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

The International Stem Cell Initiative analyzed 125 human embryonic stem (ES) cell lines and 11 induced pluripotent stem (iPS) cell lines,from 38 laboratories worldwide,for genetic changes occurring during culture. Most lines were analyzed at an early and late passage. Single-nucleotide polymorphism (SNP) analysis revealed that they included representatives of most major ethnic groups. Most lines remained karyotypically normal,but there was a progressive tendency to acquire changes on prolonged culture,commonly affecting chromosomes 1,12,17 and 20. DNA methylation patterns changed haphazardly with no link to time in culture. Structural variants,determined from the SNP arrays,also appeared sporadically. No common variants related to culture were observed on chromosomes 1,12 and 17,but a minimal amplicon in chromosome 20q11.21,including three genes expressed in human ES cells,ID1,BCL2L1 and HM13,occurred in textgreater20% of the lines. Of these genes,BCL2L1 is a strong candidate for driving culture adaptation of ES cells. View Publication

Trisomy 21 is associated with hematopoietic abnormalities in the fetal liver,a preleukemic condition termed transient myeloproliferative disorder,and increased incidence of acute megakaryoblastic leukemia. Human trisomy 21 pluripotent cells of various origins,human embryonic stem (hES),and induced pluripotent stem (iPS) cells,were differentiated in vitro as a model to recapitulate the effects of trisomy on hematopoiesis. To mitigate clonal variation,we isolated disomic and trisomic subclones from the same parental iPS line,thereby generating subclones isogenic except for chromosome 21. Under differentiation conditions favoring development of fetal liver-like,γ-globin expressing,definitive hematopoiesis,we found that trisomic cells of hES,iPS,or isogenic origins exhibited a two- to fivefold increase in a population of CD43(+)(Leukosialin)/CD235(+)(Glycophorin A) hematopoietic cells,accompanied by increased multilineage colony-forming potential in colony-forming assays. These findings establish an intrinsic disturbance of multilineage myeloid hematopoiesis in trisomy 21 at the fetal liver stage. View Publication

Recent evidence suggests human embryonic stem cell (hESC) and induced pluripotent stem (iPS) cell lines have differences in their epigenetic marks and transcriptomes,yet the impact of these differences on subsequent terminally differentiated cells is less well understood. Comparison of purified,homogeneous populations of somatic cells derived from multiple independent human iPS and ES lines will be required to address this critical question. Here,we report a differentiation protocol based on embryonic development that consistently yields large numbers of endothelial cells (ECs) derived from multiple hESCs or iPS cells. Mesoderm differentiation of embryoid bodies was maximized,and defined growth factors were used to generate KDR+ EC progenitors. Magnetic purification of a KDR+ progenitor subpopulation resulted in an expanding,homogeneous pool of ECs that expressed EC markers and had functional properties of ECs. Comparison of the transcriptomes revealed limited gene expression variability between multiple lines of human iPS-derived ECs or between lines of ES- and iPS-derived ECs. These results demonstrate a method to generate large numbers of pure human EC progenitors and differentiated ECs from pluripotent stem cells and suggest individual lineages derived from human iPS cells may have significantly less variance than their pluripotent founders. STEM Cells2013;31:92–103 View Publication

Many studies have compared the genetic and epigenetic profiles of human induced pluripotent stem cells (hiPSCs) to human embryonic stem cells (hESCs) and yet the picture remains unclear. To address this,we derived a population of neural precursor cells (NPCs) from the H1 (WA01) hESC line and generated isogenic iPSC lines by reprogramming. The gene expression and methylation profile of three lines were compared to the parental line and intermediate NPC population. We found no gene probe with expression that differed significantly between hESC and iPSC samples under undifferentiated or differentiated conditions. Analysis of the global methylation pattern also showed no significant difference between the two PSC populations. Both undifferentiated populations were distinctly different from the intermediate NPC population in both gene expression and methylation profiles. One point to note is that H1 is a male line and so extrapolation to female lines should be cautioned. However,these data confirm our previous findings that there are no significant differences between hESCs and hiPSCs at the gene expression or methylation level. View Publication

ABSTRACTThe gut microbiota and the immune system are closely connected,influencing early?life brain development. Brain?derived neurotrophic factor (BDNF),crucial for neuronal development,has been demonstrated to be produced by certain immune cells. However,the modulation of BDNF during bacterial antigen and metabolite challenge remains elusive. We investigate the effects of bacterial?derived antigens and metabolites on BDNF secretion in human PBMCs. Although BDNF levels were altered during stimulation,a specific cellular origin of BDNF within PBMCs was indeterminate. Positive magnetic separation of monocytes eliminated both the stimulant?induced BDNF secretion and reduced monocyte?platelet aggregates. Conversely,elevated platelet counts significantly increased BDNF levels,indicating that platelets,when interacting with monocytes and exposed to bacterial antigens,are likely the dominant source of BDNF in PBMC cultures. As previously described,platelets are a crucial source of circulating peripheral blood BDNF. Our findings emphasize the importance of the interplay between immune?blood cell complexes during microbial stimulation in regulating BDNF levels. This highlights the necessity of investigating such interactions to better understand the early?life gut?brain axis. Bacterial antigens primarily induce BDNF release from platelets interacting with monocytes in PBMCs. This interplay underscores how immune?blood cell complexes shape BDNF levels which may impact early human development. View Publication

