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

This report describes the establishment directly from normal preimplantation mouse embryos of a cell line that forms teratocarcinomas when injected into mice. The pluripotency of these embryonic stem cells was demonstrated conclusively by the observation that subclonal cultures,derived from isolated single cells,can differentiate into a wide variety of cell types. Such embryonic stem cells were isolated from inner cell masses of late blastocysts cultured in medium conditioned by an established teratocarcinoma stem cell line. This suggests that such conditioned medium might contain a growth factor that stimulates the proliferation or inhibits the differentiation of normal pluripotent embryonic cells,or both. This method of obtaining embryonic stem cells makes feasible the isolation of pluripotent cells lines from various types of noninbred embryo,including those carrying mutant genes. The availability of such cell lines should made possible new approaches to the study of early mammalian development. View Publication

Human pluripotent stem cells (hPSCs) have the potential for unlimited expansion and differentiation into cell types of all three germ layers. Cryopreservation is a key process for successful application of hPSCs. However,the current conventional method leads to poor recovery of hPSCs after thawing. Here,we demonstrate a highly efficient recovery method for hPSC cryopreservation by slow freezing and single-cell dissociation. After confirming hPSC survivability after freeze-thawing,we found that hPSCs that were freeze-thawed as colonies showed markedly decreased survival,whereas freeze-thawed single hPSCs retained the majority of their viability. These observations indicated that hPSCs should be cryopreserved as single cells. Freeze-thawed single hPSCs efficiently adhered and survived in the absence of a ROCK inhibitor by optimization of the seeding density. The high recovery rate enabled conventional colony passaging for subculture within 3 days post-thawing. The improved method was also adapted to a xeno-free culture system. Moreover,the cell recovery postcryopreservation was highly supported by coating culture surfaces with human laminin-521 that promotes adhesion of dissociated single hPSCs. This simplified but highly efficient cryopreservation method allows easy handling of cells and bulk storage of high-quality hPSCs. View Publication

Human embryonic stem cells (hESC) and induced pluripotent stem cells (hiPSC) assert a great future for the cardiovascular diseases,both to study them and to explore therapies. However,a comprehensive assessment of the viral vectors used to modify these cells is lacking. In this study,we aimed to compare the transduction efficiency of recombinant adeno-associated vectors (AAV),adenoviruses and lentiviral vectors in hESC,hiPSC,and the derived cardiomyocytes. In undifferentiated cells,adenoviral and lentiviral vectors were superior,whereas in differentiated cells AAV surpassed at least lentiviral vectors. We also tested four AAV serotypes,1,2,6,and 9,of which 2 and 6 were superior in their transduction efficiency. Interestingly,we observed that AAVs severely diminished the viability of undifferentiated cells,an effect mediated by induction of cell cycle arrest genes and apoptosis. Furthermore,we show that the transduction efficiency of the different viral vectors correlates with the abundance of their respective receptors. Finally,adenoviral delivery of the calcium-transporting ATPase SERCA2a to hESC and hiPSC-derived cardiomyocytes successfully resulted in faster calcium reuptake. In conclusion,adenoviral vectors prove to be efficient for both differentiated and undifferentiated lines,whereas lentiviral vectors are more applicable to undifferentiated cells and AAVs to differentiated cells. View Publication

Interleukin-17A (IL-17A) and IL-17F are 2 of several cytokines produced by T helper 17 cells (Th17),which are able to indirectly induce the recruitment of neutrophils. Recently,human Th17 cells have been phenotypically characterized and shown to express discrete chemokine receptors,including CCR2 and CCR6. Herein,we show that highly purified neutrophils cultured with interferon-gamma plus lipopolysaccharide produce the CCL2 and CCL20 chemokines,the known ligands of CCR2 and CCR6,respectively. Accordingly,supernatants from activated neutrophils induced chemotaxis of Th17 cells,which was greatly suppressed by anti-CCL20 and anti-CCL2 antibodies. We also discovered that activated Th17 cells could directly chemoattract neutrophils via the release of biologically active CXCL8. Consistent with this reciprocal recruitment,neutrophils and Th17 cells were found in gut tissue from Crohn disease and synovial fluid from rheumatoid arthritis patients. Finally,we report that,although human Th17 cells can directly interact with freshly isolated or preactivated neutrophils via granulocyte-macrophage colony-stimulating factor,tumor necrosis factor-alpha,and interferon-gamma release,these latter cells cannot be activated by IL-17A and IL-17F,because of their lack of IL-17RC expression. Collectively,our results reveal a novel chemokine-dependent reciprocal cross-talk between neutrophils and Th17 cells,which may represent a useful target for the treatment of chronic inflammatory diseases. View Publication

