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

The reprogramming of somatic cells into induced pluripotent stem (iPS) cells upon overexpression of the transcription factors Oct4,Sox2,Klf4 and cMyc is inefficient. It has been assumed that the somatic differentiation state provides a barrier for efficient reprogramming; however,direct evidence for this notion is lacking. Here,we tested the potential of mouse hematopoietic cells at different stages of differentiation to be reprogrammed into iPS cells. We show that hematopoietic stem and progenitor cells give rise to iPS cells up to 300 times more efficiently than terminally differentiated B and T cells do,yielding reprogramming efficiencies of up to 28%. Our data provide evidence that the differentiation stage of the starting cell has a critical influence on the efficiency of reprogramming into iPS cells. Moreover,we identify hematopoietic progenitors as an attractive cell type for applications of iPS cell technology in research and therapy. View Publication

Hematopoiesis during development is a dynamic process,with many factors involved in the emergence and regulation of hematopoietic stem cells (HSCs) and progenitor cells. Whereas previous studies have focused on developmental signaling and transcription factors in embryonic hematopoiesis,the role of well-known adult hematopoietic cytokines in the embryonic hematopoietic system has been largely unexplored. The cytokine interleukin-1 (IL-1),best known for its proinflammatory properties,has radioprotective effects on adult bone marrow HSCs,induces HSC mobilization,and increases HSC proliferation and/or differentiation. Here we examine IL-1 and its possible role in regulating hematopoiesis in the midgestation mouse embryo. We show that IL-1,IL-1 receptors (IL-1Rs),and signaling mediators are expressed in the aorta-gonad-mesonephros (AGM) region during the time when HSCs emerge in this site. IL-1 signaling is functional in the AGM,and the IL-1RI is expressed ventrally in the aortic subregion by some hematopoietic,endothelial,and mesenchymal cells. In vivo analyses of IL-1RI-deficient embryos show an increased myeloid differentiation,concomitant with a slight decrease in AGM HSC activity. Our results suggest that IL-1 is an important homeostatic regulator at the earliest time of HSC development,acting to limit the differentiation of some HSCs along the myeloid lineage. View Publication

HSCs are rare cells that have the unique ability to self-renew and differentiate into cells of all hematopoietic lineages. The lack of donors and current inability to rapidly and efficiently expand HSCs are roadblocks in the development of successful cell therapies. Thus,the challenge of ex vivo human HSC expansion remains a fertile and critically important area of investigation. Here,we show that either SALL4A- or SALL4B-transduced human HSCs obtained from the mobilized peripheral blood are capable of rapid and efficient expansion ex vivo by textgreater10 000-fold for both CD34(+)/CD38(-) and CD34(+)/CD38(+) cells in the presence of appropriate cytokines. We found that these cells retained hematopoietic precursor cell immunophenotypes and morphology as well as normal in vitro or vivo potential for differentiation. The SALL4-mediated expansion was associated with enhanced stem cell engraftment and long-term repopulation capacity in vivo. Also,we demonstrated that constitutive expression of SALL4 inhibited granulocytic differentiation and permitted expansion of undifferentiated cells in 32D myeloid progenitors. Furthermore,a TAT-SALL4B fusion rapidly expanded CD34(+) cells,and it is thus feasible to translate this study into the clinical setting. Our findings provide a new avenue for investigating mechanisms of stem cell self-renewal and achieving clinically significant expansion of human HSCs. View Publication

Src homology 2 domain-containing phosphatase 2 (Shp2),encoded by Ptpn11,is a member of the nonreceptor protein-tyrosine phosphatase family,and functions in cell survival,proliferation,migration,and differentiation in many tissues. Here we report that loss of Ptpn11 in murine hematopoietic cells leads to bone marrow aplasia and lethality. Mutant mice show rapid loss of hematopoietic stem cells (HSCs) and immature progenitors of all hematopoietic lineages in a gene dosage-dependent and cell-autonomous manner. Ptpn11-deficient HSCs and progenitors undergo apoptosis concomitant with increased Noxa expression. Mutant HSCs/progenitors also show defective Erk and Akt activation in response to stem cell factor and diminished thrombopoietin-evoked Erk activation. Activated Kras alleviates the Ptpn11 requirement for colony formation by progenitors and cytokine/growth factor responsiveness of HSCs,indicating that Ras is functionally downstream of Shp2 in these cells. Thus,Shp2 plays a critical role in controlling the survival and maintenance of HSCs and immature progenitors in vivo. View Publication

Vinculin is a highly conserved actin-binding protein that is localized in integrin-mediated focal adhesion complexes. Although critical roles have been proposed for integrins in hematopoietic stem cell (HSC) function,little is known about the involvement of intracellular focal adhesion proteins in HSC functions. This study showed that the ability of c-Kit(+)Sca1(+)Lin(-) HSCs to support reconstitution of hematopoiesis after competitive transplantation was severely impaired by lentiviral transduction with short hairpin RNA sequences for vinculin. The potential of these HSCs to differentiate into granulocytic and monocytic lineages,to migrate toward stromal cell-derived factor 1α,and to home to the bone marrow in vivo were not inhibited by the loss of vinculin. However,the capacities to form long term culture-initiating cells and cobblestone-like areas were abolished in vinculin-silenced c-Kit(+)Sca1(+)Lin(-) HSCs. In contrast,adhesion to the extracellular matrix was inhibited by silencing of talin-1,but not of vinculin. Whole body in vivo luminescence analyses to detect transduced HSCs confirmed the role of vinculin in long term HSC reconstitution. Our results suggest that vinculin is an indispensable factor determining HSC repopulation capacity,independent of integrin functions. View Publication

Culturing human embryonic stem and induced pluripotent stem cells (hESCs/iPSCs) is one of the most costly and labor-intensive tissue cultures,as media containing expensive factors/cytokines should be changed every day to maintain and propagate undifferentiated hESCs/iPSCs in vitro. We recently reported that doxycycline,an anti-bacterial agent,had dramatic effects on hESC/iPSC survival and promoted self-renewal. In this study,we extended the effects of doxycycline to a more practical issue to save cost and labor in hESC/iPSC cultures. Regardless of cultured cell conditions,hESCs/iPSCs in doxycycline-supplemented media were viable and proliferating for at least 3 days without media change,while none or few viable cells were detected in the absence of doxycycline in the same conditions. Thus,hESCs/iPSCs supplemented with doxycycline can be cultured for a long period of time with media changes at 3-day intervals without altering their self-renewal and pluripotent properties,indicating that doxycycline supplementation can reduce the frequency of media changes and the amount of media required by 1/3. These findings strongly encourage the use of doxycycline to save cost and labor in culturing hESCs/iPSCs. View Publication

Scl and Lyl1 encode two related basic-helix-loop-helix transcription factors implicated in T cell acute lymphoblastic leukemia. Previous studies showed that Scl is essential for embryonic and adult erythropoiesis,while Lyl1 is important for B cell development. Single-knockout mice have not revealed an essential function for Scl or Lyl1 in adult hematopoietic stem cells (HSCs). To determine if maintenance of HSCs in single-knockout mice is due to functional redundancy,we generated Lyl1;Scl-conditional double-knockout mice. Here,we report a striking genetic interaction between the two genes,with a clear dose dependence for the presence of Scl or Lyl1 alleles for HSC function. Bone marrow repopulation assays and analyses demonstrated rapid loss of hematopoietic progenitors due to apoptosis. The function of HSCs could be rescued by a single allele of Lyl1 but not Scl. These results show that expression of at least one of these factors is essential for maintenance of adult HSC function. View Publication