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

AbstractIntroduction
Preeclampsia and other placental pathologies are characterized by a lack of spiral artery remodeling associated with insufficient invasion by extravillous trophoblast cells (EVT). Because trophoblast invasion occurs in early pregnancy when access to human placental tissue is limited,there is a need for model systems for the study of trophoblast differentiation and invasion. Human embryonic stem cells (hESC) treated with BMP4- differentiate to trophoblast,and express HLA-G,a marker of EVT. The goals of the present study were to further characterize the HLA-G+ cells derived from BMP4-treated hESC,and determine their suitability as a model.
Methods
HESC were treated with BMP4 under 4% or 20% oxygen and tested in Matrigel invasion chambers. Both BMP4-treated hESC and primary human placental cells were separated into HLA-G+ and HLA-G−/TACSTD2+ populations with immunomagnetic beads and expression profiles analyzed by microarray.
Results
There was a 10-fold increase in invasion when hESC were BMP4-treated. There was also an independent,stimulatory effect of oxygen on this process. Invasive cells expressed trophoblast marker KRT7,and the majority were also HLA-G+. Gene expression profiles revealed that HLA-G+,BMP4-treated hESC were similar to,but distinct from,HLA-G+ cells isolated from first trimester placentas. Whereas HLA-G+ and HLA-G− cells from first trimester placentas had highly divergent gene expression profiles,HLA-G+ and HLA-G− cells from BMP4-treated hESC had somewhat similar profiles,and both expressed genes characteristic of early trophoblast development.
Conclusions
We conclude that hESC treated with BMP4 provide a model for studying transition to the EVT lineage. View Publication

Recently,induced pluripotent stem cells (iPSCs) were established as promising cell sources for revolutionary regenerative therapies. The initial culture system used for iPSC generation needed fetal calf serum in the culture medium and mouse embryonic fibroblast as a feeder layer,both of which could possibly transfer unknown exogenous antigens and pathogens into the iPSC population. Therefore,the development of culture systems designed to minimize such potential risks has become increasingly vital for future applications of iPSCs for clinical use. On another front,although donor cell types for generating iPSCs are wide-ranging,T cells have attracted attention as unique cell sources for iPSCs generation because T cell-derived iPSCs (TiPSCs) have a unique monoclonal T cell receptor genomic rearrangement that enables their differentiation into antigen-specific T cells,which can be applied to novel immunotherapies. In the present study,we generated transgene-free human TiPSCs using a combination of activated human T cells and Sendai virus under defined culture conditions. These TiPSCs expressed pluripotent markers by quantitative PCR and immunostaining,had a normal karyotype,and were capable of differentiating into cells from all three germ layers. This method of TiPSCs generation is more suitable for the therapeutic application of iPSC technology because it lowers the risks associated with the presence of undefined,animal-derived feeder cells and serum. Therefore this work will lead to establishment of safer iPSCs and extended clinical application. View Publication

A large membrane proteinase 3 (mPR3)-positive neutrophil subset (mPR3high) is a risk for Wegener's granulomatosis (WG). The relationship between mPR3 expression and clinical manifestations was investigated in 81 WG patients and mPR3 expression was studied in CD34+ stem cell-derived human neutrophils. The mPR3high neutrophil percentage correlated with renal function,anemia,and albumin at the time of presentation. The mPR3high neutrophil percentage and renal failure severity correlated directly after 5 yr. For elucidating mechanisms that govern mPR3 expression,studies were conducted to determine whether the genetic information that governs mPR3 expression resides within the neutrophils,even without stimuli possibly related to disease. CD34+ hematopoietic stem cells were differentiated to neutrophils,and their mPR3 expression was determined. A two-step amplification/differentiation protocol was used to differentiate human CD34+ hematopoietic stem cells into neutrophils with G-CSF. The cells progressively expressed the neutrophil surface markers CD66b,CD35,and CD11b. The ferricytochrome C assay demonstrated a strong respiratory burst at day 14 in response to PMA but none at day 0. Intracellular PR3 was detectable from day 4 by Western blotting. An increasing percentage of a mPR3-positive neutrophil subset became detectable by flow cytometry,whereas a second subset remained negative,consistent with a bimodal expression. Finally,human PR3-anti-neutrophil cytoplasmic autoantibodies induced a stronger respiratory burst,compared with human control IgG in stem cell-derived neutrophils. Taken together,these studies underscore the clinical importance of the WG mPR3 phenotype. The surface mPR3 on resting cells is probably genetically determined rather than being dictated by external factors. View Publication