Human embryonic stem cells (hESCs),due to their self-renewal capacity and pluripotency,have become a potential source of transplantable $\$-cells for the treatment of diabetes. However,it is imperative that the derived cells fulfill the criteria for clinical treatment. In this study,we replaced common Matrigel with a synthetic peptide-acrylate surface (Synthemax) to expand undifferentiated hESCs and direct their differentiation in a defined and serum-free medium. We confirmed that the cells still expressed pluripotent markers,had the ability to differentiate into three germ layers,and maintained a normal karyotype after 10 passages of subculture. Next,we reported an efficient protocol for deriving nearly 86% definitive endoderm cells from hESCs under serum-free conditions. Moreover,we were able to obtain insulin-producing cells within 21 days following a simple three-step protocol. The results of immunocytochemical and quantitative gene expression analysis showed that the efficiency of induction was not significantly different between the Synthemax surface and the Matrigel-coated surface. Thus,we provided a totally defined condition from hESC culture to insulin-producing cell differentiation,and the derived cells could be a therapeutic resource for diabetic patients in the future. View Publication

Embryonic stem cells are self-renewing pluripotent cells with competency to differentiate into all three-germ lineages. Many studies have demonstrated the importance of genetic and epigenetic molecular mechanisms in the maintenance of self-renewal and pluripotency. Stem cells are under unique molecular and cellular regulations different from somatic cells. Proper regulation should be ensured to maintain their unique self-renewal and undifferentiated characteristics. Understanding key mechanisms in stem cell biology will be important for the successful application of stem cells for regenerative therapeutic medicine. More importantly practical use of stem cells will require our knowledge on how to properly direct and differentiate stem cells into the necessary type of cells. Embryonic stem cells and adult stem cells have been used as study models to unveil molecular and cellular mechanisms in various signaling pathways. They are especially beneficial to developmental studies where in vivo molecular/cellular study models are not available. We have derived neural stem cells from human embryonic stem cells as a model to study the effect of teratogen in neural development. We have tested commercial neural differentiation system and successfully derived neural precursor cells exhibiting key molecular features of neural stem cells,which will be useful for experimental application. View Publication

Retrovirus-mediated transduction of Hoxb4 enhances hematopoietic stem cell (HSC) activity and enforced expression of Hoxb4 induces in vitro development of HSCs from differentiating mouse embryonic stem cells,but the underlying molecular mechanism remains unclear. We previously showed that the HSC activity was abrogated by accumulated Geminin,an inhibitor for the DNA replication licensing factor Cdt1 in mice deficient in Rae28 (also known as Phc1),which encodes a member of Polycomb-group complex 1. In this study we found that Hoxb4 transduction reduced accumulated Geminin in Rae28-deficient mice,despite increasing the mRNA,and restored the impaired HSC activity. Supertransduction of Geminin suppressed the HSC activity induced by Hoxb4 transduction,whereas knockdown of Geminin promoted the clonogenic and replating activities,indicating the importance of Geminin regulation in the molecular mechanism underlying Hoxb4 transduction-mediated enhancement of the HSC activity. This facilitated our investigation of how transduced Hoxb4 reduced Geminin. We showed in vitro and in vivo that Hoxb4 and the Roc1 (also known as Rbx1)-Ddb1-Cul4a ubiquitin ligase core component formed a complex designated as RDCOXB4,which acted as an E3 ubiquitin ligase for Geminin and down-regulated Geminin through the ubiquitin-proteasome system. Down-regulated Geminin and the resultant E2F activation may provide cells with proliferation potential by increasing a DNA prereplicative complex loaded onto chromatin. Here we suggest that transduced Hoxb4 down-regulates Geminin protein probably by constituting the E3 ubiquitin ligase for Geminin to provide hematopoietic stem and progenitor cells with proliferation potential. View Publication