The embryonic microenvironment is well known to be non-permissive for tumor development because early developmental signals naturally suppress the expression of proto-oncogenes. In an analogous manner,mimicking an early embryonic environment during embryonic stem cell culture has been shown to suppress oncogenic phenotypes of cancer cells. Exosomes derived from human embryonic stem cells harbor substances that mirror the content of the cells of origin and have been reported to reprogram hematopoietic stem/progenitor cells via horizontal transfer of mRNA and proteins. However,the possibility that these embryonic stem cells-derived exosomes might be the main effectors of the anti-tumor effect mediated by the embryonic stem cells has not been explored yet. The present study aims to investigate whether exosomes derived from human embryonic stem cells can reprogram malignant cancer cells to a benign stage and reduce their tumorigenicity. We show that the embryonic stem cell-conditioned medium contains factors that inhibit cancer cell growth and tumorigenicity in vitro and in vivo. Moreover,we demonstrate that exosomes derived from human embryonic stem cells display anti-proliferation and pro-apoptotic effects,and decrease tumor size in a xenograft model. These exosomes are also able to transfer their cargo into target cancer cells,inducing a dose-dependent increase in SOX2,OCT4 and Nanog proteins,leading to a dose-dependent decrease of cancer cell growth and tumorigenicity. This study shows for the first time that human embryonic stem cell-derived exosomes play an important role in the tumor suppressive activity displayed by human embryonic stem cells. View Publication

OBJECTIVE: Various preparative protocols have been proposed for the acquisition and cultivation of mesenchymal stem cells (MSC). Whereas surface antigen markers have failed to precisely define this population,microarray analysis might provide a better tool for characterization of MSC. METHODS: In this study,we have analyzed global gene expression profiles of human MSC isolated from adipose tissue (AT),from umbilical cord blood (CB),and from bone marrow (BM) under two growth conditions and have compared them to terminally differentiated human fibroblasts (HS68). Profiles were compared using our Human Genome Microarray representing 51.144 different cDNA clones. RESULTS: Cultured with the appropriate conditions,osteogenic and adipogenic differentiation could be confirmed in all MSC preparations but not in fibroblasts. No phenotypic differences were observed by flow cytometry using a panel of 22 surface antigen markers. Whereas MSC derived from different donors using the same culture procedure yielded a consistent and reproducible gene expression profile,many genes were differentially expressed in MSC from different ontogenetic sources or from different culture conditions. Twenty-five genes were overlapping and upregulated in all MSC preparations from AT,CB,and BM as compared to HS68 fibroblasts. These genes included fibronectin,ECM2,glypican-4,ID1,NF1B,HOXA5,and HOXB6. Many genes upregulated in MSC are involved in extracellular matrix,morphogenesis,and development,whereas several inhibitors of the Wnt pathway (DKK1,DKK3,SFRP1) were highly expressed in fibroblasts. CONCLUSION: Our results have provided a foundation for a more reproducible and reliable quality control using genotypic analysis for defining MSC. View Publication

The active movement of cells from subendothelial compartments into the bloodstream (intravasation) has been recognized for several decades by histologic and physiologic studies,yet the molecular effectors of this process are relatively uncharacterized. For extravasation,studies based predominantly on static transwell assays support a general model,whereby transendothelial migration (TEM) occurs via chemoattraction toward increasing chemokine concentrations. However,this model of chemotaxis cannot readily reconcile how chemokines influence intravasation,as shear forces of blood flow would likely abrogate luminal chemokine gradient(s). Thus,to analyze how T cells integrate perivascular chemokine signals under physiologic flow,we developed a novel transwell-based flow chamber allowing for real-time modulation of chemokine levels above (luminal/apical compartment) and below (abluminal/subendothelial compartment) HUVEC monolayers. We routinely observed human T cell TEM across HUVEC monolayers with the combination of luminal CXCL12 and abluminal CCL5. With increasing concentrations of CXCL12 in the luminal compartment,transmigrated T cells did not undergo retrograde transendothelial migration (retro-TEM). However,when exposedto abluminal CXCL12,transmigrated T cells underwent striking retro-TEM and re-entered the flow stream [corrected]. This CXCL12 fugetactic (chemorepellant) effect was concentration-dependent,augmented by apical flow,blocked by antibodies to integrins,and reduced by AMD3100 in a dose-dependent manner. Moreover,CXCL12-induced retro-TEM was inhibited by PI3K antagonism and cAMP agonism. These findings broaden our understanding of chemokine biology and support a novel paradigm by which temporospatial modulations in subendothelial chemokine display drive cell migration from interstitial compartments into the bloodstream. View Publication