Stem cells hold great promise for therapies aimed at regenerating damaged tissue,drug screening and studying in vitro models of human disease. However,many challenges remain before these applications can become a reality. One such challenge is developing chemically defined and scalable culture conditions for derivation and expansion of clinically viable human pluripotent stem cells,as well as controlling their differentiation with high specificity. Interaction of stem cells with their extracellular microenvironment plays an important role in determining their differentiation commitment and functions. Regenerative medicine approaches integrating cell-matrix and cell-cell interactions,and soluble factors could lead to development of robust microenvironments to control various cellular responses. Indeed,several of these recent developments have provided significant insight into the design of microenvironments that can elicit the targeted cellular response. In this article,we will focus on some of these developments with an emphasis on matrix-mediated expansion of human pluripotent stem cells while maintaining their pluripotency. We will also discuss the role of matrix-based cues and cell-cell interactions in the form of soluble signals in directing stem cell differentiation into musculoskeletal lineages. View Publication

Pluripotent or multipotent cell-based therapeutics are vital for skeletal reconstruction in non-healing critical-sized defects since the local endogenous progenitor cells are not often adequate to restore tissue continuity or function. However,currently available cell-based regenerative strategies are hindered by numerous obstacles including inadequate cell availability,painful and invasive cell-harvesting procedures,and tumorigenesis. Previously,we established a novel platform technology for inducing a quiescent stem cell-like stage using only a single extracellular proteoglycan,fibromodulin (FMOD),circumventing gene transduction. In this study,we further purified and significantly increased the reprogramming rate of the yield multipotent FMOD reprogrammed (FReP) cells. We also exposed the 'molecular blueprint' of FReP cell osteogenic differentiation by gene profiling. Radiographic analysis showed that implantation of FReP cells into a critical-sized SCID mouse calvarial defect,contributed to the robust osteogenic capability of FReP cells in a challenging clinically relevant traumatic scenario in vivo. The persistence,engraftment,and osteogenesis of transplanted FReP cells without tumorigenesis in vivo were confirmed by histological and immunohistochemical staining. Taken together,we have provided an extended potency,safety,and molecular profile of FReP cell-based bone regeneration. Therefore,FReP cells present a high potential for cellular and gene therapy products for bone regeneration. View Publication

Despite many years of intensive effort,there is surprisingly little consensus on the most suitable markers with which to locate and isolate stem cells from adult tissues. By comparison,the study of cancer stem cells is still in its infancy; so,unsurprisingly,there is great uncertainty as to the identity of these cells. Stem cell markers can be broadly categorized into molecular determinants of self-renewal,clonogenicity,multipotentiality,adherence to the niche,and longevity. This review assesses the utility of recognizing cancer stem cells by virtue of high expression of aldehyde dehydrogenases (ALDHs),probably significant determinants of cell survival through their ability to detoxify many potentially cytotoxic molecules,and contributing to drug resistance. Antibodies are available against the ALDH enzyme family,but the vast majority of studies have used cell sorting techniques to enrich for cells expressing these enzymes. Live cells expressing high ALDH activity are usually identified by the ALDEFLUOR kit and sorted by fluorescence activated cell sorting (FACS). For many human tumours,but notably breast cancer,cell selection based upon ALDH activity appears to be a useful marker for enriching for cells with tumour-initiating activity (presumed cancer stem cells) in immunodeficient mice,and indeed the frequency of so-called ALDH(bri) cells in many tumours can be an independent prognostic indicator. View Publication

