(+)/vascular endothelial growth factor (VEGF) receptor-2(+) EPCs were quantified. The endothelial cell colony-formation potential was evaluated. Serum VEGF and basic fibroblast growth factor (b-FGF) concentrations were measured by ELISA. The s-cGVHD patients had significantly lower median circulating EPCs frequencies than non-s-cGVHD patients or control (145 of 20 mL [interquartial range-IQR 107-193] versus 1083.5 [IQR 669.3-2151]; P = .0023,and versus 1530.5 [IQR 961.3-2158]; P = .0012,respectively). They also had impaired median endothelial-forming ability compared to non-s-cGVHD patients or controls (3.8 [IQR 1.0-4.3] versus 12.8 [IQR 8.8-28.8],and versus 26.4 [IQR 23.6-30.6],respectively; P = .0012). Their VEGF and b-FGF serum levels were also higher than in controls. In conclusion,s-cGVHD patients show findings consistent with those seen in PSS with impaired vasculogenesis that may limit blood perfusion and may contribute to the development of sclerodermatous lesions. View Publication

Human pluripotent stem cells (hPSCs),including human embryonic stem cells and human-induced pluripotent stem cells,are a renewable cell source for a wide range of applications in regenerative medicine and useful tools for human disease modeling and drug discovery. For these purposes,large numbers of high-quality cells are essential. Recently,we showed that a biological substrate,recombinant E8 fragments of laminin isoforms,sustains long-term self-renewal of hPSCs in defined,xeno-free medium with dissociated single-cell passaging. Here,we describe a modified culture system with similar performance to efficiently expand hPSCs under defined,xeno-free conditions using a non-biological synthetic substrate. View Publication

Fanconi anemia (FA) is an autosomal recessive disorder characterized by progressive bone marrow failure (BMF) during childhood,aside from numerous congenital abnormalities. FA mouse models have been generated; however,they do not fully mimic the hematopoietic phenotype. As there is mounting evidence that the hematopoietic impairment starts already in utero,a human pluripotent stem cell model would constitute a more appropriate system to investigate the mechanisms underlying BMF in FA and its developmental basis. Using zinc finger nuclease (ZFN) technology,we have created a knockout of FANCA in human embryonic stem cells (hESC). We introduced a selection cassette into exon 2 thereby disrupting the FANCA coding sequence and found that whereas mono-allelically targeted cells retain an unaltered proliferation potential,disruption of the second allele causes a severe growth disadvantage. As a result,heterogeneous cultures arise due to the presence of cells still carrying an unaffected FANCA allele,quickly outgrowing the knockout cells. When pure cultures of FANCA knockout hESC are pursued either through selection or single cell cloning,this rapidly results in growth arrest and such cultures cannot be maintained. These data highlight the importance of a functional FA pathway at the pluripotent stem cell stage. ?? 2014. View Publication

Nature Genetics 47,469 (2015). doi:10.1038/ng.3258 View Publication

Expression of genes associated with inflammation was analyzed during differentiation of human pluripotent stem cells (PSCs) to hepatic cells. Messenger RNA transcript profiles of differentiated endoderm (day 5),hepatoblast (day 15) and hepatocyte-like cells (day 21) were obtained by RNA sequencing analysis. When compared to endoderm cells an immature cell type,the hepatic cells (days 15 and 21) had significantly higher expression of acute phase protein genes including complement factors,coagulation factors,serum amyloid A and serpins. Furthermore,hepatic phase of cells expressed proinflammatory cytokines IL18 and IL32 as well as cytokine receptors IL18R1,IL1R1,IL1RAP,IL2RG,IL6R,IL6ST and IL10RB. These cells also produced CCL14,CCL15,and CXCL- 1,2,3,16 and 17 chemokines. Endoderm cells had higher levels of chemokine receptors,CXCR4 and CXCR7,than that of hepatic cells. Sirtuin family of genes involved in aging,inflammation and metabolism were differentially regulated in endoderm and hepatic phase cells. Ligands and receptors of the tumor necrosis factor (TNF) family as well as downstream signaling factors TRAF2,TRAF4,FADD,NFKB1 and NFKBIB were differentially expressed during hepatic differentiation. View Publication

Strategies for improved homing of mesenchymal stem cells (MSCs) to a place of injury are being sought and it has been shown that natural killer (NK) cells can stimulate MSC recruitment. Here,we studied the chemokines behind this recruitment. Assays were performed with bone marrow human MSCs and NK cells freshly isolated from healthy donor buffy coats. Supernatants from MSC-NK cell co-cultures can induce MSC recruitment but not to the same extent as when NK cells are present. Antibody arrays and ELISA assays confirmed that NK cells secrete RANTES (CCL5) and revealed that human NK cells secrete NAP-2 (CXCL7),a chemokine that can induce MSC migration. Inhibition with specific antagonists of CXCR2,a receptor that recognizes NAP-2,abolished NK cell-mediated MSC recruitment. This capacity of NK cells to produce chemokines that stimulate MSC recruitment points toward a role for this immune cell population in regulating tissue repair/regeneration. View Publication