Extracorporeal photochemotherapy (ECP) is widely used to treat cutaneous T-cell lymphoma,graft-versus-host disease,and allografted organ rejection. Its clinical and experimental efficacy in cancer immunotherapy and autoreactive disorders suggests a novel mechanism. This study reveals that ECP induces a high percentage of processed monocytes to enter the antigen-presenting dendritic cell (DC) differentiation pathway,within a single day,without added cytokines,as determined by enhanced expression of relevant genes. The resulting DCs are capable of processing and presentation of exogenous and endogenous antigen and are largely maturationally synchronized,as assessed by the level of expression of costimulatory surface molecules. Principal component analysis of the ECP-induced monocyte transcriptome reveals that activation or suppression of more than 1100 genes produces a reproducible distinctive molecular signature,common to ECP-processed monocytes from normal subjects,and those from patients. Because ECP induces normal monocytes to enter the DC differentiation pathway,this phenomenon is independent of disease state. The efficiency with which ECP stimulates new functional DCs supports the possibility that these cells participate prominently in the clinical successes of the treatment. Appropriately modified by future advances,ECP may potentially offer a general source of therapeutic DCs. View Publication

BACKGROUND AND PURPOSE: Teratogenic substances induce adverse effects during the development of the embryo. Multilineage differentiation of human embryonic stem cells (hESCs) mimics the development of the embryo in vitro. Here,we propose a transcriptomic approach in hESCs for monitoring specific toxic effects of compounds as an alternative to traditional time-consuming and cost-intensive in vivo tests requiring large numbers of animals. This study was undertaken to explore the adverse effects of cytosine arabinoside (Ara-C) on randomly differentiated hESCs.backslashnbackslashnEXPERIMENTAL APPROACH: Human embryonic stem cells were used to investigate the effects of a developmental toxicant Ara-C. Sublethal concentrations of Ara-C were given for two time points,day 7 and day 14 during the differentiation. Gene expression was assessed with microarrays to determine the dysregulated transcripts in presence of Ara-C.backslashnbackslashnKEY RESULTS: Randomly differentiated hESCs were able to generate the multilineage markers. The low concentration of Ara-C (1 nM) induced the ectoderm and inhibited the mesoderm at day 14. The induction of ectodermal markers such as MAP2,TUBB III,PAX6,TH and NESTIN was observed with an inhibition of mesodermal markers such as HAND2,PITX2,GATA5,MYL4,TNNT2,COL1A1 and COL1A2. In addition,no induction of apoptosis was observed. Gene ontology revealed unique dysregulated biological process related to neuronal differentiation and mesoderm development. Pathway analysis showed the axon guidance pathway to be dysregulated.backslashnbackslashnCONCLUSIONS AND IMPLICATIONS: Our results suggest that hESCs in combination with toxicogenomics offer a sensitive in vitro developmental toxicity model as an alternative to traditional animal experiments. View Publication

Two monoclonal antibodies,BA16 and BA17,have been developed using a detergent-insoluble extract of human mammary epithelial organoids as immunogen. Indirect immunofluorescent staining of cultured cells showed that the component reacting with the antibodies was filamentous and the intensity of staining was stronger in mitotic cells. Immunoblotting of cell extracts showed that both antibodies react with only one band of 40 X 10(3) molecular weight,which was present in keratin-enriched extracts of cells or organoids. Furthermore,the tissue distribution of the component reacting with the antibodies was that predicted for human keratin 19. The antibodies showed differences in the intensity of staining of cells or tissue sections fixed and prepared in different ways indicating that they reacted with different epitopes. The pattern of expression of the 40 X 10(3) Mr keratin by normal mammary epithelial cells was investigated by immunoperoxidase staining of tissue sections,cultured milk cells,and organoids of different sizes cultured in collagen gels. It was found that basal or myoepithelial cells did not express this keratin. Some heterogeneity of expression of this component was seen in luminal epithelial cells,found almost exclusively in the smaller structures. These cells did,however,express other keratins characteristic of luminal cells. The distribution in the mammary tree of the luminal cells that did not express the 40 X 10(3) Mr keratin appears to be similar to that expected for cells with the proliferative potential to produce new terminal ductal lobular units or an increase in branching of existing terminal ductal lobular units. It is shown that these cells have considerable proliferative potential by the fact that they form large colonies in milk cell cultures. View Publication