The paired box transcription factor Pax7 was isolated by representational difference analysis as a gene specifically expressed in cultured satellite cell-derived myoblasts. In situ hybridization revealed that Pax7 was also expressed in satellite cells residing in adult muscle. Cell culture and electron microscopic analysis revealed a complete absence of satellite cells in Pax7(-/-) skeletal muscle. Surprisingly,fluorescence-activated cell sorting analysis indicated that the proportion of muscle-derived stem cells was unaffected. Importantly,stem cells from Pax7(-/-) muscle displayed almost a 10-fold increase in their ability to form hematopoietic colonies. These results demonstrate that satellite cells and muscle-derived stem cells represent distinct cell populations. Together these studies suggest that induction of Pax7 in muscle-derived stem cells induces satellite cell specification by restricting alternate developmental programs. View Publication

In recent years,studies of cancer development and recurrence have been influenced by the cancer stem cells (CSCs)/cancer-initiating cells (CICs) hypothesis. According to this,cancer is sustained by highly positioned,chemoresistant cells with extensive capacity of self renewal,which are responsible for disease relapse after chemotherapy. Growth of cancer cells as three-dimensional non-adherent spheroids is regarded as a useful methodology to enrich for cells endowed with CSC-like features. We have recently reported that cell cultures derived from malignant pleural effusions (MPEs) of patients affected by adenocarcinoma of the lung are able to efficiently form spheroids in non-adherent conditions supplemented with growth factors. By expression profiling,we were able to identify a set of genes whose expression is significantly upregulated in lung tumor spheroids versus adherent cultures. One of the most strongly upregulated gene was stearoyl-CoA desaturase (SCD1),the main enzyme responsible for the conversion of saturated into monounsaturated fatty acids. In the present study,we show both by RNA interference and through the use of a small molecule inhibitor that SCD1 is required for lung cancer spheroids propagation both in stable cell lines and in MPE-derived primary tumor cultures. Morphological examination and image analysis of the tumor spheroids formed in the presence of SCD1 inhibitors showed a different pattern of growth characterized by irregular cell aggregates. Electron microscopy revealed that the treated spheroids displayed several features of cellular damage and immunofluorescence analysis on optical serial sections showed apoptotic cells positive for the M30 marker,most of them positive also for the stemness marker ALDH1A1,thus suggesting that the SCD1 inhibitor is selectively killing cells with stem-like properties. Furthermore,SCD1-inhibited lung cancer cells were strongly impaired in their in vivo tumorigenicity and ALDH1A1 expression. These results suggest that SCD1 is a critical target in lung cancer tumor-initiating cells. View Publication

A cDNA clone coding for a functional human prostanoid FP receptor has been isolated from a uterus cDNA library. The human FP receptor consists of 359 amino acid residues with a predicted molecular mass of 40,060,and has the seven putative transmembrane domains characteristic of G-protein-coupled receptors. Challenge of Xenopus oocytes expressing the FP receptor with 10 nM of either prostaglandin (PG) F2 alpha or the selective FP-receptor agonist fluprostenol resulted in an elevation in intracellular Ca2+. Radioreceptor binding studies using membranes prepared from mammalian COS cells transfected with the FP receptor cDNA showed that the rank order of potency for prostaglandins and prostaglandin analogs in competition for [3H]PGF2 alpha specific binding sites was as predicted for the FP receptor,with PGF2 alpha approximately fluprostenol textgreater PGD2 textgreater PGE2 textgreater U46619 textgreater iloprost. In summary,we have cloned the human prostanoid FP receptor which is functionally coupled to the Ca2+ signalling pathway. View Publication

Human pluripotent stem cells (PSCs) are critical in vitro tools forbackslashnunderstanding mechanisms that regulate lineage differentiation inbackslashnthe human embryo as well as a potentially unlimited supply of stembackslashncells for regenerative medicine. Pluripotent human and mouse embryonicbackslashnstem cells (ESCs) derived from the inner cell mass of blastocystsbackslashnshare a similar transcription factor network to maintain pluripotencybackslashnand self-renewal,yet there are considerable molecular differencesbackslashnreflecting the diverse environments in which mouse and human ESCsbackslashnare derived. In the current study we evaluated the role of Proteinbackslashnarginine methyltransferase 5 (PRMT5) in human ESC (hESC) self-renewalbackslashnand pluripotency given its critical role in safeguarding mouse ESCbackslashnpluripotency. Unlike the mouse,we discovered that PRMT5 has no rolebackslashnin hESC pluripotency. Using microarray analysis we discovered thatbackslashna significant depletion in PRMT5 RNA and protein from hESCs changedbackslashnthe expression of only 78 genes,with the majority being repressed.backslashnFunctionally,we discovered that depletion of PRMT5 had no effectbackslashnon expression of OCT4,NANOG or SOX2,and did not prevent teratomabackslashnformation. Instead,we show that PRMT5 functions in hESCs to regulatebackslashnproliferation in the self-renewing state by regulating the fractionbackslashnof cells in Gap 1 (G1) of the cell cycle and increasing expressionbackslashnof the G1 cell cycle inhibitor P57. Taken together our data unveilsbackslashna distinct role for PRMT5 in hESCs and identifies P57 as new target. View Publication