Ex vivo expansion of hematopoietic stem cells (HSCs) has been explored in the fields of stem cell biology,gene therapy,and clinical transplantation. Here,we demonstrate efficient ex vivo expansion of HSCs measured by long-term severe combined immunodeficient (SCID) repopulating cells (SRCs) from human cord blood CD133-sorted cells using a soluble form of Delta1. After a 3-week culture on immobilized Delta1 supplemented with stem cell factor,thrombopoietin,Flt-3 ligand,interleukin (IL)-3,and IL-6/soluble IL-6 receptor chimeric protein (FP6) in a serum- and stromal cell-free condition,we achieved approximately sixfold expansion of SRCs when evaluated by limiting dilution/transplantation assays. The maintenance of full multipotency and self-renewal capacity during culture was confirmed by transplantation to nonobese diabetic/SCID/gammac(null) mice,which showed myeloid,B,T,and natural killer cells as well as CD133(+)CD34(+) cells,and hematopoietic reconstitution in the secondary recipients. Interestingly,the CD133-sorted cells contained approximately 4.5 times more SRCs than the CD34-sorted cells. The present study provides a promising method to expand HSCs and encourages future trials on clinical transplantation. View Publication

Angiotensin I-converting enzyme (ACE) inhibitors can affect hematopoiesis by several mechanisms including inhibition of angiotensin II formation and increasing plasma concentrations of AcSDKP (acetyl-N-Ser-Asp-Lys-Pro),an ACE substrate and a negative regulator of hematopoiesis. We tested whether ACE inhibition could decrease the hematopoietic toxicity of lethal or sublethal irradiation protocols. In all cases,short treatment with the ACE inhibitor perindopril protected against irradiation-induced death. ACE inhibition accelerated hematopoietic recovery and led to a significant increase in platelet and red cell counts. Pretreatment with perindopril increased bone marrow cellularity and the number of hematopoietic progenitors (granulocyte macrophage colony-forming unit [CFU-GM],erythroid burst-forming unit [BFU-E],and megakaryocyte colony-forming unit [CFU-MK]) from day 7 to 28 after irradiation. Perindopril also increased the number of hematopoietic stem cells with at least a short-term reconstitutive activity in animals that recovered from irradiation. To determine the mechanism of action involved,we evaluated the effects of increasing AcSDKP plasma concentrations and of an angiotensin II type 1 (AT1) receptor antagonist (telmisartan) on radioprotection. We found that the AT1-receptor antagonism mediated similar radioprotection as the ACE inhibitor. These results suggest that ACE inhibitors and AT1-receptor antagonists could be used to decrease the hematopoietic toxicity of irradiation. View Publication

Ex vivo culture of human hematopoietic cells is a crucial component of many therapeutic applications. Although current culture conditions have been optimized using quantitative in vitro progenitor assays,knowledge of the conditions that permit maintenance of primitive human repopulating cells is lacking. We report that primitive human cells capable of repopulating nonobese diabetic (NOD)/severe combined immunodeficiency (SCID) mice (SCID-repopulating cells; SRC) can be maintained and/or modestly increased after culture of CD34+CD38- cord blood cells in serum-free conditions. Quantitative analysis demonstrated a 4- and 10-fold increase in the number of CD34+CD38- cells and colony-forming cells,respectively,as well as a 2- to 4-fold increase in SRC after 4 d of culture. However,after 9 d of culture,all SRC were lost,despite further increases in total cells,CFC content,and CD34+ cells. These studies indicate that caution must be exercised in extending the duration of ex vivo cultures used for transplantation,and demonstrate the importance of the SRC assay in the development of culture conditions that support primitive cells. View Publication