BACKGROUND: Embryonic stem (ES) cells self-renew as coherent colonies in which cells maintain tight cell-cell contact. Although intercellular communications are essential to establish the basis of cell-specific identity,molecular mechanisms underlying intrinsic cell-cell interactions in ES cells at the signaling level remain underexplored.backslashnbackslashnMETHODOLOGY/PRINCIPAL FINDINGS: Here we show that endogenous Rho signaling is required for the maintenance of cell-cell contacts in ES cells. siRNA-mediated loss of function experiments demonstrated that Rock,a major effector kinase downstream of Rho,played a key role in the formation of cell-cell junctional assemblies through regulation of myosin II by controlling a myosin light chain phosphatase. Chemical engineering of this signaling axis by a Rock-specific inhibitor revealed that cell-cell adhesion was reversibly controllable and dispensable for self-renewal of mouse ES cells as confirmed by chimera assay. Furthermore,a novel culture system combining a single synthetic matrix,defined medium,and the Rock inhibitor fully warranted human ES cell self-renewal independent of animal-derived matrices,tight cell contacts,or fibroblastic niche-forming cells as determined by teratoma formation assay.backslashnbackslashnCONCLUSIONS/SIGNIFICANCE: These findings demonstrate an essential role of the Rho-Rock-Myosin signaling axis for the regulation of basic cell-cell communications in both mouse and human ES cells,and would contribute to advance in medically compatible xeno-free environments for human pluripotent stem cells. View Publication

BACKGROUND: Cancer stem cells (CSCs) are thought to be responsible for tumor regeneration after chemotherapy,although direct confirmation of this remains forthcoming. We therefore investigated whether drug treatment could enrich and maintain CSCs and whether the high tumorogenic and metastatic abilities of CSCs were based on their marked ability to produce growth and angiogenic factors and express their cognate receptors to stimulate tumor cell proliferation and stroma formation. METHODOLOGY/FINDINGS: Treatment of lung tumor cells with doxorubicin,cisplatin,or etoposide resulted in the selection of drug surviving cells (DSCs). These cells expressed CD133,CD117,SSEA-3,TRA1-81,Oct-4,and nuclear beta-catenin and lost expression of the differentiation markers cytokeratins 8/18 (CK 8/18). DSCs were able to grow as tumor spheres,maintain self-renewal capacity,and differentiate. Differentiated progenitors lost expression of CD133,gained CK 8/18 and acquired drug sensitivity. In the presence of drugs,differentiation of DSCs was abrogated allowing propagation of cells with CSC-like characteristics. Lung DSCs demonstrated high tumorogenic and metastatic potential following inoculation into SCID mice,which supported their classification as CSCs. Luminex analysis of human and murine cytokines in sonicated lysates of parental- and CSC-derived tumors revealed that CSC-derived tumors contained two- to three-fold higher levels of human angiogenic and growth factors (VEGF,bFGF,IL-6,IL-8,HGF,PDGF-BB,G-CSF,and SCGF-beta). CSCs also showed elevated levels of expression of human VEGFR2,FGFR2,CXCR1,2 and 4 receptors. Moreover,human CSCs growing in SCID mice stimulated murine stroma to produce elevated levels of angiogenic and growth factors. CONCLUSIONS/SIGNIFICANCE: These findings suggest that chemotherapy can lead to propagation of CSCs and prevention of their differentiation. The high tumorigenic and metastatic potentials of CSCs are associated with efficient cytokine network production that may represent a target for increased efficacy of cancer therapy. View Publication

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Stem cells derived from pre-implantation human embryos or from somatic cells by reprogramming are pluripotent and self-renew indefinitely in culture. Pluripotent stem cells are unique in being able to differentiate to any cell type of the human body. Differentiation towards the cardiac lineage has attracted significant attention,initially with a strong focus on regenerative medicine. Although an important research area,the heart has proven challenging to repair by cardiomyocyte replacement. However,the ability to reprogramme adult cells to pluripotent stem cells and genetically manipulate stem cells presented opportunities to develop models of human disease. The availability of human cardiomyocytes from stem cell sources is expected to accelerate the discovery of cardiac drugs and safety pharmacology by offering more clinically relevant human culture models than presently available. Here we review the state-of-the-art using stem cell-derived human cardiomyocytes in drug discovery,drug safety pharmacology,and regenerative medicine. View Publication

While the determination of the trophoblast lineage and the facilitation of placental morphogenesis by trophoblast interactions with other cells of the placenta are crucial components for the establishment of pregnancy,these processes are not tractable at the time of human implantation. Embryonic stem cells (ESCs) provide an embryonic surrogate to derive insights into these processes. In this review,we will summarize current paradigms which promote trophoblast differentiation from ESCs,and potential opportunities for their use to further define signals directing morphogenesis of the placenta following implantation of the embryo into the endometrium. View Publication

Although the importance of natural killer (NK) cells in innate immune responses against tumors or viral infections are well documented,their ability to directly recognize pathogens is less well defined. We have recently reported FimH,a bacterial fimbrial protein,as a novel Toll-like receptor (TLR)4 ligand that potently induces antiviral responses. Here,we investigated whether FimH either directly or indirectly can activate human and murine NK cells. We demonstrate that FimH potently activates both human and murine NK cells in vitro to induce cytokines [interferon (IFN)-gamma and tumor necrosis factor (TNF)-alpha] and cytotoxicity. Importantly,NK cells directly recognize FimH-expressing pathogens as FimH(+),but not FimH(-),bacteria were able to activate human NK cells. FimH activation of NK cells required TLR4 and MyD88 signaling,as NK cells from both TLR4(-/-) and MyD88(-/-) mice as well as human NK-92 cells,which lack TLR4,were all unresponsive to FimH. In addition,TLR4 neutralization significantly abrogated the response of human NK cells to FimH. Activation of purified NK cells by FimH was independent of lipopolysaccharide (LPS) or other bacterial contaminations. These data demonstrate for the first time that highly purified NK cells directly recognize and respond to FimH via TLR4-MyD88 pathways to aid innate protection against cancer or microbial infections. View Publication