We examined the stem cell compartment of patients with acquired aplastic anemia (AA) using the long-term culture-initiating cell assay (LTC-IC),in parallel with measurements of CD34+ cells and mature hematopoietic progenitors. Secondary colonies from cells surviving 5 weeks of long-term bone marrow culture (LTBMC) were determined for the peripheral blood (PB) of 68 AA patients and 13 normal controls and for BM of 49 AA patients and 14 controls; because of low cell numbers,formal limiting dilution analysis could only be performed in 10 patients. The relationship of cell input in LTBMC and the output of secondary colonies was linear,allowing quantification of LTC-IC number from bulk cultures. Secondary colony formation was markedly abnormal in severe AA. In contrast to 7.8 colony-forming cells (CFC)/10(5) mononuclear cells in normal BM and 0.14 CFC/10(5) normal PB mononuclear cells,patients with severe disease showed 0.024 CFC/10(5) in BM and 0.0068 CFC/10(5) in PB. Under limiting dilution conditions,patients' cells also showed markedly lower colony-forming ability. In contrast to 4.3 +/- 1 colonies/normal LTC-IC,we obtained only 1.27 +/- 0.09 and 2.0 +/- 0.35 colonies from BM of acute and recovered cases,respectively. These values were used to extrapolate LTC-IC numbers from secondary colony formation in suspension cultures. In PB,calculated LTC-IC were decreased 7.4-fold in new and relapsed severe AA and 2.8-fold in recovered AA. In BM,LTC-IC were decreased 10-fold in new and relapsed AA and sixfold in recovered cases. Compared with measurements obtained on presentation,LTC-IC were lower in post-treatment samples from patients who had failed to recover after intensive immunosuppression and relatively higher in cases at relapse. In recovered patients,LTC-IC number increased but remained below the normal range in 20 of 25. In patients studied serially for 3 to 12 months after treatment,LTC-IC numbers remained stable but low. LTC-IC number correlated with concurrently determined CD34+ cell number and primary hematopoietic colony formation. These results indicate that stem cell numbers,as quantitated by the LTC-IC assay,are markedly diminished in number in all severe AA. Additionally,the function of the stem cell or the stem cell compartment in AA is also abnormal,as inferred from the low clonogenic potential in secondary colony assays. Early hematologic improvement in some patients occurs without increasing numbers of LTC-IC,and a minority of recovered cases show apparent repopulation of the LTC-IC compartment years after treatment. View Publication

We have generated Tie2Cre+alpha4(f/f) mice with documented alpha4-integrin ablation in hematopoietic and endothelial cells. A prominent feature in this model is a sustained,significant increase in circulating progenitors at levels higher than the levels seen with Tie2Cre+VCAM-1(f/f) mice. To test whether phenotypic differences are due to contributions by ligands other than VCAM-1 in bone marrow,or to alpha4-deficient endothelial cells or pericytes,we carried out transplantation experiments using these mice as donors or as recipients. Changes in progenitor biodistribution after transplantation were seen only with alpha4-deficient donor cells,suggesting that these cells were necessary and sufficient to reproduce the phenotype with no discernible contribution by alpha4-deficient nonhematopoietic cells. Because several similarities are seen after transplantation between our results and those with CXCR4-/- donor cells,the data suggest that VLA4/VCAM-1 and CXCR4/CXCL12 pathways contribute to a nonredundant,ongoing signaling required for bone marrow retention of progenitor cells during homeostasis. View Publication